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Keys Splines and Pins, Square Flat Key, Pratt and Whitney, Woodruff, Crowned Involute Ball Spline Manufacturing, Serrations, Gib-Head Key from AGS-TECH Inc. Keys & Splines & Pins Manufacturing Other miscellaneous fasteners we provide are keys, splines, pins, serrations. KEYS: A key is a piece of steel lying partly in a groove in the shaft and extending into another groove in the hub. A key is used to secure gears, pulleys, cranks, handles, and similar machine parts to shafts, so that the motion of the part is transmitted to the shaft, or the motion of the shaft to the part, without slippage. The key may also act in a safety capacity; its size can be calculated so that when overloading takes place, the key will shear or break before the part or shaft breaks or deforms. Our keys are also available with a taper on their top surfaces. For tapered keys, the keyway in the hub is tapered to accommodate the taper on the key. Some major types of keys we offer are: Square key Flat key Gib-Head Key – These keys are the same as flat or square tapered keys but with added head for ease of removal. Pratt and Whitney Key – These are rectangular keys with rounded edges. Two-thirds of these keys sit in the shaft and one-third in the hub. Woodruff Key – These keys are semicircular and fit into semicircular keyseats in the shafts and rectangular keyways in the hub. SPLINES: Splines are ridges or teeth on a drive shaft that mesh with grooves in a mating piece and transfer torque to it, maintaining the angular correspondence between them. Splines are capable of carrying heavier loads than keys, permit lateral movement of a part, parallel to the axis of the shaft, while maintaining positive rotation, and allow the attached part to be indexed or changed to another angular position. Some splines have straight-sided teeth, whereas others have curved-sided teeth. Splines with curved-sided teeth are called involute splines. Involute splines have pressure angles of 30, 37.5 or 45 degrees. Both internal and external spline versions are available. SERRATIONS are shallow involute splines with 45 degree pressure angles and are used for holding parts like plastic knobs. Major types of splines we offer are: Parallel key splines Straight-side splines – Also called parallel-side splines, they are used in many automotive and machine industry applications. Involute splines – These splines are similar in shape to involute gears but have pressure angles of 30, 37.5 or 45 degrees. Crowned splines Serrations Helical splines Ball splines PINS / PIN FASTENERS: Pin fasteners are an inexpensive and effective method of assembly when loading is primarily in shear. Pin fasteners can be separated into two groups: Semipermanent Pinsand Quick-Release Pins. Semipermanent pin fasteners require application of pressure or the aid of tools for installation or removal. Two basic types are Machine Pins and Radial Locking Pins. We offer the following machine pins: Hardened and ground dowel pins – We have standardized nominal diameters between 3 to 22 mm available and can machine custom sized dowel pins. Dowel pins can be used to hold laminated sections together, they can fasten machine parts with high alignment accuracy, lock components on shafts. Taper pins – Standard pins with 1:48 taper on the diameter. Taper pins are suitable for light-duty service of wheels and levers to shafts. Clevis pins - We have standardized nominal diameters between 5 to 25 mm available and can machine custom sized clevis pins. Clevis pins can be used on mating yokes, forks and eye members in knuckle joints. Cotter pins – Standardized nominal diameters of cotter pins range from 1 to 20 mm. Cotter pins are locking devices for other fasteners and are generally used with a castle or slotted nuts on bolts, screws, or studs. Cotter pins enable low-cost and convenient locknut assemblies. Two basic pin forms are offered as Radial Locking Pins, solid pins with grooved surfaces and hollow spring pins which are either slotted or come with spiral-wrapped configuration. We offer the following radial locking pins: Grooved straight pins – Locking is enabled by parallel, longitudinal grooves uniformly spaced around the pin surface. Hollow spring pins – These pins are compressed when driven into holes and pins exert spring pressure against the hole walls along their entire engaged length to produce locking fits Quick-release pins: Available types vary widely in head styles, types of locking and release mechanisms, and range of pin lengths. Quick-release pins have applications such as clevis-shackle pin, draw-bar hitch pin, rigid coupling pin, tubing lock pin, adjustment pin, swivel hinge pin. Our quick release pins can be grouped into one of two basic types: Push-pull pins – These pins are made with either a solid or hollow shank containing a detent assembly in the form of a locking lug, button or ball, backed up by some sort of plug, spring or resilient core. The detent member projects from the pins surface until sufficient force is applied in assembly or removal to overcome the spring action and to release the pins. Positive-locking pins - For some quick-release pins, the locking action is independent of insertion and removal forces. Positive-locking pins are suited for shear-load applications as well as for moderate tension loads. CLICK Product Finder-Locator Service RÛPERA BERÊ

Industrial & Specialty & Functional Textiles, Hydrophobic - Hydrophillic Textile Materials, Flame Resistant Textiles, Antibasterial, Antifungal, Antistatic, UC Protective Fabrics, Filtering Clothes, Textiles for Surgery, Biocompatible Fabric Tekstîlên Pîşesazî & Taybetî & Fonksiyonel Of interest to us are only specialty & functional textiles and fabrics and products made thereof that serve a particular application. These are engineering textiles of outstanding value, also sometimes referred to as technical textiles and fabrics. Woven as well as non-woven fabrics and cloths are available for numerous applications. Below is a list of some major types of industrial & specialty & functional textiles that are within our product development and manufacturing scope. We are willing to work with you on designing, developing and manufacturing your products made of: Hydrophobic (water repellant) & hydrophilic (water absorbing) textile materials Textiles and fabrics of extraordinary strength, durability and resistance to severe environmental conditions (such as bulletproof, high heat resistant, low-temperature resistant, flame resistant, inert or resistant against corrosive fluids and gases, resisting mildew formation….) Antibacterial & Antifungal textiles and fabrics UV protective Electrically conductive & non-conductive textiles and fabrics Antistatic fabrics for ESD control….etc. Textiles and fabrics with special optical properties and effects (fluorescent…etc.) Textiles, fabrics and cloths with special filtering capabilities, filter manufacturing Industrial textiles such as duct fabrics, interlinings, reinforcement, transmission belts, reinforcements for rubber (conveyer belts, print blankets, cords), textiles for tapes and abrasives. Textiles for the automotive industry (hoses, belts, airbags, interlinings, tires) Textiles for construction, building and infrastructure products (concrete cloth, geomembranes, and fabric innerduct) Composite multi-functional textiles having different layers or components for different functions. Textiles made by activated carbon infusion on polyester fibers to provide cotton hand feel, odor release, moisture management and UV protection features. Textiles made from shape memory polymers Textiles for surgery and surgical implants, biocompatible fabrics Please note that we engineer, design and manufacture products to your needs and specifications. We can either manufacture products according to your specifications or, If desired, we can help you in choosing the right materials and designing the product. You can click on the blue highlighted text below and download these brochures. We can label these products with your name and logo if you wish: - Private Label Cleanroom Consumables and Apparel - Private Label Nano Surface Protection Car Care Products - Private Label Nano Surface Protection Industrial Products - Private Label Nano Surface Protection Marine Products - Private Label Nano Surface Protection Products RÛPERA BERÊ

Fiber Optic Test Instruments - Optical Fiber Testing - OTDR - Loss Meter - Fiber Cleaver - from AGS-TECH Inc. - NM - USA Amûrên Testê yên Fiber Optîk AGS-TECH Inc. offers the following FIBER OPTIC TEST and METROLOGY INSTRUMENTS : - OPTICAL FIBER SPLICER & FUSION SPLICER & FIBER CLEAVER - OTDR & OPTICAL TIME DOMAIN REFLECTOMETER - AUDIO FIBER CABLE DETECTOR - AUDIO FIBER CABLE DETECTOR - OPTICAL POWER METER - LASER SOURCE - VISUAL FAULT LOCATOR - PON POWER METER - FIBER IDENTIFIER - OPTICAL LOSS TESTER - OPTICAL TALK SET - OPTICAL VARIABLE ATTENUATOR - INSERTION / RETURN LOSS TESTER - E1 BER TESTER - FTTH TOOLS You can download our product catalogs and brochures below to choose a suitable fiber optic test equipment for your needs or you may tell us what you need and we will match something suitable for you. We do have in stock brand new as well as refurbished or used but still very good fiber optic instruments. All our equipment is under warranty. Please download our related brochures and catalogs by clicking the colored text below: ANRITSU Electronic Measuring Instruments EXFO Optical Testing Solutions for Manufacturing and R&D EXFO Data Center Solution Guide EXFO Remote Fiber Testing and Monitoring EXFO Test Solutions for Submarine Networks EXFO Quick Guide to Testing FTTH EXFO Fiber Deep and Remote PHY Test Solutions EXFO OTDR and iOLM Selection Guide EXFO Spectral Testing of Active Systems EXFO Network Equipment Manufacturers End-to End Solutions EXFO Expert-Level Field Test Solutions EXFO Mobile Backhaul End to End Network Assessment EXFO High-Speed Product Portfolio EXFO 40G Testing Solutions TRIBRER Handheld Optical Fiber Instruments and Tools You can purchase brand new, refurbished or used equipment from us at the most competitive discounted prices. Simply choose the product from the downloadable catalogs and let us know the product name, product code and relevant information and we will send you our best quote. What distinguishes AGS-TECH Inc. from other suppliers is our wide spectrum of ENGINEERING INTEGRATION and CUSTOM MANUFACTURING capabilities. Therefore, please let us know if you need a custom jig, a custom automation system designed specifically for your fiber optic testing needs. We can modify existing equipment or integrate various components to build a turn-key solution to your engineering needs. It will be our pleasure to briefly summarize and provide information about the main concepts in the realm of FIBER OPTIC TESTING. FIBER STRIPPING & CLEAVING & SPLICING : There are two major types of