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Electronic Assembly, Cable Harness, PCBA, PCB, Optoelectronic Manufacturing, Transformer Assembly, Motion Detector Electrical and Electronic Assemblies Electronic Assembly - AGS-TECH, Inc. Electronic assembly of a medical oven Electronic products manufacturing and assembly by AGS-TECH, Inc. Capacitive touch headphone cable developed and manufactured by AGS-TECH Inc. Development and manufacturing of capacitive touch headphone cable Optoelectronic PCBA PCB Boards Custom PCB assemblies by AGS-TECH Prototype of a an optoelectronic robot with rotating and tip - tilt stage for automated tracking and recording Custom manufactured and assembled transformer Custom transformers manufactured by AGS-TECH Electric Drill Assembly by AGS-TECH Inc. Custom manufactured transformers made by AGS-TECH for a grill manufacturer PCBA Assemblies - Electrical Electronic Assemblies Eyeglass case with motion detectors AGS-TECH, Inc. Eyeglass case with motion sensors completely manufactured and assembled by AGS-TECH, Inc. AGS-TECH packages your products according to your choice and needs Alternator Assembly by AGS-TECH Inc. Starter Assembly by AGS-TECH Inc. Electrical Starter by AGS-TECH Inc. PCB and SMT Assemblies AGS-TECH Inc. Strain Gauges with Wire Leads Manufactured and Assembled by AGS-TECH Inc. Single and multilayer PCB boards available from AGS-TECH Inc Printed Circuit Board Assemblies PCBA Custom PCBA manufacturing AGS-TECH, Inc. PCB board manufacturing AGS-TECH We manufacture printed circuit board assemblies according to your design or our design tailored to your needs PREVIOUS PAGE

Waterjet Machining - WJ Cutting - Abrasive Water Jet - Hydrodynamic Machining - WJM - AWJM - AJM - AGS-TECH Inc. - USA Waterjet Machining & Abrasive Waterjet & Abrasive-Jet Machining and Cutting The principle of operation of WATER-JET, ABRASIVE WATER-JET and ABRASIVE-JET MACHINING & CUTTING is based on momentum change of the fast flowing stream that hits the workpiece. During this momentum change, a strong force acts and cuts the workpiece. These WATERJET CUTTING & MACHINING (WJM) techniques are based on water and highly refined abrasives, propelled at three times the speed of sound, to make incredibly accurate and precise cuts in virtually any material. For some materials like leather and plastics, an abrasive may be omitted and cutting can be done only with water. Waterjet machining can do things that other techniques cannot, from cutting intricate, very thin details in stone, glass and metals; to rapid hole drilling of titanium. Our waterjet cutting machines can handle large flat stock material with many feet of dimensions with no limit to the type of material. To make cuts and manufacture parts, we can scan images from files into the computer or a Computer Aided Drawing (CAD) of your project can be prepared by our engineers. We need to determine the type of material being cut, its thickness, and the desired cut quality. Intricate designs present no problem as the nozzle simply follows the rendered image pattern. Designs are limited only by your imagination. Contact us today with your project and let us give you our suggestions and quote. Let us examine these three types of processes in detail. WATER-JET MACHINING (WJM): The process may equally be called HYDRODYNAMIC MACHINING. The highly localized forces from the water-jet are used for cutting and deburring operations. In simpler words, the water jet acts like a saw that cuts a narrow and smooth groove in the material. Pressures levels in waterjet-machining are around 400 MPa which is pretty sufficient for efficient operation. If needed, pressures that are a few times this value can be generated. The diameters of jet nozzles are in the neighborhood of 0.05 to 1mm. We cut a variety of nonmetallic materials such as fabrics, plastics, rubber, leather, insulating materials, paper, composite materials using the waterjet cutters. Even complicated shapes such as automotive dashboard coverings made of vinyl and foam can be cut using multiple-axis, CNC controlled waterjet machining equipment. Waterjet machining is an efficient and clean process when compared to other cutting processes. Some of the major advantages of this technique are: -Cuts can be started at any location on the work piece without the need to predrill holes. -No significant heat is produced -The waterjet machining and cutting process is well suited for flexible materials because no deflection and bending of the workpiece takes place. -The burrs produced are minimal -Water-jet cutting and machining is an environmentally friendly and safe process that uses water. ABRASIVE WATER-JET MACHINING (AWJM): In this process, abrasive particles such as silicon carbide or aluminum oxide are contained in the water jet. This increases the material removal rate over that of purely water-jet machining. Metallic, nonmetallic, composite