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Composites, Composite Materials Manufacturing, Particle and Fiber Reinforced, Cermets, Ceramic & Metal Composite, Glass Fiber Reinforced Polymer, Lay-Up Process Pabrikan Bahan Komposit & Komposit Simply defined, COMPOSITES or COMPOSITE MATERIALS are materials consisting of two or multiple materials with different physical or chemical properties, but when combined they become a material that is different than the constituent materials. We need to point out that the constituent materials remain separate and distinct in the structure. The goal in manufacturing a composite material is to obtain a product that is superior than its constituents and combines each constituent’s desired features. As an example; strength, low weight or lower price may be the motivator behind designing and producing a composite. The type of composites we offer are particle-reinforced composites, fiber-reinforced composites including ceramic-matrix / polymer-matrix / metal-matrix / carbon-carbon / hybrid composites, structural & laminated & sandwich-structured composites and nanocomposites. The fabrication techniques we deploy in composite material manufacturing are: Pultrusion, prepreg production processes, advanced fiber placement, filament winding, tailored fiber placement, fiberglass spray lay-up process, tufting, lanxide process, z-pinning. Many composite materials are made up of two phases, the matrix, which is continuous and surrounds the other phase; and the dispersed phase which is surrounded by the matrix. We recommend that you click here to DOWNLOAD our Schematic Illustrations of Composites and Composite Materials Manufacturing by AGS-TECH Inc. This will help you better understand the information we are providing you below. • PARTICLE-REINFORCED COMPOSITES : This category consists of two types: Large-particle composites and dispersion-strengthened composites. In the former type, particle-matrix interactions cannot be treated on the atomic or molecular level. Instead continuum mechanics is valid. On the other hand, in dispersion-strengthened composites particles are generally much smaller in the tens of nanometer ranges. An example of large particle composite is polymers to which fillers have been added. The fillers improve the properties of the material and may replace some of the polymer volume with a more economical material. The volume fractions of the two phases influences the behaviour of the composite. Large particle composites are used with metals, polymers and ceramics. The CERMETS are examples of ceramic / metal composites. Our most common cermet is cemented carbide. It consists of refractory carbide ceramic such as tungsten carbide particles in a matrix of a metal such as cobalt or nickel. These carbide composites are widely used as cutting tools for hardened steel. The hard carbide particles are responsible for the cutting action and their toughness is enhanced by the ductile metal matrix. Thus we obtain the advantages of both materials in a single composite. Another common example of a large particle composite we use is carbon black particulates mixed with vulcanized rubber to obtain a composite with high tensile strength, toughness, tear and abrasion resistance. An example of a dispersion-strengthened composite is metals and metal alloys strengthened and hardened by the uniform dispersion of fine particles of a very hard and inert material. When very small aluminum oxide flakes are added to aluminum metal matrix we obtain sintered aluminum powder which has an enhanced high-temperature strength. • FIBER-REINFORCED COMPOSITES : This categoy of composites is in fact the most important. The goal to achieve is high strength and stiffness per unit weight. The fiber composition, length, orientation and concentration in these composites is critical in determining the properties and usefulness of these materials. There are three groups of fibers we use: whiskers, fibers and wires. WHISKERS are very thin and long single crystals. They are among the strongest materials. Some example whisker materials are graphite, silicon nitride, aluminum oxide. FIBERS on the other hand are mostly polymers or ceramics and are in polycrystalline or amorphous state. The third group is fine WIRES that have relatively large diameters and consist frequently of steel or tungsten. An example of wire reinforced composite is car tires that incorporates steel wire inside rubber. Depending on the matrix material, we have the following composites: POLYMER-MATRIX COMPOSITES : These are made of a polymer resin and fibers as the reinforcement ingredient. A subgroup of these called Glass Fiber-Reinforced Polymer (GFRP) Composites contain continuous or discontinuous glass fibers within a polymer matrix. Glass offers high strength, it is economical, easy to fabricate into fibers, and is chemically inert. The disadvantages are their limited rigidity and stiffness, service temperatures being only up to 200 – 300 Centigrade. Fiberglass is suitable for automotive bodies and transportation equipment, marine vehicle bodies, storage containers. They are not suitable for aerospace nor bridge making due to limited rigidity. The other subgroup is called Carbon Fiber-Reinforced Polymer (CFRP) Composite. Here, carbon is our fiber material in the polymer matrix. Carbon is known for its high specific modulus and strength and its capability to maintain these at high temperatures. Carbon fibers can offer us standard, intermediate, high and ultrahigh tensile moduli. Furthermore, carbon fibers do offer diverse physical and mechanical characteristics and therefore a suitable for various custom tailored engineering applications. CFRP composites can be considered to manufacture sports and recreational equipment, pressure vessels and aerospace structural components. Yet, another subgroup, the Aramid Fiber-Reinforced Polymer Composites are also high-strength and modulus materials. Their strength to weight ratios are outstandingly high. Aramid fibers are also known by trade names KEVLAR and NOMEX. Under tension they perform better than other polymeric fiber materials, but they are weak in compression. Aramid fibers are tough, impact resistant, creep and fatigue resistant, stable at high temperatures, chemically inert except against strong acids and bases. Aramid fibers are widely used in sporting goods, bulletproof vests, tires, ropes, fiber optic cable sheats. Other fiber reinforcement materials exist but are used to a lesser degree. These are boron, silicon carbide, aluminum oxide mainly. The polymer matrix material on the other hand is also critical. It determines the