splicing, FUSION SPLICING and MECHANICAL SPLICING. In industry and high volume manufacturing, fusion splicing is the most widely used technique as it provides for the lowest loss and least reflectance, as well as providing the strongest and most reliable fiber joints. Fusion splicing machines can splice a single fiber or a ribbon of multiple fibers at one time. Most single mode splices are fusion type. Mechanical splicing on the other hand is mostly used for temporary restoration and mostly for multimode splicing. Fusion splicing requires higher capital expenses as compared to mechanical splicing because it requires a fusion splicer. Consistent low loss splices can only be achieved using proper techniques and keeping equipment in good condition. Cleanliness is vital. FIBER STRIPPERS should be kept clean and in good condition and be replaced when nicked or worn. FIBER CLEAVERS are also vital for good splices as one has to have good cleaves on both fibers. Fusion splicers need proper maintenance and fusing parameters need to be set for the fibers being spliced. OTDR & OPTICAL TIME DOMAIN REFLECTOMETER : This instrument is used to test the performance of new fiber optic links and detect problems with existing fiber links. OTDR traces are graphical signatures of a fiber's attenuation along its length. The optical time domain reflectometer (OTDR) injects an optical pulse into one end of the fiber and analyzes the returning backscattered and reflected signal. A technician at one end of the fiber span can measure and localize attenuation, event loss, reflectance, and optical return loss. Examining non-uniformities in the OTDR trace we can evaluate the performance of the link components such as cables, connectors and splices as well as the quality of the installation. Such fiber tests assure us that the workmanship and quality of the installation meet the design and warranty specifications. OTDR traces help characterize individual events that can often be invisible when conducting only loss/length testing. Only with a complete fiber certification, installers can fully understand the quality of a fiber installation. OTDRs are also used for testing and maintaining fiber plant performance. OTDR allows us to see more details impacted by the cabling installation. OTDR maps the cabling and can illustrate termination quality, location of faults. An OTDR provides advanced diagnostics to isolate a point of failure that may hinder network performance. OTDRs allow discovery of problems or potential problems along the length of a channel that may affect long term reliability. OTDRs characterize features such as attenuation uniformity and attenuation rate, segment length, location and insertion loss of connectors and splices, and other events such as sharp bends that may have been incurred during installation of cables. An OTDR detects, locates, and measures events on fiber links and requires access to only one end of the fiber. Here is a summary of what a typical OTDR can measure: Attenuation (also known as fiber loss): Expressed in dB or dB/km, attenuation represents the loss or the rate of loss between two points along the fiber span. Event Loss: The difference in the optical power level before and after an event, expressed in dB. Reflectance: The ratio of reflected power to incident power of an event, expressed as a negative dB value. Optical Return Loss (ORL): The ratio of the reflected power to the incident power from a fiber optic link or system, expressed as a positive dB value. OPTICAL POWER METERS : These meters measure average optical power out of an optical fiber. Removable connector adapters are used in optical power meters so that various models of fiber optic connectors can be used. Semiconductor detectors inside power meters have sensitivities that vary with the wavelength of light. Therefore they are calibrated at typical fiber optic wavelengths such as 850, 1300 and 1550 nm. Plastic Optical Fiber or POF meters on the other hand are calibrated at 650 and 850 nm. Power meters are sometimes calibrated to read in dB (Decibel) referenced to one miliwatt of optical power. Some power meters however are calibrated in relative dB scale, which is well suited for loss measurements because the reference value may be set to “0 dB” on the output of the test source. Rare but occasionally lab meters measure in linear units such as miliwatts, nanowatts….etc. Power meters cover a very broad dynamic range 60 dB. However most optical power and loss measurements are made in the range 0 dBm to (-50 dBm). Special power meters with higher power ranges of up to +20 dBm are used for testing fiber amplifiers and analog CATV systems. Such higher power levels are needed to assure the proper functioning of such commercial systems. Some laboratory type meters on the other hand can measure at very low power levels down to (-70 dBm) or even lower, because in research and development engineers frequently have to deal with weak signals. Continuous wave (CW) test sources are used frequently for loss measurements. Power meters measure the time average of the optical power instead of the peak power. Fiber optic power meters should be recalibrated frequently by labs with NIST traceable calibration systems. Regardless of price, all power meters have similar inaccuracies typically in the neighborhood of +/-5%. This uncertainty is caused by the variability in coupling efficiency at the adapters/connectors, reflections at polished connector ferrules, unknown source wavelengths, nonlinearities in electronic signal conditioning circuitry of the meters and detector noise at low signal levels. FIBER OPTIC TEST SOURCE / LASER SOURCE : An operator needs a test source as well as a FO power meter in order to make measurements of optical loss or attenuation in fibers, cables and connectors. The test source must be chosen for compatibility with the type of fiber in use and the wavelength desired for performing the test. Sources are either LED's or lasers similar to those used as transmitters in actual fiber optic systems. LED's are generally used for testing multimode fiber and lasers for singlemode fibers. For some tests such as measuring spectral attenuation of fiber, a variable wavelength source is used, which is usually a tungsten lamp with a monochromator to vary the output wavelength. OPTICAL LOSS TEST SETS : Sometimes also refered to as ATTENUATION METERS, these are instruments made of fiber optic power meters and sources which are used to measure the loss of fibers, connectors and connectorized cables. Some optical loss test sets have individual source outputs and meters like a separate power meter and test source, and have two wavelengths from one source output (MM: 850/1300 or SM:1310/1550) Some of them offer bidirectional testing on a single fiber and some have two bidirectional ports. The combination instrument which contains both a meter and a source may be less convenient than an individual source and power meter. This is the case when the ends of the fiber and cable are usually separated by long distances, which would require two optical loss test sets instead of one source and one meter. Some instruments also have a single port for bidirectional measurements. VISUAL FAULT LOCATOR : These are simple instruments that inject visible wavelength light into the system and one can visually trace the fiber from transmitter to receiver to insure correct orientation and continuity. Some visual fault locators have powerful visible light sources such as a HeNe laser or visible diode laser and therefore high loss points can be made visible. Most applications center around short cables such as used in telecommunication central offices to connect to the fiber optic trunk cables. Since the visual fault locator covers the range where OTDRs are not useful, it is complementary instrument to the OTDR in cable troubleshooting. Systems with powerful light sources will work on buffered fiber and jacketed single fiber cable if the jacket is not opaque to the visible light. The yellow jacket of singlemode fibers and orange jacket of multimode fibers will usually pass the visible light. With most multifiber cables this instrument cannot be used. Many cable breaks, macrobending losses caused by kinks in the fiber, bad splices….. can be detected visually with these instruments. These instruments have a short range, typically 3-5 km, due to high attenuation of visible wavelengths in fibers. FIBER IDENTIFIER : Fiber Optic technicians need to identify a fiber in a splice closure or at a patch panel. If one carefully bends a singlemode fiber enough to cause loss, the light that couples out can also be detected by a large area detector. This technique is used in fiber identifiers to detect a signal in the fiber at transmission wavelengths. A fiber identifier generally functions as a receiver, is able to discriminate between no signal, a high speed signal and a 2 kHz tone. By specifically looking for a 2 kHz signal from a test source that is coupled into the fiber, the instrument can identify a specific fiber in a large multifiber cable. This is essential in fast and speedy splicing and restoration processes. Fiber identifiers can be used with buffered fibers and jacketed single fiber cables. FIBER OPTIC TALKSET : Optical talk sets are useful for fiber installation and testing. They transmit voice over fiber optic cables that are installed and allow the technician splicing or testing the fiber to communicate effectively. Talksets are even more useful when walkie-talkies and telephones are not available in remote locations where splicing is being done and in buildings with thick walls where radio waves will not penetrate through. Talksets are most effectively used by setting up the talksets on one fiber and leaving them in operation while testing or splicing work is done. This way there will always be a communications link between the work crews and will facilitate deciding which fibers to work with next. The continuous communications capability will minimize misunderstandings, mistakes and will speed up the process. Talksets include those for networking multi-party communications, especially helpful in restorations, and system talksets for use as intercoms in installed systems. Combination testers and talksets are also available commercially. To this date, unfortunately different manufacturers' talksets can not communicate with each other. VARIABLE OPTICAL ATTENUATOR : Variable Optical Attenuators allow the technician to manually vary the attenuation of the signal in the fiber as it is transmitted through the device. VOAs can be used to balance the signal strengths in fiber circuits or to balance an optical signal when evaluating the dynamic range of the measurement system. Optical attenuators are commonly used in fiber optic communications to test power level margins by temporarily adding a calibrated amount of signal loss, or installed permanently to properly match