materials and others can be cut using AWJM. The technique is particularly useful for us in cutting heat-sensitive materials that we cannot cut using other techniques that produce heat. We can produce minimum holes of 3mm size and maximum depths of about 25 mm. Cutting speed can reach as high as several meters per minute depending on material being machined. For metals the cutting speed in AWJM is less as compared to plastics. Using our multiple-axis robotic control machines we can machine complex three-dimensional parts to finish dimensions without the need for a second process. To keep nozzle dimensions and diameter constant we use sapphire nozzles which is important in keeping accuracy and repeatability of the cutting operations. ABRASIVE-JET MACHINING (AJM) : In this process a high-velocity jet of dry air, nitrogen or carbondioxide containing abrasive particles hits and cuts the workpiece under controlled conditions. Abrasive-Jet Machining is used for cutting small holes, slots and intricate patterns in very hard and brittle metallic and nonmetallic materials, deburring and removing flash from parts, trimming and beveling, removing surface films such as oxides, cleaning of components with irregular surfaces. The gas pressures are around 850 kPa, and the abrasive-jet velocities around 300 m/s. Abrasive particles have diameters around 10 to 50 microns. The high speed abrasive particles round off sharp corners and holes made tend to be tapered. Therefore designers of parts that will be machined by abrasive-jet should take these into consideration and make sure the produced parts do not require such sharp corners and holes. The water-jet, abrasive water-jet and abrasive-jet machining processes can be used effectively for cutting and deburring operations. These techniques have an inherent flexibility thanks to the fact that they do not use hard tooling. CLICK Product Finder-Locator Service PREVIOUS PAGE

Camera Systems - Components - Optic Scanner - Optical Readers - Imaging System - CCD - Optomechanical Systems - IR Cameras Customized Camera Systems Manufacturing & Assembly AGS-TECH offers: • Camera systems, camera components and custom camera assemblies • Custom designed and manufactured optical scanners, readers, optical security product assemblies. • Precision optical, opto-mechanical and electro-optical assemblies integrating imaging and nonimaging optics, LED lighting, fiber optics and CCD cameras • Among the products our optical engineers have developed are: - Omni-directional periscope and camera for surveillance and security applications. 360 x 60º field of view high resolution image, no stitching required. - Inner cavity wide angle video camera - Super slim 0.6 mm diameter flexible video endoscope. All medical video couplers fit over standard endoscope eyepieces and are completely sealed and soakable. For our medical endoscope and camera systems, please visit: http://www.agsmedical.com - Video camera and coupler for semi-rigid endoscope - Eye-Q Videoprobe. Non-contact zoom videoprobe for coordinate measuring machines. - Optical spectrograph & IR imaging system (OSIRIS) for ODIN satellite. Our engineers worked on the flight unit assembly, alignment, integration and test. - Wind imaging interferometer (WINDII) for NASA upper atmosphere research satellite (UARS). Our engineers worked on consulting on assembly, integration and test. WINDII performance and operational lifetime far exceeded the design goals and requirements. Depending on your application, we will determine what dimensions, pixel count, resolution, wavelength sensitivity your camera application requires. We can build systems for you suitable for infrared, visible and other wavelengths. Contact us today to find out more. Dowload brochure for our DESIGN PARTNERSHIP PROGRAM Developing a customized camera system can take relatively longer lead times and cost more as compared to ready-to-use systems. Therefore please click on the blue links below to check whether any of our ready-to-use products fit your application: 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) Fixed Industrial Scanners (We private label these with your brand name and logo if you wish) Hikrobot Machine Vision Products Hikrobot Smart Machine Vision Products Hikrobot Machine Vision Standard Products Hikvision Logistic Vision Solutions Private Label Medical Endoscopes and Visualization Systems (We can put your company name and logo on these) Also make sure to download our comprehensive electric & electronic components catalog for off-shelf products by CLICKING HERE. CLICK Product Finder-Locator Service PREVIOUS PAGE