maximum service temperature of the composite because the polymer has generally a lower melting and degradation temperature. Polyesters and vinyl esters are widely used as the polymer matrix. Resins are also used and they have excellent moisture resistance and mechanical properties. For example polyimide resin can be used up to about 230 Degrees Celcius. METAL-MATRIX COMPOSITES : In these materials we use a ductile metal matrix and the service temperatures are generally higher than their constituent components. When compared to polymer-matrix composites, these can have higher operating temperatures, be nonflammable, and may have better degradation resitance against organic fluids. However they are more expensive. Reinforcement materials such as whiskers, particulates, continuous and discontinuous fibers; and matrix materials such as copper, aluminum, magnesium, titanium, superalloys are being commonly used. Example applications are engine components made of aluminum alloy matrix reinforced with aluminum oxide and carbon fibers. CERAMIC-MATRIX COMPOSITES : Ceramic materials are known for their outstandingly good high temperature reliability. However they are very brittle and have low values for fracture toughness. By embedding particulates, fibers or whiskers of one ceramic into the matrix of another we are able to achieve composites with higher fracture toughnesses. These embedded materials basically inhibit crack propagation inside the matrix by some mechanisms such as deflecting the crack tips or forming bridges across crack faces. As an example, aluminas that are reinforced with SiC whiskers are used as cutting tool inserts for machining hard metal alloys. These can reveal better performances as compared to cemented carbides. CARBON-CARBON COMPOSITES : Both the reinforcement as well as the matrix are carbon. They have high tensile moduli and strengths at high temperatures over 2000 Centigrade, creep resistance, high fracture toughnesses, low thermal expansion coefficients, high thermal conductivities. These properties make them ideal for applications requiring thermal shock resistance. The weakness of carbon-carbon composites is however its vulnerability against oxidation at high temperatures. Typical examples of usage are hot-pressing molds, advanced turbine engine components manufacturing. HYBRID COMPOSITES : Two or more different types of fibers are mixed in a single matrix. One can thus tailor a new material with a combination of properties. An example is when both carbon and glass fibers are incorporated into a polymeric resin. Carbon fibers provide low density stiffness and strength but are expensive. The glass on the other hand is inexpensive but lack the stiffness of carbon fibers. The glass-carbon hybrid composite is stronger and tougher and can be manufactured at a lower cost. PROCESSING OF FIBER-REINFORCED COMPOSITES : For continuous fiber-reinforced plastics with uniformly distributed fibers oriented in the same direction we use the following techniques. PULTRUSION: Rods, beams and tubes of continuous lengths and constant cross-sections are manufactured. Continuous fiber rovings are impregnated with a thermosetting resin and are pulled through a steel die to preform them to a desired shape. Next, they pass through a precision machined curing die to attain its final shape. Since the curing die is heated, it cures the resin matrix. Pullers draw the material through the dies. Using inserted hollow cores, we are able to obtain tubes and hollow geometries. The pultrusion method is automated and offers us high production rates. Any length of product is possible to produce. PREPREG PRODUCTION PROCESS : Prepreg is a continuous-fiber reinforcement preimpregnated with a partially cured polymer resin. It is widely used for structural applications. The material comes in tape form and is shipped as a tape. The manufacturer moulds it directly and fully cures it without the need to add any resin. Since prepregs undergo curing reactions at room temperatures, they are stored at 0 Centigrade or lower temperatures. After use the remaining tapes are stored back at low temperatures. Thermoplastic and thermosetting resins are used and reinforcement fibers of carbon, aramid and glass are common. To use prepregs, the the carrier backing paper is first removed and then the fabrication is carried out by laying of the prepreg tape onto a tooled surface (the lay-up process). Several plies may be laid up to obtain the desired thicknesses. Frequent practice is to alternate the fiber orientation to produce a cross-ply or angle-ply laminate. Finally heat and pressure are applied for curing. Both hand processing as well as automated processes are used for cutting prepregs and lay-up. FILAMENT WINDING : Continuous reinforcing fibers are accurately positioned in a predetermined pattern to follow a hollow and usually cyclindirical shape. The fibers first go through a resin bath and then are wound onto a mandrel by an automated system. After several winding repetitions desired thicknesses are obtained and curing is performed either at room temperature or inside an oven. Now the mandrel is removed and the product is demolded. Filament winding can offer very high strength-to-weight ratios by winding the fibers in circumferential, helical and polar patterns. Pipes, tanks, casings are manufactured using this technique. • STRUCTURAL COMPOSITES : Generally these are made up of both homogeneous and composite materials. Therefore the properties of these are determined by the constituent materials and geometrical design of its elements. Here are the major types: LAMINAR COMPOSITES : These structural materials are made of two dimensional sheets or panels with preferred high-strength directions. Layers are stacked and cemented together. By alternating the high-strength directions in the two perpendicular axes, we obtain a composite that has high-strength in both directions in the two-dimensional plane. By adjusting the angles of the layers one can manufacture a composite with strength in the preferred directions. Modern ski is manufactured this way. SANDWICH PANELS : These structural composites are lightweight but yet have high stiffness and strength. Sandwich panels consist of two outer sheets made of a stiff and strong material like aluminum alloys, fiber reinforced plastics or steel and a core in between the outer sheets. The core needs to be lightweight and most of the time have a low modulus of elasticity. Popular core materials are rigid polymeric foams, wood and honeycombs. Sandwich panels are widely used in the construction industry as roofing material, floor or wall material, and also in the aerospace industries. • NANOCOMPOSITES : These new materials consist of nanosized particles particles embedded in a matrix. Using nanocomposites we can manufacture rubber materials that are very good barriers to air penetration while maintaning their rubber properties unchanged. KLIK Product Finder-Locator Service PREVIOUS PAGE