transmitter and receiver levels. There are fixed, step-wise variable, and continuously variable VOAs commercially available. Variable optical test attenuators generally use a variable neutral density filter. This offers the advantages of being stable, wavelength insensitive, mode insensitive, and a large dynamic range. A VOA may be either manually or motor controlled. Motor control provides users a distinct productivity advantage, since commonly used test sequences can be run automatically. The most accurate variable attenuators have thousands of calibration points, resulting in excellent overall accuracy. INSERTION / RETURN LOSS TESTER : In fiber optics, Insertion Loss is the loss of signal power resulting from the insertion of a device in a transmission line or optical fiber and is usually expressed in decibels (dB). If the power transmitted to the load before insertion is PT and the power received by the load after insertion is PR, then the insertion loss in dB is given by: IL = 10 log10(PT/PR) Optical Return Loss is the ratio of the light reflected back from a device under test, Pout, to the light launched into that device, Pin, usually expressed as a negative number in dB. RL = 10 log10(Pout/Pin) Loss may be caused by reflections and scattering along the fiber network due to contributors such as dirty connectors, broken optical fibers, poor connector mating. Commercial optical return loss (RL) & insertion loss (IL) testers are high performance loss test stations that are designed specially for optical fibre testing, lab testing and passive components production. Some integrate three different tests modes in one test station, working as a stable laser source, optical power meter and a return loss meter. The RL and IL measurements are displayed on two separate LCD screens, whilst in return loss test model, the unit will automatically and synchronously set the same wavelength for the light source and power meter. These instruments come complete with FC, SC, ST and universal adaptors. E1 BER TESTER : Bit error rate (BER) tests allow technicians to test cables and diagnose signal problems in the field. One can configure individual T1 channel groups to run an independent BER test, set one local serial port to Bit error rate test (BERT) mode while the remaining local serial ports continue to transmit and receive normal traffic. The BER test checks communication between the local and the remote ports. When running a BER test, the system expects to receive the same pattern that it is transmitting. If traffic is not being transmitted or received, technicians create a back-to-back loopback BER test on the link or in the network, and send out a predictable stream to ensure that they receive the same data that was transmitted. To determine whether the remote serial port returns the BERT pattern unchanged, technicians must manually enable network loopback at the remote serial port while they configure a BERT pattern to be used in the test at specified time intervals on the local serial port. Later they can display and analyze the total number of error bits transmitted and the total number of bits received on the link. Error statistics can be retrieved anytime during the BER test. AGS-TECH Inc. offers E1 BER (Bit Error Rate) testers that are compact, multi-functional and handheld instruments, specially designed for R&D, production, installation and maintenance of SDH, PDH, PCM, and DATA protocol conversion. They feature self-check and keyboard testing, extensive error and alarm generation, detection and indication. Our testers provide smart menu navigation and have a large color LCD screen allowing test results to be displayed clearly. Test results can be downloaded and printed using product software included in the package. E1 BER Testers are ideal devices for fast problem resolution, E1 PCM line access, maintenance and acceptance testing. FTTH – FIBER TO THE HOME TOOLS : Among the tools we offer are single and multihole fiber strippers, fiber tubing cutter, wire stripper, Kevlar cutter, fiber cable slitter, single fiber protection sleeve, fiber microscope, fiber connector cleaner, connector heating oven, crimping tool, pen type fiber cutter, ribbon fiber buff stripper, FTTH tool bag, portable fiber optic polishing machine. If you haven't found something that fits your needs and would like to search further for other similar equipment, please visit our equipment website: http://www.sourceindustrialsupply.com CLICK Product Finder-Locator Service RÛPERA BERÊ

Ultrasonic Machining, Ultrasonic Impact Grinding, Rotary Ultrasonic Machining, Non-Conventional Machining, Custom Manufacturing - AGS-TECH Inc. New Mexico, USA Ultrasonic Machining & Rotary Ultrasonic Machining & Ultrasonic Impact Grinding Another popular NON-CONVENTIONAL MACHINING technique we frequently use is ULTRASONIC MACHINING (UM), also widely known as ULTRASONIC IMPACT GRINDING, where material is removed from a workpiece surface by microchipping and erosion with abrasive particles using a vibrating tool oscillating at ultrasonic frequencies, aided by an abrasive slurry that flows freely between the workpiece and the tool. It differs from most other conventional machining operations because very little heat is produced. The tip of the ultrasonic machining tool is called a “sonotrode” which vibrates at amplitudes of 0.05 to 0.125 mm and frequencies around 20 kHz. The vibrations of the tip transmit high velocities to fine abrasive grains between the tool and the surface of the workpiece. The tool never contacts the workpiece and therefore the grinding pressure is rarely more than 2 pounds. This working principle makes this operation perfect for machining extremely hard and brittle materials, such as glass, sapphire, ruby, diamond, and ceramics. The abrasive grains are located within a water slurry with a concentration between 20 to 60% by volume. The slurry also acts as the carrier of the debris away from the cutting / machining region. We use as abrasive grains mostly boron carbide, aluminum oxide and silicon carbide with grain sizes ranging from 100 for roughing processes to 1000 for our finishing processes. The ultrasonic-machining (UM) technique is best suited for hard and brittle materials like ceramics and glass, carbides, precious stones, hardened steels. The surface finish of ultrasonic machining depends upon the hardness of the workpiece/tool and the average diameter of the abrasive grains used. The tool tip is generally a low-carbon steel, nickel and soft steels attached to a transducer through the toolholder. The ultrasonic-machining process utilizes the plastic deformation of metal for the tool and the brittleness of the workpiece. The tool vibrates and pushes down on the abrasive slurry containing grains until the grains impact the brittle workpiece. During this operation, the workpiece is broken down while the tool bends very slightly. Using fine abrasives, we can achieve dimensional tolerances of 0.0125 mm and even better with ultrasonic-machining (UM). Machining time depends upon the frequency at which the tool is vibrating, the grain size and hardness, and the viscosity of the slurry fluid. The less viscous the slurry fluid, the faster it can carry away used abrasive. Grain size must be equal or greater than the hardness of the workpiece. As an example we can machine multiple aligned holes 0.4 mm in diameter on a 1.2 mm wide glass strip with ultrasonic machining. Let us get a little bit into the physics of the ultrasonic machining process. Microchipping in ultrasonic machining is possible thanks to the high stresses produced by particles striking the solid surface. Contact times between particles and surfaces are very short and in the order of 10 to 100 microseconds. The contact time can be expressed as: to = 5r/Co x (Co/v) exp 1/5 Here r is the radius of the spherical particle, Co is the elastic wave velocity in the workpiece (Co = sqroot E/d) and v is the velocity that the particle hits the surface with. The force a particle exerts on the surface is obtained from the rate of change of momentum: F = d(mv)/dt Here m is the grain mass. The average force of the particles (grains) hitting and rebounding from the surface is: Favg = 2mv / to Here to is the contact time. When numbers are plugged into this expression, we see that even though the parts are very small, since the contact area is also very small, the forces and thus the stresses exerted are significantly high to cause microchipping and erosion. ROTARY ULTRASONIC MACHINING (RUM): This method is a variation of ultrasonic machining, where we replace the abrasive slurry with a tool that has metal-bonded diamond abrasives that have been either impregnated or electroplated on the tool surface. The tool is rotated and ultrasonically vibrated. We press the workpiece at constant pressure against the rotating and vibrating tool. The rotary ultrasonic machining process gives us capabilities such as producing deep holes in hard materials at high material removal rates. Since we deploy a number of conventional and non-conventional manufacturing techniques, we can be of help to you whenever you have questions about a particular product and the fastest and most economical way of manufacturing & fabricating it. CLICK Product Finder-Locator Service RÛPERA BERÊ

Networking and Communication Products Gallery from AGS-TECH Inc., ATOP Technologies, Janz Tec, Korenix, DFI-ITOX, ICP DAS Tora û Berhemên Ragihandinê Galeriya hilberên torê û ragihandinê, Teknolojiyên ATOP, Janz Tec, Korenix, ICP DAS, DFI-ITOX û markayên din ên bi kalîte yên guhêzbarên ethernet, guheztina gigabit-3, modula PoE, servera cîhaza rêzefîlmên pîşesaziyê, koncentratorê Modbus, rêzikên pîşesazî-to- converter medya fiber û zêdetir. Hûn dikarin van ji bo kêmtirîn bihayên garantîkirî ji me re ferman bikin. Em ji bihayên navnîşê dakêşanên bi comerdî didin !!! Hilberên Tora Kalîteya Top ji Teknolojiyên ATOP. Em bi bihayên kêmtirîn garantîkirî difiroşin. Tenzîlatên mezin ji bihayên navnîşê ger hûn ji me bikirin. ATOP Technologies SFP Transceivers Optical. Em bi kêmtir difiroşin. Em bi daxistinan çêtirîn ji bihayên navnîşê difiroşin. Modbus Gateway Ethernet, RJ-45, RS-232/422/485, USB ku ji hêla ATOP Technlogies ve hatî çêkirin û ji hêla AGS-Electronics ve ji bo bihayên kêmtirîn garantîkirî yên sûkê ji we re tê pêşkêş kirin. Zêdetirî 25 sal berê hate damezrandin, Atop Technologies mezin bûye û bûye sêwiraner û çêkerek pêşeng a tora pîşesaziyê û pergalên hilbijartî. Atop Technologies di nav gelek pîşesaziyan de wekî hilberînerê bijarte navûdengê xwe pêşkêşî dike. Ger hûn hilberên ATOP ji me bikirin, hûn ê li sûkê dakêşanên çêtirîn bistînin û heke hûn hewceyê tiştek taybetî bin em dikarin ji we re bibin alîkar ku hûn hilberên xwerû ji we re pêşve bibin. Ji bo ku hûn li ser van torgilok û amûrên ragihandinê yên branda ATOP Technologies ku em pêşkêş dikin bêtir fêr bibin, ji kerema xwe dakêşin: Broşûra hilberê meya ATOP TECHNOLOGIES