Valves, Globe Valve, Gate Valve, Pinch Valve, Diaphragm Valve, Needle Valve, Multi Turn - Quarter Turn Valves for Pneumatics & Hydraulics, Vacuum from AGS-TECH Valves for Pneumatics & Hydraulics & Vacuum The types of pneumatic and hydrolic valves we supply are summarized below. For those who are not very familiar with pneumatic and hydrolic valves, as this will help you better understand the material below, we recommend that you also download Illustrations of Major Valve Types by clicking here MULTI-TURN VALVES OR LINEAR MOTION VALVES The Gate Valve: The gate valve is a general service valve used primarily for on/off, non-throttling service. This type of valve is closed by either a flat face, vertical disc, or gate sliding down through the valve to block the flow. The Globe Valve: Globe valves achieve closure by a plug with a flat or convex bottom lowered onto a matching horizontal seat located in the center of the valve. Raising the plug opens the valve and allows the fluid to flow. Globe valves are used for on/off service and can handle throttling applications. The Pinch Valve: Pinch valves are particularly suited for applications of slurries or liquids with large amounts of suspended solids. Pinch valves seal by means of one or more flexible elements, such as a rubber tube, that can be pinched to shut off flow. The Diaphragm Valve: Diaphragm valves close by means of a flexible diaphragm attached to a compressor. Lowering the compressor by the valve stem, the diaphragm seals and cuts off flow. The diaphragm valve handles well corrosive, erosive and dirty jobs. The Needle Valve: The needle valve is a volume-control valve restricting flow in small lines. The fluid going through the valve turns 90 degrees and passes through an orifice which is the seat for a rod with a cone-shaped tip. The orifice size is changed by positioning the cone in relation to the seat. QUARTER TURN VALVES OR ROTARY VALVES The Plug Valve: Plug valves are used primarily for on/off service and throttling services. Plug valves control flow by means of a cylindrical or tapered plug with a hole in the center that lines up with the flow path of the valve to permit flow. A quarter turn in either direction blocks the flow path. The Ball Valve: The ball valve is similar to the plug valve but uses a rotating ball with a hole through it allowing straight-through flow in the open position and shutting off the flow when the ball is rotated 90 degrees blocking the flow passage. Similar to plug valves, ball valves are used for on-off and throttling services. The Butterfly Valve: The butterfly valve controls flow by using a circular disc or vane with its pivot axis at right angles to the direction of flow in the pipe. Butterfly valves are used for both on/off and throttling services. SELF-ACTUATED VALVES The Check Valve: The check valve is designed to prevent backflow. Fluid flow in the desired direction opens the valve, while backflow forces the valve closed. Check valves are analogous to diodes in an electric circuit or isolators in an optical circuit. The Pressure Relief Valve: Pressure relief valves are designed to provide protection from over-pressure in steam, gas, air and liquid lines. The pressure relief valve ''lets off steam'' when pressure exceeds a safe level, and closes again when pressure drops to the preset safe level. CONTROL VALVES They control conditions such as flow, pressure, temperature, and fluid level by fully or partially opening or closing in response to signals received from controllers that compare a ''setpoint'' to a ''process variable'' whose value is provided by sensors that monitor changes in such conditions. The opening and closing of control valves is usually achieved automatically by electrical, hydraulic or pneumatic actuators. Control valves consist of three main parts in which each part exists in several types and designs: 1.) Valve's actuator 2.) Valve's positioner 3.) Valve's body. Control valves are designed to ensure accurate proportioning control of flow. They automatically vary the rate of flow based on signals received from sensing devices in a continuous process. Some valves are designed specifically as control valves. However other valves, both linear and rotary motion, can be used as control valves as well, by the addition of power actuators, positioners and other accessories. SPECIALTY VALVES In addition to these standard types of valves, we produce custom-designed valves and actuators for specific applications. Valves are available in a broad spectrum of sizes and materials. The selection of the proper valve for a particular application is important. When selecting a valve for your application, consider: • The substance to be handled and the ability of the valve to resist attack by corrosion or erosion. • The flow rate • The valve control and shutting off the flow needed by the service conditions. • The maximum working pressures and temperatures and the ability of the valve to withstand them. • Actuator requirements, if any. • Maintenance and repair requirements and suitability of the selected valve for easy service. We produce many specialty valves engineered for specific requirements and