Test Equipment for Cookware Testing, Cookware Tester, Cutlery Corrosion Resistance Tester, Strength Test Apparatus for Knives, Forks, Spatulas, Bending Strength Tester for Cookware Handles Peralatan Tes kanggo Tes Peralatan Masak Peralatan Tes Khusus kanggo Tes Peralatan Masak digunakake kanggo nguji produk peralatan masak kayata panci, kompor tekanan....dsb., kanggo mriksa kualitas, daya tahan, fungsionalitas, linuwih, safety, tundhuk karo standar domestik lan internasional....dsb. . Peralatan tes khusus bisa uga: - PERALATAN TES KHUSUS DIRANCANG lan DIPRODUKSI KHUSUS kanggo TES WARGA COOKWARE utawa - OFF-rak SPECIALIZED TEST EQUIPMENT kanggo COOKWARE TESTING Peralatan pengujian khusus sing dirancang khusus dirancang lan dikembangake dening kita kanggo kabutuhan khusus para pelanggan, kanthi nimbang syarat khusus para pelanggan, pasar, tanggung jawab hukum ... etc. Kita kerja bareng karo sampeyan kanggo ngrampungake apa sing dibutuhake lan dikarepake. Insinyur kita ngrancang, prototipe lan entuk persetujuan sadurunge nggawe mesin tes sampeyan. Ing sisih liya, peralatan tes khusus kanggo nguji peralatan masak wis dirancang lan digawe sistem sing bisa dituku kanthi cepet saka kita lan digunakake. Yen sampeyan ngandhani apa sing sampeyan butuhake, kita bakal seneng nuntun sampeyan lan ngusulake sistem siap sing bisa mbantu nggayuh tujuan sampeyan. Peralatan uji khusus kanggo nguji peralatan masak bisa didownload saka tautan warna ing ngisor iki: Katalog Mesin Uji Peralatan Masak Haida Kanggo peralatan liyane sing padha, bukak situs web peralatan kita: http://www.sourceindustrialsupply.com CLICK Product Finder-Locator Service PAGE sadurunge

Plasma Machining - HF Plasma Cutting - Plasma Gouging - CNC - Plasma Arc Welding - PAW - GTAW - AGS-TECH Inc. - New Mexico Plasma Machining & Cutting We use the PLASMA CUTTING and PLASMA MACHINING processes to cut and machine steel, aluminum, metals and other materials of different thicknesses using a plasma torch. In plasma-cutting (also sometimes called PLASMA-ARC CUTTING), an inert gas or compressed air is blown at high speed out of a nozzle and simultaneously an electrical arc is formed through that gas from the nozzle to the surface being cut, turning a portion of that gas to plasma. To simplify, plasma can be described as the fourth state of matter. The three states of matter are solid, liquid and gas. For a common example, water, these three states are ice, water and steam. The difference between these states relates to their energy levels. When we add energy in the form of heat to ice, it melts and forms water. When we add more energy, the water vaporizes in the form of steam. By adding more energy to steam these gases become ionized. This ionization process causes the gas to become electrically conductive. We call this electrically conductive, ionized gas a “plasma”. The plasma is very hot and melts the metal being cut and at the same time blowing the molten metal away from the cut. We use plasma for cutting thin and thick, ferrous and nonferrous materials alike. Our hand-held torches can usually cut up to 2 inches thick steel plate, and our stronger computer-controlled torches can cut steel up to 6 inches thick. Plasma cutters produce a very hot and localized cone to cut with, and are therefore very suitable for cutting metal sheets in curved and angled shapes. The temperatures generated in plasma-arc cutting are very high and around 9673 Kelvin in the oxygen plasma torch. This offers us a fast process, small kerf width, and good surface finish. In our systems using tungsten electrodes, the plasma is inert, formed using either argon, argon-H2 or nitrogen gases. However, we also use sometimes oxidizing gases, such as air or oxygen, and in those systems the electrode is copper with hafnium. The advantage of an air plasma torch is that it uses air instead of expensive gases, thus potentially reducing overall cost of machining . Our HF-TYPE PLASMA CUTTING machines use a high-frequency, high-voltage spark to ionize the air through the torch head and initiate arcs. Our HF plasma cutters do not require the torch to be in contact with the workpiece material at the start, and are suitable for applications involving COMPUTER NUMERICAL CONTROL (CNC) cutting. Other manufacturers are using primitive machines that require tip contact with the parent metal to start and then the gap separation occurs. These more primitive plasma cutters are more susceptible to contact tip and shield damage at starting. Our PILOT-ARC TYPE PLASMA machines use a two step process for producing plasma, without the need for initial contact. In the first step, a high-voltage, low current circuit is used to initialize a very small high-intensity spark within the torch body, generating a small pocket of plasma gas. This is called the pilot arc. The pilot arc has a return electrical path built into the torch head. The pilot arc is maintained and preserved until it is brought into proximity of the workpiece. There the pilot arc ignites the main plasma cutting arc. Plasma arcs are extremely hot and are in the range of 25,000 °C = 45,000 °F. A more traditional method we also deploy is OXYFUEL-GAS CUTTING (OFC) where we use a torch as in welding. The operation is used in cutting of steel, cast iron and cast steel. The principle of cutting in oxyfuel-gas cutting is based on oxidation, burning and melting of the steel. Kerf widths in oxyfuel-gas cutting are in the neighborhood of 1.5 to 10mm. The plasma arc process has been seen as an alternative to the oxy-fuel process. The plasma-arc process differs from the oxy-fuel process in that it operates by using the arc to melt the metal whereas in the oxy-fuel process, the oxygen oxidizes the metal and the heat from the exothermic reaction melts the metal. Therefore, unlike the oxy-fuel process, the plasma-process can be applied for cutting metals which form refractory oxides such as stainless steel, aluminium, and non-ferrous alloys. PLASMA GOUGING a similar process to plasma cutting, is typically performed with the same equipment as plasma cutting. Instead of cutting the material, plasma gouging uses a different torch configuration. The torch nozzle and gas diffuser is usually different, and a longer torch-to-workpiece distance is maintained for blowing away metal. Plasma