dakêşin (Lîsteya Hilbera Teknolojiyên ATOP 2021 dakêşin) Janz Tec Brand Pergala PC-ya Vekirî ya bê Fan Processor Intel ATOM. Em li ser hilberên Janz Tec bihayên kêmtirîn garantî dikin. emPC-A/RPI3B+ Kontrolkerê Embedded-ya bingehîn a Raspberry Pi ku ji hêla Janz Tec ve hatî çêkirin û hilberandin, ji me re bi dakêşanên çêtirîn peyda dibe. Portfoliyoya Janz Tec ya PC-yên pêvekirî hate dirêj kirin û rêzeya dergehê IoT emIOT hate destpêkirin. Ew xeta hilberê emPC bi pergalên ku bi taybetî ji bo makîne û pêvajoyên torê hatine çêkirin re temam dike. Em van bi bihayên kêmtirîn garantîkirî difiroşin. Pergalên me yên Panel PC-ya branda Janz Tec wekî emVIEW û emWEB (Panelên Webê) têne zanîn. Hemî xwedan dîmenên pêwendiya berxwedêr an kapasît in û di pîvanên dîmenderê yên cihêreng de di faktorên forma 4: 3 û 16: 9 de hene. Hemî pergal di sêwirana panela pêşîn de bi nermî adapteyî û xwerû ne. Broşûra me ya li jêr dakêşin û heke we pêdivî bi tiştek xwerû hebe tenê ji me re agahdar bikin û em ê wê ji we re çêkin. Broşûra hilbera berhevoka meya modela JANZ TEC dakêşin Teknolojiya Korenix, hilberînerek pêşeng a gerdûnî ye ku Çareseriyên Tora Pîşesaziyê yên Wired û Bêtêl ên nûjen, bazarparêz, nirxdar peyda dike. Em hilberên jêrîn ên Korenix ji bo bihayên kêmtirîn garantîkirî yên li sûkê pêşkêşî we dikin: Guhezên Ethernet ên Pîşesaziyê : Rackmount, Dîwarê, Din-Rail, Nerêveber, Birêvebir Guhezên Pîşesaziya Hêza Ser-Ethernet (PoE) : Rackmount, Dîwarê, Din-Rail, Nerêveber, Birêvebir Ethernet SFP/SFP+ Transceiver Fiber: 100M, 1000M, 10G Çareseriya Wireless & Cellular Pîşesaziyê : Xala Gihîştina LAN, Kontrolkerê WLAN, Routera Mobîl/Gateway Veguherkera Medyaya Pîşesaziyê : Ethernet, Serial Komputera Pîşesaziyê & Pêşkêşkara Rêze & I/O: Komputera Routerê VPN, RISC, X86, Pêşkêşkara Amûra Rêzefîlmê, Qerta Guhestinê & Modula I/O Nermalava Rêvebiriya Torê : Pergala Rêvebiriya Tora Zehmetkêş a Pîşesaziya Korenix NMS, Rêvebirê Rêvebirê Mobile Korenix Korenix JetNet 2005 L2 L3 Switch Ethernet Fast Pênc Port. Korenix JetNet 2005 Guhestina Ethernet a 5-port 10/100Base-TX Pîşesazî ye. JetNet 2005 sêwirana pîşesaziyê ya zirav qebûl dike da ku cîhê rêhesinê ji bo pergalên kompakt xilas bike. Ji bo ku di bin hawîrdora dijwar de bijî, JetNet 2005 dozek aluminium-a pola pîşesaziyê bi kapasîteya parastina pola IP31 li dijî toz û avê vedihewîne. JetNet 2005 ji bo bûyerên dakêşana girêdana portê yek derketinek relay peyda dike, ku ji hêla veguheztina DIP-ê ve tê çalak kirin/neçalak kirin. Digel vê yekê, JetNet 2005 li hember çavkaniya hêzê ya bêîstiqrar xwedan parastinek baş e û dikare ji hêla bloka termînalê ve têketina hêza DC 18 ~ 32V qebûl bike. Broşûra hilbera kompakt a branda KORENIX dakêşin PET-7H16M-a nû ya ICP DAS USA modulek bidestxistina daneya bilez a bi portek pêwendiya Ethernet-ê ya çêkirî ye ji bo veguheztina daneya torê. Hûn dikarin hilberên me yên branda ICP DAS ji lînkên jêrîn kontrol bikin. Bidestxistina Daneyan (DAQ) - Kontrola Bicîbûyî - Berhemên Ragihandina Pîşesaziyê ji ICP DAS. Em li ser van bihayên herî kêm garantî dikin. Download our ICP DAS brand industrial communication and networking products brochure Download our ICP DAS brand industrial Ethernet switch for rugged environments Download our ICP DAS brand PACs Embedded Controllers & DAQ brochure Download our ICP DAS brand Industrial Touch Pad brochure Download our ICP DAS brand Remote IO Modules and IO Expansion Units brochure Download our ICP DAS brand PCI Boards and IO Cards Moda Pîşesaziya Pîşesaziyê modela branda DFI-ITOX G4S601-B, ji AGS-Electronics bi bihayên bazarê yên herî kêm garantîkirî peyda dibe. Ji bo hilbijarkek berfireh broşurên DFI-ITOX li jêr dakêşin. DFI ITOX pêşkêşkerek pêşeng a gerdûnî ya teknolojiya hesabkirinê ya performansa bilind e li seranserê pîşesaziyên pêvekirî. Berhemên pola pîşesazî yên DFI dihêle ku xerîdar alavên xwe xweştir bikin û pêbaweriya bilind, çerxa jiyanê ya demdirêj, û domdariya 24/7 di Automasyon , Bijîjkî , Lîstik , Veguhestin , Enerjî , mîsyon-krîtîk, û kirrûbirra jîr de misoger bikin. Marqeya meya DFI-ITOX dakêşin Broşûra Motherboards Pîşesazî Broşûra meya DFI-ITOX-ê ya komputerên panelê yên yekgirtî dakêşin Broşûra pergalên pêvekirî yên modela DFI-ITOX dakêşin Broşura meya modulên komputer-li-board modela DFI-ITOX dakêşin RÛPERA BERÊ

Rubber and Elastomer Molds & Molding, Rubber Injection Molding, Rubber Toy Manufacturing Çûçik û Elastomer Molds & Molding Parçeyek bi derzîlêdana gomê ku bi parçeyên din ên metal ve hatî berhev kirin. Em qalib û amûran çêdikin da ku parçeyên xwerû yên we hilberînin. Civîna mekanîkî ya bi hêmanek çêkirî ya derzîlêdana gomê. Tevahiya meclîsê ji hêla AGS-TECH Inc ve hatî çêkirin. Lîstikên gomî yên ku ji hêla AGS-TECH Inc. Parçeyên xwerû ji cûrbecûr materyalên gomî hatine çêkirin Ji bo Yek ji Xerîdarên Me Mêjûwa Gomûka Xwerû ya Matên Otomotîvê - AGS-TECH Inc - Serdana me bikin www.agstech.net Parçeyên gomî yên çêkirî yên ku di nav tiştên werzîşê de têne berhev kirin. Hemî pêkhateyên ku ji hêla AGS-TECH Inc. ve hatî çêkirin û berhev kirin. Hilberîna kemberên gomî ji hêla AGS-TECH Inc. Hilberîna O-Ring li AGS-TECH Inc. Kits O-Ring Molded Parçeyên gomê yên jêkirî ji EPDM - NBR - CR - SILÎKON - PVC - TPE - TPV Derxistina gomê ji EPDM - NBR - CR - SILICONE - PVC - TPE - TPV ji hêla AGS-TECH ve hatî çêkirin Extrusion ji EPDM - NBR - CR - SILICONE - PVC - TPE - TPV Parçeyên gomê yên çêkirî yên ji EPDM - NBR - CR - SILÎKON - PVC - TPE - TPV Lastîka derbirkirî ku ji EPDM - NBR - CR - SILÎKON - PVC - TPE - TPV hatî çêkirin RÛPERA BERÊ

Custom Manufactured Parts, Assemblies, Plastic Mold, Rubber Molding, Metal Casting, CNC Machining, Turning, Milling, Electrical Electronic Optical Assembly PCBA Parçe & Meclîs & Berhemên Xweserî Çêkirî Read More Qalibên Plastîk & Gomûk û Molding Read More Casting and Machining Read More Extrusions, Berhemên Extruded Read More Stampings & Sheet Metal Fabrication Read More Metal Forging & Powder Metalurgy Read More Têl & Çêkirina Biharê Read More Çêkirin & Şêwekirin Glass & Seramîk Read More Zêdekirin û Hilberîna Bilez Read More Hilberîna Materyalên Pêkhatî & Pêkhatî Read More Pêvajoyên Tevlîbûn & Civîn & Çêkirin We produce parts and assemblies for you and offer the following manufacturing processes: • Plastic and rubber moulds and moulded parts. Injection moulding, thermoforming, thermoset moulding, vacuum forming, blow moulding, rotational moulding, pour moulding, insert moulding and others. • Plastic, rubber and metal extrusions • Ferrous and nonferrous castings and machined parts produced by milling and turning techniques, Swiss-type machining. • Powder metallurgy parts • Metal and nonmetal stampings, sheet metal forming, welded sheet metal assemblies • Cold and hot forging • Wires, welded wire assemblies, wire forming • Various types of springs, spring forming • Gear manufacturing, gearbox, coupling, worm, speed reducer, cylinder, transmission belts, transmission chains, transmission components • Custom tempered and bulletproof glass compliant with NATO and military standards • Balls, bearings, pulleys and pulley assemblies • Valves and pneumatic components such as O-ring, washer and seals • Glass and ceramic parts and assemblies, vacuum proof and hermetic components, metal-ceramic and ceramic-ceramic bonding. • Various types of mechanical, optomechanical, electromechanical, optoelectronic assemblies. • Metal-rubber, metal-plastic bonding • Pipe and tube, pipe forming, bending and custom pipe assemblies, bellow manufacturing. • Fiberglass manufacturing • Welding using various techniques such as spot welding, laser welding, MIG, TIG. Ultrasonic welding for plastic parts. • Vast variety of surface treatments and surface finishes such as surface conditioning to enhance adhesion, depositing thin oxide layer to enhance adhesion of coating, sand blasting, chem-film, anodizing, nitriding, powder coating, spray coating, various advanced metallization and coating techniques including sputtering, electron beam, evaporation, plating, hard coatings such as diamond like carbon (DLC) or titanium for cutting and drilling tools. • Marking and labeling, laser marking on metal parts, printing on plastic and rubber parts Download brochure for Common Mechanical Engineering Terms used by Designers and Engineers We build products according to your particular specifications and requirements. In order to offer you the best quality, delivery and prices, we manufacture products globally in China, India, Taiwan, Philippines, South Korea, Malaysia, Sri Lanka, Turkey, USA, Canada, Germany, UK and Japan. This makes us much stronger and globally more competitive than any other custom manufacturer. Our products are manufactured in ISO9001:2000, QS9000, ISO14001, TS16949 certified environments and possess CE, UL mark and meet other industry standards. Once we are appointed for your project, we can take care of the entire manufacturing, assembly, testing, qualification, shipping & customs as you wish. If you prefer, we can warehouse your parts, assemble custom kits, print and label your company name & brand and drop ship to your customers. In other words, we can be your warehousing and distribution center as well if preferred. Since our warehouses are located near major seaports, it gives us logistical advantage. For example, when your products arrive at a major USA seaport, we can transport it directly to a nearby warehouse where we can store, assemble, make kits, relabel, print, package according to your choice and drop ship to your customers. We not only supply products. Our company works on custom contracts where we come to your site, evaluate your project on site and develop a project proposal custom designed for you. We then send our experienced team to implement the project. More information about our engineering work can be found on http://www.ags-engineering.com -We take small projects as well as large projects at industrial scale. As a first step, we can connect you either by phone , teleconferencing or MSN messenger to our expert team members, so you can communicate directly to an expert, ask questions and discuss your project. Call us and if needed we will come and visit you. RÛPERA BERÊ