operating conditions. For example, Ball Valves are available in two way and three way configurations for standard and severe duty. Hastelloy Valves are the most common special material valves. High Temperature Valves feature an extension to remove the packing area from the hot zone of a valve, making them fit for use at 1,000 Fahrenheit (538 Centigrade). Micro Control Metering Valves are designed to assure the fine and precise stem travel necessary for excellent control of flow. An integrated vernier indicator provides exact measurements of the stem revolutions. Pipe Connection Valves allow users to plumb a system through 15,000 psi using standard NPT pipe connections. Male Bottom Connection Valvesare designed for applications where extra rigidity or space restrictions are critical. These valves have a one-piece stem construction to increase durability and reduce the overall height. Double Block and Bleed Ball Valves are designed for high pressure hydraulic and pneumatic systems used for pressure monitoring and testing, chemical injection and drain line isolation. COMMON VALVE ACTUATOR TYPES Manual Actuators A manual actuator employs levers, gears, or wheels to facilitate movement while an automatic actuator has an external power source to provide the force and motion to operate a valve remotely or automatically. Power actuators are needed for valves located in remote areas. Power actuators are also used on valves that are frequently operated or throttled. Valves that are particularly large may be impossible or impractical to operate manually because of the sheer horsepower requirements. Some valves are located in very hostile or toxic environments that makes manual operation very difficult or impossible. As a safety functionality, some types of power actuators may be required to act quickly, shutting down a valve in cases of emergency. Hydraulic and Pneumatic Actuators Hydraulic and pneumatic actuators are often used on linear and quarter-turn valves. Sufficient air or fluid pressure acts on a piston to provide thrust in a linear motion for gate or globe valves. The thrust is mechanically converted to rotary motion to operate a quarter-turn valve. Most types of fluid power actuators can be supplied with fail-safe features to close or open a valve under emergency circumstances. Electric Actuators Electric actuators have motor drives that provide torque to operate a valve. Electric actuators are often used on multi-turn valves like gate or globe valves. With the addition of a quarter-turn gearbox, they can be utilized on ball, plug, or other quarter-turn valves. Please click on highlighted text below to download our product brochures for pneumatic and hydraulic valves: - Pneumatic Valves - Private Label Valves for Liquids and Gas (We can put your name and logo on these valves if you wish) - Vickers Series Hydraulic Vane Pumps and Motors - Vickers Series Valves - YC-Rexroth Series Variable Displacement Piston Pumps-Hydraulic Valves-Multiple Valves - Yuken Series Vane Pumps - Valves - YC Series Hydraulic Valves - Information on our facility producing ceramic to metal fittings, hermetic sealing, vacuum feedthroughs, high and ultrahigh vacuum and fluid control components can be found here: Fluid Control Factory Brochure CLICK Product Finder-Locator Service PREVIOUS PAGE

Photochemical Machining - PCM - Photo Etching - Chemical Milling - Blanking - Wet Etching - CM - Sheet Metal Components Chemical Machining & Photochemical Blanking 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. CLICK Product Finder-Locator Service PREVIOUS PAGE

Plastic Molds & Molding & Extrusion, Plastic Molding of Instrument Housing, Injection Moulded Components from PVC, PE, PET, PC Plastic Molds & Molding & Extrusion Moulded plastic components assembled into a motorcycle taillight. AGS-TECH manufactured for a customer the parts and the entire electronic assembly which meets Department of Transportation requirements. Plastic moulded electronic eyeglass cases Motion activated precision molded plastic eyeglass case assembly Plastic injection moulded eyeglass case bottom view Motion activated precision molded plastic eyeglass case assembly Plastic Components Moulding and Assembly by AGS-TECH Inc. Circuit board and moulded plastic components assembled into medical oven Plastic moulding and assembly by AGS-TECH Inc Manufacturing of plastic toys Precision injection mouldings Injection molded parts assembled together Moulded parts manufactured by AGS-TECH on a repeat basis Rapid Prototyping of Plastic Products Injection molded pneumatic components FDA approved extruded - molded plastic consumer products from AGS-TECH FDA approved plastic products for food and beverage from AGS-TECH Precision plastic extrusions from AGS-TECH Plastic extrusions and extrusion die manufacturing at AGS-TECH UHMWPE Wearing Strips Extruded UHMW PE tracks - Plastic Molding and Extrusions at AGS-TECH Inc UHMW PE tracks - Plastic Extrusions at AGS-TECH Inc Blow Molded Recovery Coolant Tank by AGS-TECH. Injection Blow Molding of Various Containers - AGS-TECH Inc. UHMWPE Extrusion Parts - AGS-TECH Inc Plastic Blow Molded Pole Base by AGS-TECH Inc. Injection and Blow Molding for Manufacturing Instrument Carrying Cases - AGS-TECH Inc. Blow moulding at AGS-TECH Inc. Blow Moulds for Plastic Containers - AGS-TECH Inc. PREVIOUS PAGE