gouging can be used in various applications, including removing a weld for rework. Some of our plasma cutters are built in to the CNC table. CNC tables have a computer to control the torch head to produce clean sharp cuts. Our modern CNC plasma equipment is capable of multi-axis cutting of thick materials and allowing opportunities for complex welding seams that are not possible otherwise. Our plasma-arc cutters are highly automated through the use of programmable controls. For thinner materials, we prefer laser cutting to plasma cutting, mostly because of our laser cutter's superior hole-cutting abilities. We also deploy vertical CNC plasma cutting machines, offering us a smaller footprint, increased flexibility, better safety and faster operation. The quality of the plasma cut edge is similar to that achieved with the oxy-fuel cutting processes. However, because the plasma process cuts by melting, a characteristic feature is the greater degree of melting towards the top of the metal resulting in top edge rounding, poor edge squareness or a bevel on the cut edge. We use new models of plasma torches with a smaller nozzle and a thinner plasma arc to improve arc constriction to produce more uniform heating at the top and bottom of the cut. This allows us to obtain near-laser precision on plasma cut and machined edges. Our HIGH TOLERANCE PLASMA ARC CUTTING (HTPAC) systems operate with a highly constricted plasma. Focusing of the plasma is achieved by forcing the oxygen generated plasma to swirl as it enters the plasma orifice and a secondary flow of gas is injected downstream of the plasma nozzle. We have a separate magnetic field surrounding the arc. This stabilises the plasma jet by maintaining the rotation induced by the swirling gas. By combining precision CNC control with these smaller and thinner torches we are capable to produce parts that require little or no finishing. Material removal rates in plasma-machining are much higher than in the Electric-Discharge-Machining (EDM) and Laser-Beam-Machining (LBM) processes, and parts can be machined with good reproducibility. PLASMA ARC WELDING (PAW) is a process similar to gas tungsten arc welding (GTAW). The electric arc is formed between an electrode generally made of sintered tungsten and the workpiece. The key difference from GTAW is that in PAW, by positioning the electrode within the body of the torch, the plasma arc can be separated from the shielding gas envelope. The plasma is then forced through a fine-bore copper nozzle which constricts the arc and the plasma exiting the orifice at high velocities and temperatures approaching 20,000 °C. Plasma arc welding is an advancement over the GTAW process. The PAW welding process uses a non-consumable tungsten electrode and an arc constricted through a fine-bore copper nozzle. PAW can be used to join all metals and alloys that are weldable with GTAW. Several basic PAW process variations are possible by varying the current, plasma gas flow rate, and the orifice diameter, including: Micro-plasma (< 15 Amperes) Melt-in mode (15–400 Amperes) Keyhole mode (>100 Amperes) In plasma arc welding (PAW) we obtain a greater energy concentration as compared to GTAW. Deep and narrow penetration is achievable, with a maximum depth of 12 to 18 mm (0.47 to 0.71 in) depending on the material. Greater arc stability allows a much longer arc length (stand-off), and much greater tolerance to arc length changes. As a disadvantage however, PAW requires relatively expensive and complex equipment as compared to GTAW. Also the torch maintenance is critical and more challenging. Other disadvantages of PAW are: Welding procedures tend to be more complex and less tolerant to variations in fit-up, etc. Operator skill required is a little more than for GTAW. Orifice replacement is necessary. KLIK Product Finder-Locator Service PAGE sadurunge

Custom Manufactured Parts, Assemblies, Plastic Molds, Casting, CNC Machining, Extrusion, Metal Forging, Spring Manufacturing, Products Assembly, PCBA, PCB AGS-TECH, Inc. Panjenengan Produsen Kustom Global, Integrator, Konsolidator, Mitra Outsourcing. Kita minangka sumber siji-mandeg kanggo manufaktur, fabrikasi, teknik, konsolidasi, outsourcing. Custom Manufaktur Parts lan Majelis Sinau luwih lengkap Manufaktur Elemen Mesin Sinau luwih lengkap Fasteners, Rigging Hardware Manufaktur Sinau luwih lengkap Pembuatan Alat Pemotong, Pengeboran, Pembentukan Learn More Pneumatik, Hidrolik, Produk Vakum Fabrikasi Non Konvensional Sinau luwih lengkap Sinau luwih lengkap Produksi Produk Luar Biasa Sinau luwih lengkap Manufaktur Skala Nano, Skala Mikro, Mesoscale Sinau luwih lengkap Electrical & Electronics Manufacturing Sinau luwih lengkap Optik, Fiberoptik, Optoelektronik Manufaktur Sinau luwih lengkap Integrasi Teknik Jig, Fixtues, Alat Manufaktur Sinau luwih lengkap Sinau luwih lengkap Manufaktur Mesin & Peralatan Sinau luwih lengkap Peralatan Uji Industri Sinau luwih lengkap Kita AGS-TECH Inc., sumber siji-mandeg kanggo manufaktur & fabrikasi & engineering & outsourcing & konsolidasi. Kita minangka integrator teknik paling maneka warna ing Donya sing nawakake manufaktur, subassembly, perakitan produk lan layanan teknik khusus.

Optomechanical Assembly, Endoscope Coupler Manufacturing, Optocouplers Custom Fabrication Majelis Optomekanik Majelis optomekanik Majelis Optomekanik - AGS-TECH Majelis Proyektor Optik saka AGS-TECH Inc. Majelis Optomekanik - Sistem Kamera - AGS-TECH, Inc. AGS-TECH ngrancang lan mrodhuksi optocoupler kayata Iphone kanggo endoscope coupler Fiberscope diwenehake dening AGS-TECH Inc. Komponen Optomekanik Mirror Rampung Majelis Sheet Metal Reflektif kanggo Aplikasi Solar dening AGS-TECH Inc. PAGE sadurunge