Private Labeling, White Labeling, Private Label, White Label AGS-TECH, Inc. ya we ye Hilberîner û Pêşkêşkarê Labela Taybet û Spî. Hûn dikarin hilberên bi navê marqeya xwe, logo û etîketa xwe ji me bikirin. Gelek hilberên me yên hazir û bê-refê dikarin bi navê marqeya we li ser wan ji we re werin şandin, da ku hûn tavilê dest bi firotin û danasîna marqeya xwe bikin. Etîketkirina Taybet & Nîşankirina Spî Berhemên Xwe If you wish, after manufacturing your products, we can PRIVATE LABEL or WHITE LABEL your products with your name, your brand name or any name you wish. Private labeling or white labeling means a product is manufactured by one company and sold under another company's brand name or some other name. Retailers often use private labeling to offer many items to their clients, expand their catalogs, and undercut competitor pricing. If your company is planning to sell products under its name or adding new products to its current spectrum, private labeling may be an excellent option for you. Private labeling allows you to outsource the sourcing, procurement, manufacturing, importing, shipping & logistics and other aspects of the supply chain to another company. Private labeling will enable you to gain access to the entire supply chain without requiring you to build your own supply network infrastructure. There is a small difference between private labeling and white labeling. The main difference is that a private label product is sold exclusively through one seller or retailer, whereas a white label product can be sold to several buyers or retailers and resold by them to final customers. We can manufacture and supply many products to you with your private label and your brand name. Thus, your customers will only know you as their supplier. If you wish, we can oversee everything from the product's specifications, packaging, labeling, marking and everything else until the product is received by you. Here is a brief list of some industrial products we can supply you with YOUR BRAND NAME on them. Below list is in alphabetical order. Abrasives Adhesives Alarm Cabling Automation & Integration Equipment Automotive Accessories Automotive Components and Parts Automotive Test Equipment, Data Logger, Bu Engine Analyzer, Bearings & Bushings Bike and Biker Accessories Cables & Cabling Car Accessories Chains Coaxial Cables Computers Connectors & Adapters Construction Tools Consumer Electronics Containers Corporate Gifts Cutting Tools Drilling Tools Electric Chargers Electric Transformers Electric Vehicle Chargers Electronic Products and Accessories Embedded Computers Endoscopes Engine Parts EV Chargers Fasteners Fiberscopes Fiberoptic Cables Fiberoptic Devices Filters & Filtration Systems Flash Storage Devices Gaskets Gears Hand Tools Hose Crimping Machines Hydraulic Products & Components Hydraulic Reservoirs Imaging Systems Industrial Supplies Interconnects Leak Testing Machine Leather Work Gear & Gloves LED Lighting Lighting Products & Accessories Lubricants & Degreasers Machines Motorcycle Parts and Accessories Optical Transceivers Packages & Packaging Materials Phototherapy Devices Photovoltaic Components and Systems Plastic Products Pneumatic Products & Components Power Tools Racks, Pinions, Splines, Gears Rigging Hardware Ropes & Cords Rubber Products Sensors Speaker Cabling Storage Devices Switches Test Equipment Tools & Hardware Transceivers Transformers (Electrical) Tube Bending Machines Tube Endforming Machine USB Drives Valves Work Tools VIR CLICK Li vir bikirtînin da ku forma me tije bikin - DAXWAZ JI BO BERHEMÊN LABELÊN TAYBET AN SPÎ VIR CLICK Li vir bikirtînin da ku biçin rûpela me ya li ser KATELOGÊN BERHEMÊN LABELÊN TAYBET Û SPÎ VIR CLICK Li vir bikirtînin da ku herin rûpela me ya li ser PAKETANIYA LABELÊN TAYBET Û SPÎ Û LÊBAZKIRINA BERHEMÊN, PÊKÎ, XIZMETAN Em AGS-TECH Inc., çavkaniya weya yek-stop ji bo çêkirin û çêkirin û endezyarî û jêderxistin û yekbûnek we ne. Em entegratora endezyariya herî cihêreng a Cîhanê ne ku çêkirina xwerû, binecivîn, komkirina hilberan û karûbarên endezyariyê pêşkêşî we dikin.

Pneumatic and Hydraulic Actuators - Accumulators - AGS-TECH Inc. - NM Actuators Accumulators AGS-TECH is a leading manufacturer and supplier of PNEUMATIC and HYDRAULIC ACTUATORS for assembly, packaging, robotics, and industrial automation. Our actuators are known for performance, flexibility, and extremely long life, and welcome the challenge of many different types of operating environments. We also supply HYDRAULIC ACCUMULATORS which are devices in which potential energy is stored in the form of a compressed gas or spring, or by a raised weight to be used to exert a force against a relatively incompressible fluid. Our fast delivery of pneumatic and hydraulic actuators and accumulators will reduce your inventory costs and keep your production schedule on track. ACTUATORS: An actuator is a type of motor responsible for moving or controlling a mechanism or system. Actuators are operated by a source of energy. Hydraulic actuators are operated by hydraulic fluid pressure, and pneumatic actuators are operated by pneumatic pressure, and convert that energy into motion. Actuators are mechanisms by which a control system acts upon an environment. The control system may be a fixed mechanical or electronic system, a software-based system, a person, or any other input. Hydraulic actuators consist of cylinder or fluid motor that uses hydraulic power to facilitate mechanical operation. The mechanical motion may give an output in terms of linear, rotary or oscillatory motion. Since liquids are nearly impossible to compress, hydraulic actuators can exert considerable forces. Hydraulic actuators may have however limited acceleration. The actuator’s hydraulic cylinder consists of a hollow cylindrical tube along which a piston can slide. In single acting hydraulic actuators the fluid pressure is applied to just one side of the piston. The piston can move in only one direction, and a spring is generally used to give the piston a return stroke. Double acting actuators are used when pressure is applied on each side of the piston; any difference in pressure between the two sides of the piston moves the piston to one side or the other. Pneumatic actuators convert energy formed by vacuum or compressed air at high pressure into either linear or rotary motion. Pneumatic actuators enable large forces to be produced from relatively small pressure changes. These forces are often used with valves to move diaphragms to affect the flow of liquid through the valve. Pneumatic energy is desirable because it can respond quickly in starting and stopping as the power source does not need to be stored in reserve for operation. Industrial applications of actuators include automation, logic and sequence control, holding fixtures, and high-power motion control. Automotive applications of actuators on the other hand include power steering, power brakes, hydraulic brakes, and ventilation controls. Aerospace applications of actuators include flight-control systems, steering-control systems, air conditioning, and brake-control systems. COMPARING PNEUMATIC and HYDRAULIC ACTUATORS: Pneumatic linear actuators consist of a piston inside a hollow cylinder. Pressure from an external compressor or manual pump moves the piston inside the cylinder. As pressure is increased, the actuator’s cylinder moves along the axis of the piston, creating a linear force. The piston returns to its original position by either a spring-back force or fluid being supplied to the other side of the piston. Hydraulic linear actuators function similar to pneumatic actuators, but an incompressible liquid from a pump rather than pressurized air moves the cylinder. The benefits of pneumatic actuators come from their simplicity. The majority of pneumatic aluminum actuators have a maximum pressure rating of 150 psi with bore sizes ranging from 1/2 to 8 in., which can be converted into approximately 30 to 7,500 lb. of force. Steel pneumatic actuators on the other hand have a maximum pressure rating of 250 psi with bore sizes ranging from 1/2 to 14 in., and generate forces ranging from 50 to 38,465 lb. Pneumatic actuators generate precise linear motion by providing accuracies such as 0.1 inches and repeatabilities within .001 inches. Typical applications of pneumatic actuators are areas of extreme temperatures such as -40 F to 250 F. Using air, pneumatic actuators avoid using hazardous materials. Pneumatic actuators meet explosion protection and machine safety requirements because they create no magnetic interference due to their lack of motors. The cost of pneumatic actuators is low compared to hydraulic actuators. Pneumatic actuators are also lightweight, require minimal maintenance, and have durable components. On the other hand there are disadvantages of pneumatic actuators: Pressure losses and air’s compressibility make pneumatics less efficient than other linear-motion methods. Operations at lower pressures will have lower forces and slower speeds. A compressor must run continuously and apply pressure even if nothing is moving. To be efficient, pneumatic actuators must be sized for a specific job and cannot be used for other applications. Accurate control and efficiency requires proportional regulators and valves, which is costly and complex. Even though the air is easily available, it can be contaminated by oil or lubrication, leading to downtime and maintenance. Compressed air is a consumable that needs to be purchased. Hydraulic actuators on the other hand are rugged and suited for high-force applications. They can produce forces 25 times greater than pneumatic actuators of equal size and operate with pressures of up to 4,000 psi. Hydraulic motors have high horsepower-to-weight ratios by 1 to 2 hp/lb greater than a pneumatic motor. Hydraulic actuators can hold force and torque constant without the pump supplying more fluid or pressure, because fluids are incompressible. Hydraulic actuators can have their pumps and motors located a considerable distance away with still minimal power losses. However hydraulics will leak fluid and result in less efficiency. Hydraulic fluid leaks lead to cleanliness problems and potential damage to surrounding components and areas. Hydraulic actuators require many companion parts, such as fluid reservoirs, motors, pumps, release valves, and heat exchangers, noise-reduction equipment. As a result hydraulic linear motion systems are large and difficult to accommodate. ACCUMULATORS: These are used in fluid power systems to accumulate energy and to smooth out pulsations. Hydraulic system that utilize accumulators can use smaller fluid pumps because accumulators store energy from the pump during low demand periods. This energy is available for instantaneous use, released upon demand at a rate many times greater than could be supplied by the pump alone. Accumulators can also act as surge or pulsation absorbers by cushioning hydraulic hammers, reducing shocks caused by rapid operation or sudden starting and stopping of power cylinders in a hydraulic circuit. There are four major types of accumulators: 1.) The weight loaded piston type accumulators, 2.) Diaphragm type accumulators, 3.) Spring type accumulators and the 4.) Hydropneumatic piston type accumulators. The weight loaded type is much larger and heavier for its capacity than modern piston and bladder types. Both the weight loaded type, and mechanical spring type are very seldom used today. The hydro-pneumatic type accumulators use a gas as a spring cushion in conjunction with a hydraulic fluid, the gas and fluid being separated by a thin diaphragm or a piston. Accumulators have the following functions: -Energy Storage -Absorbing Pulsations -Cushioning Operating