We supply wire and wire mesh, galvanized wires, metal wire, black annealed wire, wire mesh filters, wire cloth, perforated metal mesh, wire mesh fence and panels, conveyor belt mesh, wire mesh containers and customized wire mesh products to your specifications. Mesh & Wire We supply wire and mesh products, including galvanized iron wires, PVC coated iron binding wires, wire mesh, wire net, fencing wires, conveyor belt mesh, perforated metal mesh. Besides our off-the-shelf wire mesh products we do custom manufacture mesh and metal wire products according to your specifications and needs. We cut to desired size, label and package according to customer requirements. Please click on submenus below to read more about a specific wire & mesh product. Galvanized Wires & Metal Wires These wires are used in numerous applications throughout industry. For example galvanized iron wires are frequently used for binding and attachment purposes, as ropes of considerable tensile strength. These metal wires can be hot dip galvanized and have metallic appearance or they can be PVC coated and be colored. Barbed wires have various razor types and are used for keeping intruders outside of restricted areas. Various wire gauges are available from stock. Long wires come in coils. If quantities justify, we may be able to manufacture them at your desired lengths and coil dimensions. Custom labeling and packaging of our Galvanized Wires, Metal Wires, Barbed Wire is possible. Download brochures: - Metal Wires - Galvanized - Black Annealed Wire Mesh Filters These are mostly made of thin stainless steel wire mesh and widely used in industry as filters for filtering liquids, dusts, powders...etc. Wire mesh filters have thicknesses in the few milimeters range. AGS-TECH has achieved manufacturing wire mesh with wire diameters less than 1 mm for electromagnetic shielding of military naval illumination systems. We manufacture wire mesh filters with dimensions according to customer specifications. Square, round and oval are commonly used geometries. Wire diameters and mesh count of our filters can be chosen by you. We cut them to size and frame the edges so the filter mesh does not get distorted or damaged. Our wire mesh filters possess high strainability, long lifespan, strong and reliable edges. Some usage areas of our wire mesh filters are chemical industry, pharmaceutical industry, brewage, beverage, electromagnetic shielding, automotive industry, mechanical applications, etc. - Wire Mesh and Cloth Brochure (includes wire mesh filters) Perforated Metal Mesh Our perforated metal mesh sheets are produced from galvanized steel, low carbon steel, stainless steel, copper plates, nickel plates or as requested by you, the customer. Various hole shapes and patterns can be stamped as you wish. Our perforated metal mesh offers smoothness, perfect surface flatness, strength and durability and is suitable for many applications. By supplying perforated metal mesh we have fulfilled the needs of many industries and applications including indoor sound insulation, silencer manufacturing, mining, medicine, food processing, ventilation, agricultural storage, mechanical protection and more. Call us today. We will happily cut, stamp, bend, fabricate your perforated metal mesh according to your specifications and needs. - Wire Mesh and Cloth Brochure (includes perforated metal mesh) Wire Mesh Fence & Panels & Reinforcement Wire mesh is widely used in construction, landscaping, home improvement, gardening, road building...etc., with popular applications of wire mesh as fence and reinforcement panels in construction. See our downloadable brochures below to choose your preferred model of mesh opening, wire gauge, color and finish. All of our wire mesh fence & panels and reinforcement products are compliant with international industry standards. A variety of wire mesh fence structures are available from stock. - Wire Mesh and Cloth Brochure (includes information on our fence & panels and reinforcement) Conveyor Belt Mesh Our Conveyor Belt Mesh are generally made of reinforced mesh stainless steel wire, stainless iron wire, nichrome wire, bullet wire. Applications of conveyor belt mesh are as filter and as conveyer belt for use in chemical industry, petroleum, metallurgy, food industry, pharmaceuticals, glass industry, delivery of parts within a plant or facility..., etc. Weave Style of most conveyor belt mesh is pre-bending to spring and then insertion of