Photochemical Machining - PCM - Photo Etching - Chemical Milling - Blanking - Wet Etching - CM - Sheet Metal Components Mesin Kimia & Blanking Fotokimia CHEMICAL MACHINING (CM) technique is based on the fact that some chemicals attack metals and etch them. This results in removal of small layers of material from surfaces. We use reagents and etchants such as acids and alkaline solutions to remove material from surfaces. The hardness of the material is not a factor for etching. AGS-TECH Inc. frequently uses chemical machining for engraving metals, manufacturing printed-circuit boards and deburring of produced parts. Chemical machining is well suited for shallow removal up to 12 mm on large flat or curved surfaces, and CHEMICAL BLANKING of thin sheets. The chemical machining (CM) method involves low tooling and equipment costs and is advantageous over other ADVANCED MACHINING PROCESSES for low production runs. Typical material removal rates or cutting speeds in chemical machining are around 0.025 – 0.1 mm/min. Using CHEMICAL MILLING, we produce shallow cavities on sheets, plates, forgings and extrusions, either to meet design requirements or for reduction of weight in parts. The chemical milling technique can be used on a variety of metals. In our manufacturing processes, we deploy removable layers of maskants to control the selective attack by the chemical reagent on different areas of the workpiece surfaces. In microelectronic industry the chemical milling is widely used to fabricate miniature devices on chips and the technique is referred to as WET ETCHING. Some surface damage may result from chemical milling due to preferential etching and intergranular attack by the chemicals involved. This may result in deterioration of surfaces and roughening. One has to be careful prior to deciding to use chemical milling on metal castings, welded and brazed structures because uneven material removal may occur because the filler metal or the structural material may machine preferentially. In metal castings uneven surfaces may be obtained due to porosity and non-uniformity of the structure. CHEMICAL BLANKING: We use this method to produce features that penetrate through the thickness of the material, having the material removed by chemical dissolution. This method is an alternative to stamping technique we use in sheet metal manufacturing. Also in burr-free etching of printed-circuit boards (PCB) we deploy chemical blanking. PHOTOCHEMICAL BLANKING & PHOTOCHEMICAL MACHINING (PCM): Photochemical blanking is also known as PHOTOETCHING or PHOTO ETCHING, and is a modified version of chemical milling. Material is removed from flat thin sheets using photographic techniques and complex burr-free, stress-free shapes are blanked. Using photochemical blanking we manufacture fine and thin metal screens, printed-circuit cards, electric-motor laminations, flat precision springs. The photochemical blanking technique offers us the advantage of producing small parts, fragile parts without the need to manufacture difficult and expensive blanking dies that are used in traditional sheet metal manufacturing. Photochemical blanking does require skilled personnel, but the tooling costs are low, the process is easily automated and feasibility is high for medium to high volume production. Some disadvantages exist as is the case in every manufacturing process: Environmental concerns due to chemicals and safety concerns due to volatile liquids being used. Photochemical machining also known as PHOTOCHEMICAL MILLING, is the process of fabricating sheet metal components using a photoresist and etchants to corrosively machine away selected areas. Using photo etching we produce highly complex parts with fine details economically. The photochemical milling process is for us an economical alternative to stamping, punching, laser and water jet cutting for thin gauge precision parts. The photochemical milling process is useful for prototyping and allows for easy and quick changes when there is a change in design. It is an ideal technique for research & development. Phototooling is fast and inexpensive to produce. Most phototools cost less than $ 500 and can be produced within two days. Dimensional tolerances are well met with no burrs, no stress and sharp edges. We can start manufacturing a part within hours after receiving your drawing. We can use PCM on most commercially available metals and alloys such as include aluminium, brass, beryllium-copper, copper, molybdenum, inconel, manganese, nickel, silver, steel, stainless steel, zinc and titanium with thicknesses of 0.0005 to 0.080 in (0.013 to 2.0 mm). Phototools are exposed only to light and therefore do not wear out. Due to the cost of hard tooling for stamping and fine blanking, significant volume is required to justify the expense, which is not the case in PCM. We start the PCM process by printing the shape of the part onto optically clear and dimensionally stable photographic film. The phototool consists of two sheets of this film showing negative images of the parts meaning that the area that will become the parts is clear and all of the areas to be etched are black. We register the two sheets optically and mechanically to form the top and bottom halves of the tool. We cut the metal sheets to size, clean and then laminate on both sides with a UV-sensitive photoresist. We place the coated metal between the two sheets of the phototool and a vacuum is drawn to ensure intimate contact between the phototools and the metal plate. We then expose the plate to UV light that allows the areas of resist that are in the clear sections of the film to be hardened. After exposure we wash away the unexposed resist of the plate, leaving the areas to be etched unprotected. Our etching lines have driven-wheel conveyors to move the plates and arrays of spray nozzles above and below the plates. The etchant is typically an aqueous solution of acid such as ferric chloride, that is heated and directed under pressure to both sides of the plate. The etchant reacts with the unprotected metal and corrodes it away. After neutralizing and rinsing, we remove the remaining resist and the sheet of parts is cleaned and dried. Applications of photochemical machining include fine screens and meshes, apertures, masks, battery grids, sensors, springs, pressure membranes, flexible heating elements, RF and microwave circuits and components, semiconductor leadframes, motor and transformer laminations, metal gaskets and seals, shields and retainers, electrical contacts, EMI/RFI shields, washers. Some parts, such as semiconductor leadframes, are very complex and fragile that, despite volumes in the millions of pieces, they can only be produced by photo etching. The accuracy achievable with the chemical etching process offers us tolerances starting at +/-0.010mm depending on the material type and thickness. Features can be positioned with accuracies around +-5 microns. In PCM, the most economical way is to plan the largest sheet size possible consistent with the size and dimensional tolerances of the part. The more parts per sheet are produced the lower the unit labor cost per part. Material thickness affects costs and is proportional to the length of time to etch through. Most alloys etch at rates between 0.0005–0.001 in (0.013–0.025 mm) of depth per minute per side. In general, for steel, copper or aluminum workpieces with thicknesses up to 0.020 in (0.51 mm), part costs will be roughly $0.15–0.20 per square inch. As the geometry of the part becomes more complex, photochemical machining gains greater economic advantage over sequential processes such as CNC punching, laser or water-jet cutting, and electrical discharge machining. Contact us today with your project and let us provide you our ideas and suggestions. KLIK Product Finder-Locator Service PAGE sadurunge