Shocks -Supplementing Pump Delivery -Maintaining Pressure -Acting as Dispensers Hydro-pneumatic accumulators incorporate a gas in conjunction with a hydraulic fluid. The fluid has little dynamic power storage capability. However, the relative incompressibility of a hydraulic fluid makes it ideal for fluid power systems and provides quick response to power demand. The gas, on the other hand, a partner to the hydraulic fluid in the accumulator, can be compressed to high pressures and low volumes. Potential energy is stored in the compressed gas to be released when needed. In the piston type accumulators the energy in the compressed gas exerts pressure against the piston separating the gas and the hydraulic fluid. The piston in turn forces the fluid from the cylinder into the system and to the location where useful work needs to be accomplished. In most fluid power applications, pumps are used to generate the required power to be used or stored in a hydraulic system, and pumps deliver this power in a pulsating flow. The piston pump, as commonly used for higher pressures produces pulsations detrimental to a high pressure system. An accumulator properly located in the system will substantially cushion these pressure variations. In many fluid power applications the driven member of the hydraulic system stops suddenly, creating a pressure wave which is sent back through the system. This shock wave can develop peak pressures several times greater than normal working pressures and can be the source of system failure or disturbing noise. The gas cushioning effect in an accumulator will minimize these shock waves. An example of this application is the absorption of shock caused by suddenly stopping the loading bucket on a hydraulic front end loader. An accumulator, capable of storing power, can supplement the fluid pump in delivering power to the system. The pump stores potential energy in the accumulator during idle periods of the work cycle, and the accumulator transfers this reserve power back to the system when the cycle requires emergency or peak power. This enables a system to utilize smaller pumps, resulting in cost and power savings. Pressure changes are observed in hydraulic systems when the liquid is subjected to rising or falling temperatures. Also, there may be pressure drops due to leakage of hydraulic fluids. Accumulators compensate for such pressure changes by delivering or receiving a small amount of hydraulic liquid. In the event the main power source should fail or be stopped, accumulators would act as auxiliary power sources, maintaining pressure in the system. Lastly, accumulators mcan be used to dispense fluids under pressure, such as lubricating oils. Please click on highlighted text below to download our product brochures for actuators and accumulators: - Pneumatic Cylinders - YC Series Hydraulic Cyclinder - Accumulators from AGS-TECH Inc CLICK Product Finder-Locator Service RÛPERA BERÊ

AGS-TECH Inc. Quoting Process for Custom Manufactured Components, Subassemblies, Assemblies and Products Em çawa Projeyan Dibêjin? Hêman, Meclîs û Berhemên Xweser ên Hilberînerî Dibêjin Quoting off-shelf products is simple. However, more than half of the enquiries we receive are manufacturing requests for non-standard components, assemblies and products. These are categorized as CUSTOM MANUFACTURING PROJECTS. We receive from our existing as well as new potential customers RFQs (Request for Quote) and RFPs (Request for Proposals) for new projects, parts, assemblies and products on a continuous daily basis. Having to deal with out-of-the-ordinary manufacturing requests for many years, we have developed an efficient, fast, accurate quotation process that covers a wide spectrum of technologies. AGS-TECH Inc. is the World’s MOST DIVERSE ENGINEERING INTEGRATOR. The most outstanding advantage we offer you is being a one-stop source for all your manufacturing, fabrication, engineering, integration needs. QUOTING PROCESS at AGS-TECH Inc: Let us provide you some basic information about our quoting process for custom manufactured components, assemblies and products, so that when you send us RFQ and RFPs, you will better know what we need to know to provide you the most accurate quotes. Please keep in mind that the more accurate our quote is, the lower the prices will be. Ambiguities will only result in us quoting higher prices so we do not have losses at the end of a project. Understanding the quotation process will help you for all purposes. When an RFQ or RFP for a custom part or product is received by AGS-TECH Inc’s sales department, it is immediately scheduled for engineering review. Reviews take place on a daily basis and even several of these may be scheduled for a day. Participants to these meetings come from various departments such as planning, quality control, engineering, packaging, sales…etc and each makes its contribution for accurate calculation of lead times and cost. When various contributors to cost and standard lead times are added up, we come up with a total cost & lead time, from which a formal quote is drafted. The actual process involves of course much more than this. Each participant to the engineering meeting receives a preliminary document ahead of the meeting summarizing the projects that will be reviewed at a particular time and does his / her own estimations prior to the meeting. In other words, participants come prepared to these meetings and after reviewing all information as a group, refinements and adjustments are made and final numbers are calculated. Team members use advanced software tools such as GROUP TECHNOLOGY, to aid them to obtain the most accurate numbers for each quote prepared. Using Group Technology, new part designs can be developed using already existing and similar designs, thus saving a significant amount of time and work. Product designers can determine very fast whether data on a similar component already exists in the computer files. Custom manufacturing costs can more easily be estimated and the relevant statistics on materials, processes, number of parts produced, and other factors can easily be obtained. With Group Technology, process plans are standardized and scheduled more efficiently, orders are grouped for more efficient production, machine utilization is optimized, set-up times are lowered, components and assemblies are manufactured more efficiently and with higher quality. Similar tools, fixtures, machines are shared in the production of a family of parts. Since we have manufacturing operations at multiple plants, Group Technology also helps us determine which plant is the most suitable for a particular manufacturing request. In other words, the system compares and matches available equipment at each plant with the requirements of a particular part or assembly and determines which of our plant or plants are the best fit for that planned work order. Even geographic proximity of the plants to the products shipping destination and shipping prices are taken into account by our computer integrated system. Together with Group Technology, we implement CAD/CAM, cellular manufacturing, computer integrated manufacturing and improve productivity and reduce costs even in small-batch production approaching mass production prices per piece. All these capabilities along with manufacturing operations in low-cost countries enables AGS-TECH Inc., the World’s most diverse engineering integrator to provide the most outstanding quotations for custom manufacturing RFQs. Other powerful tools we use in our quoting process of custom manufactured components are COMPUTER SIMULATIONS of MANUFACTURING PROCESSES and SYSTEMS. A process simulation can be: -A model of a manufacturing operation, for the purpose of determining the viability of a process or for improving its performance. -A model of multiple processes and their interactions to help our process planners optimize process routes and layout of machinery. Frequent problems addressed by these models include process viability such as assessing the formability and behavior of a certain gauge sheet metal in a certain pressworking operation or process optimization such as analyzing the metal-flow pattern in a die forging operation to identify potential defects. This kind of information obtained help our estimators better determine whether we should quote a particular RFQ or not. If we determine to quote it, these simulations give us a better idea about the expected yields, cycle times, prices and lead times. Our dedicated software program simulates an entire manufacturing system that involves multiple processes and equipment. This helps identify critical machinery, assists in scheduling and routing of work orders and eliminates potential production bottlenecks. Scheduling and routing information obtained helps us in our quotation of RFQs. The more accurate our info is, the more accurate and lower our quoted prices will be. WHAT INFORMATION SHOULD CUSTOMERS PROVIDE AGS-TECH Inc. TO GET THE BEST PRICE QUOTE WITHIN SHORTEST TIME ? Best quotation is the one with lowest possible price (with no sacrifice on quality), shortest or customer preferred lead time formally provided to customer quickly. Providing the best quotation is always our goal, however it depends on you (the customer) just as much as on us. Here is the information we would expect from you when you send us a Request for Quote (RFQ). We may not need all of these to quote your components and assemblies, but the more of these you can provide the more likely it is that you will receive a very competitive quotation from us. - 2D Blueprints (technical drawings) of parts and assemblies. Blueprints should clearly show dimensions, tolerances, surface finish, coatings if applicable, material information, blueprint revision number or letter, Bill of Materials (BOM), part view from different directions…etc. These can be in PDF, JPEG format or else. - 3D CAD files of parts and assemblies. These can be in DFX, STL, IGES, STEP, PDES format or else. - Quantities of parts for quote. Generally, the higher the quantity the lower will be the price in our quote (please be honest with your actual quantities for quote). - If there are off-the-shelf components that are assembled with your parts, please feel free to include them in your blueprints. If assembly is complicated, separate assembly blueprints help us much in the quotation process. We may buy and assemble the off-shelf components into your products or custom manufacture depending on the economic viability. In any case we can include those in our quote. - Clearly indicate whether you want us to quote individual components or a subassembly or an assembly. This will save us time and hassle in the quotation process. -Shipping address of parts for quote. This helps us quote shipping in case you do not have a courier account or forwarder. - Indicate whether it is a batch production request or a long term repeat order that is planned. A