wire. Wire diameters are generally: 0.8-2.5mm Wire thicknesses are generally: 5-13.2mm Common colors are generally: Silver Generally width is between 0.4m-3m and lengths are between 0.5 - 100 m Conveyor belt mesh is heat resistant Chain type, width and length of conveyor belt mesh are among the customizable parameters. - Wire Mesh and Cloth Brochure (includes general information on our capabilities) Customized Wire Mesh Products (such as Cable Trays, Stirrup....etc.) From wire mesh and perforated metal mesh we can manufacture a variety of custom products such as cable trays, stirrers, Faraday cages & EM shielding structures, wire baskets and trays, architectural objects, objects of art, steel wire mesh gloves used in the meat industry for protection against injuries...etc. Our customized wire mesh, perforated metals, and expanded metals can be cut to size and flattened for your desired application. Flattened wire mesh is commonly used as machine guards, ventilation screens, burner screens, security screens, liquid drainage screens, ceiling panels and many other applications. We can create customized perforated metals with hole shapes and sizes to meet your project and product requirements. Perforated metals are versatile in their use. We can also provide coated wire mesh. Coatings can improve durability of your customized wire mesh products and also provide a rust resistant barrier. Custom wire mesh coatings available include Powder Coating, Electro-Polishing, Hot-Dipped Galvanizing, Nylon, Painting, Aluminizing, Electro-Galvanizing, PVC, Kevlar,...etc. Whether woven from wire as customized wire mesh, or stamped & punched and flattened from sheet metal as perforated sheets, contact AGS-TECH for your customized product requirements. - Wire Mesh and Cloth Brochure (includes plenty of information on our customized wire mesh production capabilities) - Wire Mesh Cable Trays and Baskets Brochure (besides the products in this brochure you can get customized cable trays according to your specifications) - Wire Mesh Container Quote Design Form (please click to download, fill out and email us) PREVIOUS PAGE

We offer specialty cutting tools to cut and process special and extraordinary materials and products. They include honing tools, hone, hones, precision dicing tools for cutting semiconductors, glass and more. Specialty Cutting Tools Please click on the Specialty Cutting Tools of interest below to download the relevant brochure. Honing Tools, Hone, Hones Precision Dicing Tools for Semiconductors, Glass and More Private Label Abrasives (We can put your company name, logo, brand on these. In other words we offer you private label) Private Label Abrasives Ordering Instructions Guide Private Label Hand Tools for Every Industry This catalog contains some specialty cutting tools. We can private label these hand tools if you wish. In other words, we can put your company name, brand and label on them. This way you can promote your brand by reselling these to your customers. Private Label Power Tool Accessories - Drill Bits - Cutting Grinding Polishing Disks - Hole Saws - Jig Saw Blades....etc. We can private label these hand tools if you wish. In other words, we can put your company name, brand and label on them. This way you can promote your brand by reselling these to your customers. Private Label Power Tools for Every Industry This catalog contains some specialty cutting tools. We can private label these hand tools if you wish. In other words, we can put your company name, brand and label on them. This way you can promote your brand by reselling these to your customers. Private Label Taps - Cutting Tools (We can private label these drill bits with your company name and logo) Prices depend on model and quantity of order. Besides the off-the-shelf products in our brochures above, we do manufacture and supply custom specialty cutting tools. In other words, if you have a design and blueprint, send it to us and we can manufacture them according to your design. Since we carry a wide variety of specialty cutting and shaping tools with different dimensions, applications and material; it is impossible to list them here. We encourage you to get in touch with us so we can determine which product is the best fit for you. When contacting us, please inform us about: - Your application - Material grade - Dimensions - Finishing requirements - Packaging requirements - Labeling requirements - Quantity requested per order & per year CLICK HERE to download our technical capabilities and reference guide for specialty cutting, drilling, grinding, forming, shaping, polishing tools used in medical, dental, precision instrumentation, metal stamping, die forming and other industrial applications. CLICK Product Finder-Locator Service Click Here to go to Cutting, Drilling, Grinding, Lapping, Polishing, Dicing and Shaping Tools Menu Ref. Code: oicaszhengzhouhongtuo, oicaslzqtool