Embedded Systems, Embedded Computer, Industrial Computers, Janz Tec, Korenix, Industrial Workstations, Servers, Computer Rack, Single Board Computer Sistem Embedded & Komputer Industri & PC Panel Waca liyane Embedded Sistem & Komputer Read More Panel PC, Tampilan Multitouch, Layar Tutul Waca liyane PC industri Read More Workstation Industri Waca liyane Peralatan Jaringan, Perangkat Jaringan, Sistem Penengah, Unit Interworking Waca liyane Piranti Panyimpenan, Array Disk lan Sistem Panyimpenan, SAN, NAS Waca liyane Server Industri Read More Sasis, Rak, Gunung kanggo Komputer Industri Waca liyane Aksesoris, Modul, Papan Carrier kanggo Komputer Industri Read More Otomasi & Sistem Cerdas Minangka pemasok produk industri, kita nawakake sawetara komputer industri & server & jaringan & piranti panyimpenan sing paling penting, komputer lan sistem sing dipasang, komputer papan tunggal, PC panel, PC industri, komputer kasar, komputer layar tutul, workstation industri, komputer industri. komponen & aksesoris, piranti I/O digital lan analog, router, jembatan, peralatan switching, hub, repeater, proxy, firewall, modem, pengontrol antarmuka jaringan, konverter protokol, panyimpenan sing dipasang ing jaringan (NAS), susunan jaringan area panyimpenan (SAN), modul relay multisaluran, pengontrol Full-CAN kanggo soket MODULbus, papan operator MODULbus, modul encoder tambahan, konsep link PLC cerdas, pengontrol motor kanggo motor servo DC, modul antarmuka serial, VMEbus Papan prototyping, pinter profibus DP antarmuka abdi, lunak, electronics related, sasis-rak-mounts. Kita nggawa produk komputer industri paling apik ing donya saka pabrik menyang lawang sampeyan. Kauntungan kita yaiku bisa menehi sampeyan macem-macem jeneng merek kayata Janz Tec lan Korenix kanggo rega dhaptar utawa luwih murah saka toko kita. Uga sing ndadekake kita khusus yaiku kemampuan kanggo menehi sampeyan variasi produk / konfigurasi khusus / integrasi karo sistem liyane sing ora bisa dituku saka sumber liyane. We offer sampeyan jeneng merek peralatan kualitas dhuwur kanggo rega dhaftar utawa ngisor. Ana diskon sing signifikan kanggo rega sing dikirim yen jumlah pesenan sampeyan penting. Umume peralatan kita ana ing saham. Yen ora ana ing saham, amarga kita minangka pengecer lan distributor sing disenengi, kita isih bisa nyedhiyakake ing wektu sing luwih cendhek kanggo sampeyan. Saliyane kanggo item Simpenan kita saged kanggo kurban produk khusus dirancang lan diprodhuksi miturut kabutuhan. Mung supaya kita ngerti apa beda sing perlu ing sistem komputer industri lan kita bakal njaluk iku digawe miturut kabutuhan lan panjalukan. We offer sampeyan CUSTOM MANUFACTURING lan ENGINEERING kapabilitas INTEGRASI. Kita uga mbangun SISTEM OTOMATIS KUSTOM, MONITORING lan SISTEM KONTROL PROSES kanthi nggabungake komputer, tahap terjemahan, tahap rotary, komponen bermotor, senjata, kertu akuisisi data, kertu kontrol proses, sensor, aktuator lan komponen hardware lan piranti lunak liyane sing dibutuhake. Preduli saka lokasi ing bumi, kita kapal ing sawetara dina kanggo lawang. Kita duwe perjanjian pengiriman diskon karo UPS, FEDEX, TNT, DHL lan udara standar. Sampeyan bisa pesen online nggunakake opsi kayata kertu kredit nggunakake akun PayPal, transfer kabel, mriksa certified utawa pesenan dhuwit. Yen sampeyan pengin ngomong karo kita sadurunge nggawe keputusan utawa yen sampeyan duwe pitakon, sampeyan mung kudu nelpon lan salah sawijining insinyur komputer lan otomatisasi sing berpengalaman bakal nulungi sampeyan. Kanggo nyedhaki sampeyan, kita duwe kantor lan gudang ing macem-macem lokasi global. Klik ing submenu sing cocog ing ndhuwur kanggo maca liyane babagan produk kita ing kategori komputer industri. Unduh brosur kanggo PROGRAM KEMITRAAN DESIGN Kanggo informasi sing luwih rinci, kita uga ngajak sampeyan ngunjungi toko komputer industri kita http://www.agsindustrialcomputers.com CLICK Product Finder-Locator Service PAGE sadurunge

AGS-TECH, Inc. Company Information - Manufacturing - Fabrication - Assembly - Moulding - Casting - CNC Machining - Extrusion - Forging - Electrical & Electronic AGS-TECH, Inc. Panjenengan Produsen Kustom Global, Integrator, Konsolidator, Mitra Outsourcing. Kita minangka sumber siji-mandeg kanggo manufaktur, fabrikasi, teknik, konsolidasi, outsourcing. Informasi Perusahaan - Manufaktur & Fabrikasi & Perakitan di AGS-TECH Inc Sugeng rawuh ing AGS-TECH Inc.! Kita minangka pimpinan global sing mapan ing nyedhiyakake macem-macem produk lan layanan industri. Bedane yaiku kita minangka toko siji sing bisa nyukupi sebagian besar kebutuhan MANUFACTURING, FABRIKASI lan ASSEMBLY KUSTOM kayata MOULDS, PLASTIK & KARET MOULDING, DIE MAKING, FABRICATION & FORMING LEMBARAN LOGAM, METAL STAMPING, CASTING, FORGING, CNC MESIN, BEDAK METALURGI, ELEMEN MESIN, KERAMIK TEKNIS manufaktur, ELEKTRONIKA CUSTOM, OPTIK, perakitan FIBER OPTIK, PERALATAN UJI lan METROLOGI, KOMPUTER INDUSTRI, PERALATAN OTOMATIS lan uga entuk LAYANAN ENGINEERING lan TEKNIS, dhukungan logistik lan layanan bisnis. Sampeyan ora perlu blanja saka pirang-pirang papan kanggo entuk kabeh bagean lan komponen kanggo produk lan proyek sampeyan, sampeyan ora perlu nangani saben supplier kanthi kapisah, ngirim produk bolak-balik ... etc. Iki angel banget lan larang. Kita duwe kabeh kanggo sampeyan ing sak panggonan! Kita bisa nggabungake kabeh supaya sampeyan bisa nyuda biaya manufaktur, pabrikan, perakitan, kemasan, label lan pengiriman. Kita bisa ngrancang, nggawe, ngumpul, kualifikasi, paket, label, gudang lan dikirim menyang sampeyan utawa pelanggan. Yen sampeyan ora duwe pengiriman barang, kita bisa nangani pengiriman, ngimpor lan karya bea cukai kanggo sampeyan. Yen sampeyan pengin, kita bisa nyelehake kapal kanthi jeneng lan logo sampeyan. Amarga kita kerja ing saindenging jagad, kita bisa nyedhiyakake sampeyan 1.) Kualitas sing luwih apik 2.) Rega sing luwih apik 3.) Wektu sing luwih apik. Kekuwatan kita asale saka tim elit kita sing kalebu pimpinan sing berpendidikan, berpengalaman lan mapan sing dipasang ing lokasi global sing strategis. Klompok teknologi canggih kita duwe jaringan kanthi atusan insinyur sing diakoni sacara global lan manajer teknis berpengalaman ing AS, ing EU lan Asia Tenggara. Anggota tim teknis canggih kita duwe pirang-pirang paten ing bidang keahliane, akeh sing duwe puluhan publikasi ing jurnal sing diakoni sacara internasional lan dadi penemu kanthi gelar