repeat order over long term generally receives a better price quotation. A blanket order does generally also receive a better quote. - Indicate whether you want special packaging, labeling, marking…etc of your products. Indicating all your requirements in the beginning will save both parties time and effort in the quotation process. If not indicated at the beginning, we will likely need to re-quote later and this will only delay the process. - If you need us to sign an NDA prior to quoting your projects, please email them over to us. We gladly accept signing NDAs prior to quoting projects that have confidential content. If you do not have an NDA, but need one, just tell us and we will send it to you prior to quoting. Our NDA covers both sides. WHAT PRODUCT DESIGN CONSIDERATIONS SHOULD CUSTOMERS HAVE GONE THROUGH TO GET THE BEST PRICE QUOTE WITHIN SHORTEST TIME ? Some fundamental design considerations customers should take into account for obtaining the best quotation are: - Is it possible to simplify product design and reduce the number of components for a better quote without adversely affecting intended functions and performance ? - Were environmental considerations taken into account and incorporated into material, process and design ? Environmentally polluting technologies have higher tax burdens and disposal fees and thus indirectly result in us quoting higher prices. - Have you investigated all alternative designs ? When you send us a request for quote, please feel free to ask whether changes in design or material would make the price quote lower. We will review and give you our feedback about the effect of modifications on the quote. Alternatively you may send us several designs and compare our quotation on each. - Can unnecessary features of the product or its components be eliminated or combined with other features for a better quote ? - Have you considered modularity in your design for a family of similar products and for service and repairs, upgrading and installation ? Modularity can make us quote lower overall prices as well as reduce service and maintenance costs in the long term. For example a number of injection molded parts made of the same plastic material can be manufactured using mold inserts. Our price quotation for a mold insert is much lower than for a new mold for each part. - Can the design be made lighter and smaller ? Lightweight and smaller size not only results in better product quotation, but also saves you much on shipping cost. - Have you specified unnecessary and excessively stringent dimensional tolerances and surface finish ? The tighter the tolerances, the higher the price quote. The more difficult and tighter the surface finish requirements, again the higher the price quote. For the best quote, keep it as simple as needed. - Will it be excessively difficult and time consuming to assemble, disassemble, service, repair and recycle the product ? If so, the price quote will be higher. So again keep it as simple as possible for the best price quote. - Have you considered subassemblies ? The more value added services we add to your product such as subassembly, the better our quote will be. The overall cost of procurement will be much higher if you have several manufacturers get involved in quoting. Have us do as much as possible and for sure you will obtain the best price quote that is potentially out there. - Have you minimized the use of fasteners, their quantities and variety ? Fasteners result in higher price quotation. If easy snap-on or stacking features can be designed into the product it may result in a better price quote. - Are some of the components commercially available ? If you have an assembly for quote, please indicate on your drawing if some components are available off-the-shelf. Sometimes it is less expensive if we buy and incorporate these components instead of manufacturing them. Their manufacturer may be producing them in high volume and give us a better quote than us manufacturing them from scratch especially if the quantities are small. - If possible, choose the safest materials and designs. The safer it is, the lower will be our price quote. WHAT MATERIAL CONSIDERATIONS SHOULD CUSTOMERS HAVE GONE THROUGH TO GET THE BEST PRICE QUOTE WITHIN SHORTEST TIME ? Some fundamental material considerations customers should take into account for obtaining the best quotation are: - Did you select materials with properties that unnecessarily exceed minimum requirements and specifications ? If so, the price quote may be higher. For the lowest quote, try to use the least expensive material that meets or exceeds expectations. - Can some materials be replaced with less expensive ones ? This naturally lowers the price quote. - Do the materials you selected have the appropriate manufacturing characteristics ? If so, the price quote will be lower. If not, it may take more time to manufacture the parts, and we may have more tool wear and thus a higher price quote. In short, there is no need to make a part from tungsten if aluminum does the job. - Are raw materials needed for your products available in standard shapes, dimensions, tolerances, and surface finish ? If not, the price quote will be higher due to additional cutting, grinding, processing…etc. - Is the material supply reliable ? If not, our quotation may well be different each time you reorder the product. Some materials have rapidly and significantly changing prices in the global marketplace. Our quote will be better if the material used is plenty and has a stable supply. - Can the raw materials chosen be obtained in the required quantities in the desired timeframe ? For some materials, raw material suppliers have Minimum Order Quantities (MOQ). Therefore if quantities you requested are low, it may be impossible for us to get a price quote from the material supplier. Again, for some exotic materials, our procurement lead times may be too long. - Some materials are able to improve assembly and even facilitate automated assembly. This may result in a better price quote. For example a ferromagnetic material may easily be picked and placed with electromagnetic manipulators. Consult with our engineers if you do not have internal engineering resources. Automation can lead to a much better quote especially for high volume production. - Choose materials that increase stiffness-to-weight and strength-to-weight ratios of structures whenever possible. This will require less raw material and thus make a lower quotation possible. - Comply with legislation and laws prohibiting the use of environmentally destructive materials. This approach will eliminate high disposal fees for destructive materials and thus make a lower quotation possible. - Choose materials that reduce performance variations, environmental sensitivity of products, improve robustness. This way, there will be less manufacturing scrap and rework and we can quote much better prices. WHAT MANUFACTURING PROCESS CONSIDERATIONS SHOULD CUSTOMERS HAVE GONE THROUGH TO GET THE BEST PRICE QUOTE WITHIN SHORTEST TIME ? Some fundamental process considerations customers should take into account for obtaining the best quotation are: - Have you considered all alternative processes ? Price quote can be surprisingly lower for some processes as compared to others. Therefore, unless necessary, leave the process decision to us. We prefer to quote you considering the lowest cost option. - What are the ecological impacts of the processes ? Try to choose the most ecologically friendly processes. This will result in a lower price quotation because of lower environment related fees. - Are the processing methods considered economical for the type of material, shape produced, and production rate ? If these match well with the processing method, you will receive a more appealing quotation. - Can requirements for tolerances, surface finish, and product quality be met consistently ? The more the consistency, the lower our price quotation and the shorter the lead time. - Can your components be produced to final dimensions without additional finishing operations ? If so, this will give us the opportunity to quote lower prices. - Is the tooling required available or manufacturable at our plants ? Or can we purchase it as an off-shelf item ? If so, we can quote better prices. If not we will need to procure and add it to our quotation. For best quote, try to keep designs and required processes as simple as possible. - Did you think of minimizing the scrap by choosing the right process ? The lower the scrap the lower the quoted price ? We may be able to sell some scrap and deduct from the quote in some cases, but most of the scrap metal and plastics produced during processing are of low value. - Give us the opportunity to optimize all processing parameters. This will result in a more appealing quote. For example, if four weeks lead time is good for you, don’t insist on two weeks which will force us to machine parts faster and therefore have more tool damage, as this will be calculated into the quotation. - Have you explored all the automation possibilities for all phases of the production ? If not, reconsidering your project along these lines can result in a lower price quote. - We implement Group Technology for parts with similar geometries and manufacturing attributes. You will receive a better quotation if you send over RFQs for more parts with similarities in geometry and design. If we evaluate them at the same time together, we will most likely quote lower prices for each (with the condition that they are ordered together). - If you have special inspection and quality control procedures to be implemented by us, make sure they are useful and not misleading. We cannot take responsibility for mistakes arising due to ill-designed procedures imposed on us. Generally speaking, our quotation is more appealing if we implement our own procedures. - For high volume production, our quote will be better if we manufacture all components in your assembly. However, sometimes for low volume production, our final quote can be lower if we can purchase some of the standard items that go into your assembly. Consult with us prior to making a decision. You can watch our Youtube video presentation "How You Can Receive Best Quotes from Custom Manufacturers" by clicking on the highlighted text. You can download a Powerpoint presentation version of the above video "How You Can Receive Best Quotes from Custom Manufacturers" by clicking to the highlighted text. RÛPERA BERÊ