sarjana saka universitas paling dhuwur ing Donya. Kita terus-terusan ngetutake kemajuan teknologi paling anyar supaya tetep dadi pimpinan. Kita duwe tim ing AS & EU uga ing negara-negara sing murah kayata China, India, Taiwan, Hong Kong, Korea Selatan ing ngendi bagean penting saka produk kita diprodhuksi. marketing kita lan kantor pusat sales dumunung ing AS. Nalika Departemen QC (Kontrol Kualitas) ngawasi kanthi rapet kabeh data manufaktur lan pengiriman, nganalisa tren efisiensi, ngasilake, bali, rework lan tarif kethokan ing saben pabrik lan ngupayakake perbaikan sing terus-terusan, tim marketing kita terus-terusan nggoleki tren bisnis lan teknologi, produk anyar lan kesempatan supaya kita bisa tansah kurban sing paling apik kanggo kita pelanggan. Perlindhungan properti intelektual pelanggan penting banget kanggo kita lan mulane kita mung ngirim informasi adhedhasar basis '' Perlu Ngerti '' ing organisasi kita. Kantor lepas pantai kita makarya kanthi rapet saben dina karo tim inti kita ing AS supaya kita kabeh didadekake siji kanggo tujuan sing padha: Kanggo nggawe pelanggan sukses lan dadi luwih kompetitif ing pasar global. Sing luwih sukses lan kompetitif para pelanggan, luwih akeh kita bakal sukses. Yen sampeyan pelanggan sing wis ana, bukak situs web kita kanthi kerep kanggo nemokake nganyari produk anyar sing dikirim kapan wae. Yen sampeyan anyar kanggo kita, bukak situs web kita kanggo ngerti perusahaan kita luwih apik lan kirimake gambar teknis, cetak biru, lembar spesifikasi, conto lan deleng rega kompetitif sing bisa kita tawarkan. Kita wis nyuda biaya pengadaan luwih saka 50% utawa luwih kanggo umume pelanggan. Napa mbayar luwih akeh ing Donya sing mung perusahaan sing paling kompetitif sing bisa urip? Dadi pinter lan aja nganti wong liya nyuwek sampeyan ngisi rega sing ora masuk akal kanthi kabeneran omong kosong kayata nyediakake manufaktur lan fabrikasi sing berkualitas tinggi mung kanggo rega sing dhuwur, utawa kanthi pratelan sing ora masuk akal kayata dadi All-American nalika ngimpor 90% bagean. lan mung relabel wong ... etc. Tembung-tembung kasebut kabeh omong kosong kanggo kita, amarga kita ngerti banget manawa kualitas lan pangiriman sing apik banget bisa ditawakake kanthi rega murah! Takon kita kanggo referensi customer lan kita bakal seneng kanggo nyedhiyani kanggo sampeyan. Gumantung saka kabutuhan sampeyan, kita bisa nggawe produk ing njero utawa ing luar negeri. Kita ngerti banget nalika manufaktur domestik luwih layak lan nalika lepas pantai luwih layak. Yen sampeyan seneng banget karo kemampuan teknik lan riset & pangembangan tinimbang kemampuan manufaktur, fabrikasi lan perakitan, mula diundang sampeyan ngunjungi situs teknik http://www.ags-engineering.com Waca liyane Misi Manufaktur Kita Dulu & Saiki Waca liyane Kabar & Pengumuman saka AGS-TECH, Inc. Waca liyane Dadi Supplier kanggo Engineering Integrator lan Custom Produsen AGS-TECH Inc. Waca liyane Bedane AGS-TECH: Produsen Kustom Paling Beragam ing Donya, Konsolidator, Integrator Teknik lan Mitra Outsourcing Waca liyane Automation / Small-Batch and Mass Production at AGS-TECH Inc Waca liyane Computer Integrated Manufacturing at AGS-TECH Inc Waca liyane Manajemen Mutu ing AGS-TECH Inc Read More Carane kita Quote Projects? Ngutip Komponen, Majelis lan Produk sing Diproduksi Khusus Waca liyane Logistik & Pengiriman & Warehousing & Pangiriman Just-In-Time ing AGS-TECH Inc. Waca liyane Ketentuan Penjualan Umum ing AGS-TECH Inc Waca liyane Referensi Pelanggan Kita AGS-TECH Inc., sumber siji-mandeg kanggo manufaktur & fabrikasi & engineering & outsourcing & konsolidasi. Kita minangka integrator teknik paling maneka warna ing Donya sing nawakake manufaktur, subassembly, perakitan produk lan layanan teknik khusus.

Cable Assembly - Wire Harness - Cable Management Accessories - Connectorization - Cable Fan Out - Interconnects Majelis & Interkoneksi Kabel Listrik & Elektronik We offer: • Various kinds of wires, cables, cable assembly and cable management accessories, unshielded or shielded cable for power distribution, high voltage, low signal, telecommunications…etc., inteconnects and interconnect components. • Connectors, plugs, adaptors and mating sleeves, connectorized patch panel, splicing enclosure. Cable Termination Products Brochure (Tubing, Insulation, Protection, Heat Shrinkable, Cable Repair, Breakout Boots, Clamps, Cable Ties and Clips, Wire Markers, Tapes, Cable End Caps, Distribution Slots) Custom Specialized Cable Assemblies Brochure for Lighting, Touch Technology, Industrial Electronics, Security, White Goods, Aerospace, Military, Telecom, Medical & Sterilizable, Renewable Energy...etc. Download our catalog for off-shelf interconnect components and hardware, please CLICK HERE. IGOYE Brand Solar Products Catalog Includes Solar Connectors & Cables, EV Charging Sockets. Microwave Flexible Cable Assembly Microwave and Milimeter Wave Test Accessories Brochure (Cable assemblies, VNA Test Assemblies, Mechanical Calibration Kits, RF Coaxial Adapters, Test Port Adapters, DC Blocks, NMD Connectors....etc.) Precision RF Adapters Catalog Private Label Low-Voltage Cables (We can put your name and logo on these, so you can market your name when you sell or install these cables) Private Label Low-Voltage Cables & Accessories for AV - DataCom - CATV - Security - LAN - Electrical (We can put your name and logo on these, so you can market your name when you sell or install these cables) Receptacles-Power Entry-Connectors Catalogue RF Components Brochure for Coaxial Fixed Attenuators, Coaxial Terminations, DC Blocks, Coax Adapters, Waveguide Components, Power Dividers, RF Connectors, RF Tools. Terminal Blocks and Connectors Terminal Blocks General Catalogue - Information on our facility producing ceramic to metal fittings, hermetic sealing, vacuum feedthroughs, high and ultrahigh vacuum components, BNC, SHV adapters and connectors, conductors and contact pins, connector terminals can be found here: Factory Brochure Dowload brochure for our DESIGN PARTNERSHIP PROGRAM Interconnects and cable assembly products come in a large variety. Please specify us the type, application, specification sheets if available and we will offer you the most suitable product. We can custom tailor these for you in case it is not an off-the-shelf product. Our cable assemblies and interconnects are CE or UL marked by authorized organizations and comply with industry regulations and standards such as IEEE, IEC, ISO...etc. To find out more about our engineering and research & development capabilities instead of manufacturing operations, we invite you to visit our engineering site http://www.ags-engineering.com KLIK Product Finder-Locator Service PREVIOUS PAGE