Computer Networking Equipment - Intermediate Systems - InterWorking Unit - IWU - IS - Router - Bridge - Switch - Hub available from AGS-TECH Inc. Amûrên Torê, Amûrên Torê, Pergalên Navîn, Unit Interworking COMPUTER NETWORKING DEVICES are equipment that mediate data in computer networks. Computer networking devices are also called NETWORK EQUIPMENT, INTERMEDIATE SYSTEMS (IS) or INTERWORKING UNIT (IWU). Devices which are the last receiver or that generate data are called HOST or DATA TERMINAL EQUIPMENT. Among the high quality brands we offer are ATOP TECHNOLOGIES, JANZ TEC , ICP DAS and KORENIX. - ATOP TECHNOLOGIES compact product brochure - ATOP Technologies Product List 2021) - Barcode and Fixed Mount Scanners - RFID Products - Mobile Computers - Micro Kiosks OEM Technology (We private label these with your brand name and logo if you wish) - Barcode Scanners (We private label these with your brand name and logo if you wish) - CISCO Start Catalog (Networking Equipment, Switches, Wireless Controllers, Wireless Access Points (WAP), Cloud Managed Access Points, Routers) - Fixed Industrial Scanners (We private label these with your brand name and logo if you wish) - ICP DAS brand industrial communication and networking products brochure - ICP DAS brand industrial Ethernet switch for rugged environments - ICP DAS brand PACs Embedded Controllers & DAQ brochure - ICP DAS brand Industrial Touch Pad brochure - ICP DAS brand Remote IO Modules and IO Expansion Units brochure - ICP DAS brand PCI Boards and IO Cards - J ANZ TEC brand compact product brochure - Kiosk Systems (We private label these with your brand name and logo if you wish) - Kiosk Systems Accessories Guide (We private label these with your brand name and logo if you wish) - KORENIX brand compact product brochure - Mobile Computers for Enterprises (We private label these with your brand name and logo if you wish) - Printers for Barcode Scanners and Mobile Computers (We private label these with your brand name and logo if you wish) - RFID Readers - Scanners - Encoders - Printers (We private label these with your brand name and logo if you wish) To choose a suitable Industrial Grade Networking Device for your project, please go to our industrial computer store by CLICKING HERE. Dowload brochure for our DESIGN PARTNERSHIP PROGRAM Below is some fundamental information about networking devices that you may find useful. List of computer networking devices / Common basic networking devices: ROUTER: This is a specialized network device that determines the next network point where it can forward a data packet towards the destination of the packet. Unlike a gateway, it cannot interface different protocols. Works on OSI layer 3. BRIDGE: This is a device connecting multiple network segments along the data link layer. Works on OSI layer 2. SWITCH: This is a device that allocates traffic from one network segment to certain lines (intended destination(s)) which connect the segment to another network segment. So unlike a hub a switch splits the network traffic and sends it to different destinations rather than to all systems on the network. Works on OSI layer 2. HUB: Connects multiple Ethernet segments together and makes them act as a single segment. In other words, a hub provides bandwidth which is shared among all the objects. A hub is one of the most basic hardware devices that connects two or more Ethernet terminals in a network. Therefore, only one computer connected to the hub is able to transmit at a time, contrary to switches, which provide a dedicated connection between individual nodes. Works on OSI layer 1. REPEATER: This is a device to amplify and/or regenerate digital signals received while sending them from one part of a network to another. Works on OSI layer 1. Some of our HYBRID NETWORK devices: MULTILAYER SWITCH: This is a switch that besides switching on OSI layer 2, provides functionality at higher protocol layers. PROTOCOL CONVERTER: This is a hardware device that converts between two different types of transmissions, such as asynchronous and synchronous transmissions. BRIDGE ROUTER (B ROUTER): This piece of equipment combines router and bridge functionalities and therefore works on OSI layers 2 and 3. Here are some of our hardware and software components that most often are placed on the connection points of different networks, e.g. between internal and external networks: PROXY: This is a computer network service that allows clients to make indirect network connections to other network services FIREWALL: This is a piece of hardware and/or software placed on the network to prevent the type of communications that are forbidden by the network policy. NETWORK ADDRESS TRANSLATOR: Network services provided as hardware and/or software that convert internal to external network addresses and vice versa. Other popular hardware for establishing networks or dial-up connections: MULTIPLEXER: This device combines several electrical signals into a single signal. NETWORK INTERFACE CONTROLLER: A piece of computer hardware which allows the attached computer to communicate by network. WIRELESS NETWORK INTERFACE CONTROLLER: A piece of computer hardware which allows the attached computer to communicate by WLAN. MODEM: This is a device that modulates an analog ''carrier'' signal (such as sound), to encode digital information, and that also demodulates such a carrier signal to decode the transmitted information, as a computer communicating with another computer over the telephone network. ISDN TERMINAL ADAPTER (TA): This is a specialized gateway for Integrated Services Digital Network (ISDN) LINE DRIVER: This is a device that increases transmission distances by amplifying the signal. Base-band networks only. CLICK Product Finder-Locator Service RÛPERA BERÊ

Non-Conventional Fabrication, ECM, EDM, PMC, Waterjet Machining, Laser, Plasma, EBM Machining, Ultrasonic Machining, Soldering, Welding, Brazing,Special Bonding Fabrication Non-Konvansiyonel Read More ECM Machining, Machining Electrochemical, Grinding Read More EDM Machining, Elektrîk-Daxistina Elektrîkê û Çêkirin Read More Machining Kîmyewî & Blanking Photochemical Read More Makînekirina Waterjet & Abrasive Waterjet & Abrasive-Jet Machining and Cutting Read More Laser Machining & Cutting & LBM Read More Machining & Cutting Plasma Read More Ultrasonic Machining & Rotary Ultrasonic Machining & Ultrasonic Impact Grinding Read More EBM Machining & Electron Beam Machining Read More Brazing & Soldering & Welding Read More Adhesive Bonding & Sealing & Fastening Mechanical Custom and Assembly Among the major NON-CONVENTIONAL FABRICATION techniques we offer are Electrochemical Fabrication (also called Electrochemical Machining or ECM), Electrical Discharge Machining or EDM, Water Jet Cutting, Abrasive Water Jet Cutting (WJ, AWJ), Laser Beam Machining (LBM), Electron Beam Machining (EBM), Ultrasonic Machining (USM), Plasma Machining, Photochemical Machining (abbreviated as PCM or also called Chemical Etching, Metal Etching, Chemical Milling, Chemical Machining), Soldering, Brazing, Welding, Specialty Bonding and Pickling. Sometimes, it is easier and more economical to get the work done by some chemicals, pressurized water jet or even light rather than using traditional techniques such as machining and stamping. On the submenu pages, you can find a summary of each of these alternative non-conventional fabrication techniques we are offering you. Non-conventional fabrication is also referred to as non-traditional fabrication. What distinguishes convention and non-conventional fabrication techniques ? – Generally speaking, conventional fabrication involves changing the shape of a work piece using an implement made of a harder material. Machining hard materials using conventional methods may require significant time and energy and result in high costs. In addition, conventional machining may lead to excessive tool wear and loss of quality in the product owing to induced residual stresses during manufacture. Therefore, especially for hard alloys, non-conventional fabrication techniques may be better alternatives. Whereas conventional fabrication processes generally use mechanical energy (motion), non-conventional fabrication processes utilize other forms of energy. Main forms of energy non-conventional fabrication processes use are: Thermal, Chemical and Electrical Energy. There can be a large number of advantages of non-conventional fabrication techniques over conventional methods. Just to name a few, non-conventional fabrication may involve quieter operation and no sound pollution, such as is the case with Chemical Machining. In non-conventional fabrication, material removal may occur with or without chip formation. For example, in Electrochemical Machining, material removal occurs due to electrochemical dissolution at atomic levels. Non-conventional fabrication may involve lower waste of material due to low or no wear as compared to conventional fabrication. On the other hand, non-conventional fabrication methods do have some disadvantages such as higher capital costs and the need for skilled operators. Also, non-conventional fabrication methods are not suitable for every type of material economically. Here is a downloadable guide comparing conventional and non-conventional fabrication methods: - A Brief Comparison of Conventional and Non-Conventional Fabrication Methods Since we are the World’s most diverse Global Custom Manufacturer, Integrator, Consolidator and Outsourcing Partner; we see it as our duty to determine technically the most suitable and economically the most feasible fabrication technique for your needs. Available techniques involve our non-conventional fabrication methods among others. In order to contract us to manufacture your products, you do not need to be an expert in non-conventional fabrication methods or any other production techniques. We are here to assist and guide you in the right direction. All you need is to contact us and provide as much information as possible about your production needs. We will review your input and determine whether conventional or non-conventional fabrication techniques will be the best fit for your products. We will take into consideration many factors such as lead times, number of parts to be produced, costs, dimensional specifications of your parts and products, material properties and requirements and determine which non-conventional or conventional fabrication technique or techniques will be the best fit. For almost all fabrication techniques, whether it be conventional or non-conventional, we do use CAD/CAM and automated CNC machines as well as manual machines. Sometimes manual machinery is more suitable and practical while for high volume orders automated CNCs are deployed exclusively. We have prepared a brochure below which you can download as a reference source for frequently used mechanical engineering terms: - Download brochure for Common Mechanical Engineering Terms used by Designers and Engineers If you are mostly interested in our engineering and research & development capabilities instead of manufacturing capabilities, then we invite you to visit our engineering website http://www.ags-engineering.com (On our engineering website you can find details about our engineering services such as design, product development, consulting…etc.) CLICK Product Finder-Locator Service RÛPERA BERÊ