Holography - Holographic Glass Grating - AGS-TECH Inc. - New Mexico - USA Produk Holographic lan Sistem Manufaktur Kita nyedhiyakake stok sing ana ing rak uga PRODUK HOLOGRAFI sing dirancang lan diprodhuksi khusus, kalebu: • Tampilan Hologram 180, 270, 360 Derajat/ Proyeksi Visual Berbasis Holografi • Self-adhesive 360 Degree Hologram Tampilan • Film Window 3D kanggo Iklan Tampilan • Full HD Hologram Showcase & Holographic Tampilan 3D Pyramid Kanggo Iklan Holografi • Tampilan Holographic 3D Holocube Kanggo Iklan Holografi • Sistem Proyeksi Holografik 3D • Layar Holographic Layar 3D Mesh • Film Proyeksi Mburi / Film Proyeksi Ngarep (by roll) • Tampilan Tutul Interaktif • Layar Proyeksi Mlengkung: Layar Proyeksi Mlengkung minangka produk sing disesuaikan kanggo saben pelanggan. Kita nggawe layar mlengkung, layar kanggo layar simulator 3D aktif lan pasif lan tampilan simulasi. • Produk optik holografik kayata keamanan tahan panas lan stiker keaslian produk (cetak khusus miturut panjaluk pelanggan) • Gratings Kaca Holographic kanggo aplikasi ornamental utawa ilustrasi & pendidikan. Kanggo ngerteni babagan kemampuan teknik & riset & pangembangan, kita ngajak sampeyan ngunjungi situs teknik http://www.ags-engineering.com KLIK Product Finder-Locator Service PAGE sadurunge

Manufacturing Knowledge Center, Learn about manufacturing, technology, production methods, international standards related to manufacturing and products. AGS-TECH, Inc. Panjenengan Produsen Kustom Global, Integrator, Konsolidator, Mitra Outsourcing. Kita minangka sumber siji-mandeg kanggo manufaktur, fabrikasi, teknik, konsolidasi, outsourcing. Pusat Kawruh On this page, you will find links to useful information about product development, manufacturing, technical information related to manufacturing such as domestic and global standards....etc. Knowledge is power, so make this page one of your favorites and visit it whenever you need help. Klik kene, Takon Pitakonan & Entuk Jawaban Langsung PAGE sadurunge

Lighting, Illumination, LED Assembly, Lighting Fixture, Marine Lighting, Warning Lights, Panel Light, Indicator Lamps, Fiber Optic Illumination, AGS-TECH Inc. Sistem Pencahayaan & Iluminasi Manufaktur lan Majelis As an engineering integrator, AGS-TECH can provide you custom designed and manufactured LIGHTING & ILLUMINATION SYSTEMS. We have the software tools such as ZEMAX and CODE V for optical design, optimization & simulation and the firmware to test illumination, light intensity, density, chromatic output...etc of lighting and illumination systems. More specifically we offer: • Lighting and illumination fixtures, assemblies, systems, low power energy saving LED or fluorescent based illumination assemblies according to your optical specifications, needs and requirements. • Special application lighting & illumination systems for harsh environments, such as ships, boats, chemical plants, submarine...etc. with enclosures made of salt resisting materials such as brass and bronze and special connectors. • Lighting and illumination systems based on fiber optic, fiber bunch or waveguiding devices. • Lighting and illumination systems working at visible as well as other spectral regions such as UV or IR. Some of our brochures related to lighting & illumination systems can be downloaded from below links: LED dies and chips LED Lighting Products (OEM, ODM, Private Label) (If you wish, we can put your company name, brand and logo on these products) LED lights Catalog Relight Model LED Lights Brochure Indicator Lamps and Warning Lights Additional indicator lamps with UL and CE and IP65 certification ND16100111-1150582 LED display panels MEAN WELL Standard LED Drivers Plastic case, metal case, many power levels and types available, multi-dimming function, wireless IoT solutions. Dowload brochure for our DESIGN PARTNERSHIP PROGRAM We use software programs such as ZEMAX and CODE V for optical system design including lighting and illumination systems. We have the expertise to simulate a series of cascaded optical components and their resulting illumination distribution, beam angles...etc. Whether your application is free space optics like automotive lighting or lighting for buildings; or guided optics such as waveguides, fiber optic ....etc., we have the expertise in optical design to optimize the distribution of illumination density and save you energy, obtain the desired spectral output, diffuse lighting characterisics....etc. We have designed and manufactured products such as a motorcycle headlamps, taillights, visible wavelength prism and lens assemblies for liquid level sensors....etc. Depending on your needs and budget we can design and assemble lighting and illumination systems from off-the-shelf components as well as custom design & manufacture them. With the deepening energy crisis, households and corporations have started implementing energy saving strategies and products to their daily lives. Lighting is one of the major areas where energy consumption can be dramatically reduced. As we know, traditional filament based lightbulbs consume a lot of energy. The fluorescent lights consume significantly less and the LED (Light Emitting Diodes) consume even less, down to about only 15% of the energy classical light bulbs consume for providing the same amount of illumination. This means LEDs consume only a fraction ! LEDs of SMD type can also be assembled very economically, reliably and with improved modern look. We can attach desired quantity of LED chips on your special design lighting & illumination systems and can custom manufacture the glass housing, panels and other components for you. Besides energy conservation, the aesthetics of your lighting system can play an important role. In some applications, special materials are needed to minimize or avoid corrosion and damage to your lighting systems, such as the case on boats and ships being adversely influenced by salty seawater droplets that can corrode your equipment and result in malfunctioning or unaesthetic appearance over time. So whether you are developing a spotlight system, emergency lighting systems, automotive lighting systems, ornamental or architectural lighting systems, lighting and illumination instrument for a biolab or else, contact us for our opinion. We may very likely be able to offer you something that will enhance your project, add to the functionality, aesthetics, reliability and reduce your cost. More on our engineering and research & development capabilities can be found at our engineering site http://www.ags-engineering.com KLIK Product Finder-Locator Service PAGE sadurunge