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Mechanical Tester
NANOVEA Mechanical Tester is the most versatile nanoindenter and scratch tester capable of precisely measuring the micro- to nanomechanical properties of wide ranges of materials from thin films, coatings, ceramics and composites to polymers and bio materials via Indentation, Scratch and Friction testing. All NANOVEA Mechanical Tester models come with true feedback load control from independent load and depth sensors that provide unmatched accuracy and the highest repeatability available on the market. This technology allows a user to perform Nanoindentation and Microindentation for Hardness and Elastic Modulus Testing, Stress vs Strain Analysis, Creep and Relaxation, Loss and Storage Modulus, Yield Strength and Fatigue, Fracture Toughness and Nano-scratch & Micro-scratch for Scratch Hardness Testing, Multi-pass Wear Test, Cohesive and Adhesive Failure Testing as well as Coefficient of Friction testing, all available on one system.
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Wire Damaged Tester
WDT-1
This equipment is designed and manufactured according to corresponding regulation in standard IEC884-1, GB299.1-96, GB16915.1-97 and other electronic accessories relevant standard. Mainly used to test damage degree of fixed connection components lead wire of with thread clamping type and no screw terminals, so as to inspect whether it can withstand mechanical stress during normal use.Specification: • Power supply: AC220V 50Hz • Test rate: 10±2r/min (GB16915.1-97: 12 ±1r/min) • Rotating radius: 100mm • Test distance: 250~500mm adjustable • Test numbers (Number of rotating): 0~999999 any set • Mass: 0.3KG, 0.4KG, 0.7KG, 0.9KG, 1.4KG, and 2.0KG (GB16915.1-97: 30N, 40N, 50N, 60N each of 2 pcs) • Stations: 2 • Dimension: 1200×1400×400 (mm) • Remarks: The mass and rotating radius can be optional as per customer requirements.
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High Voltage Tester For Hair Dryer & Hair Straightner
Every electrical apparatus or machine consists of two distinct sections - one which carries the electricity, and other which is isolated (insulated) from the electric currents. The former may be called the `Live' side whiles the latter `Earth’ side. A person near about the apparatus or handling it can safely touch the Earth side, but not the live side, for obvious reasons. To ensure that the isolation of the two sections is effected properly, the apparatus is tested by subjecting it to a Voltage much higher than the normal working Voltage. If the insulation is good, it stands the test without breakdown otherwise high electrical stress punctures the insulation at its weakest spot foretelling a later calamity to unwary user. Government Department- when buying electrical equipments- and all reputable manufacturers test every piece of equipment by this test called HIGH VOLTAGE TEST. It weeds out poorly insulate apparatus.
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Durable, Ultra Small & Flexible Test Assembly
StormFlex® 034
Storm Flex® line of flexible cables, the 034 diameter cable offers the same superior mechanical benefits in a new miniature size.Its ruggedness and durability combined with its ultra-small size, very low weight, and extreme flexibility make Storm Flex® 034 cable assemblies the perfect fit for applications such as:- Test & Measurement ~ where flexibility and robustness minimize mating errors.- Systems ~ with complex installation or deployment that can compromise mechanical & RF stability.- Gimbal ~ with requirements for cables operating to 50 GHz.- Digital Test ~ needing minimized stress at the connector to connector interface.- High Density ~ utilizing multi-cable interconnects with centerline spacing as low as 0.07 inches.Storm Flex® 034 cable is also recommended as a semi-rigid replacement in applications where a sem-rigid cable is impractical to deploy and routing may result in assembly breakage or electrical failure.
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Low Temperature Chamber
The Ultra Low Temperature Test Chamber from Weiber are specially designed equipments that provide specific low temperature environments for testing a wide variety of products and their performance under non-ambient testing conditions. They are engineered and configured to meet the exacting low temperature requirements of various research applications and often find their use for evaluation of material properties at extreme temperatures. These versatile test chambers offer the capabilities of measuring temperature extremes, allowing both freeze tolerance studies as well as the effect of heat stress on the sample specimen within the same equipment. They combine advanced technological features with an energy efficient design for highly accurate test conditions and repeatability of results. These test chambers provide a cost-effective solution to expensive laboratory tests and are available at economical prices for increased affordability. They are designed for safe and reliable operation and find widespread usage in chemical and pharmaceutical industries, biotechnology and medicine industry, petroleum industry, food industries and other industrial and manufacturing units.
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Walk-In Solar Spectrum Test Chamber
WEIBER walk in Solar Spectrum Test Chambers are one of solutions to be utilized in large scale PV testing program. We offer customized as well as standard multidimensional test program for PV modules in reasonable prices. This system delivers the weathering stress representative of long term outdoor exposure.Our flexible system can be designed according to our test requirements, to suit environmental test conditions like volume, temperature, humidity solar radiation intensity and other measuring instruments. It is also called Walk in Solar Radiation Test Chamber.WEIBER solar test system are recognized for superior solar simulation environmental Testing, evaluating outdoor use product reliability, quality & safety. This technology allows for very high concentrations of UV energy without excessive heating of test samples. Custom mounting and cooling can be added depending upon specific material exposure requirements. MHGs (metal halide global lamps) are used as radiation source. Solar spectrum chamber also known as Walk in Solar Simulation Test Chamber
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Solar Spectrum Test Chamber / Solar Radiation Test Chamber
WEIBER Solar Spectrum Test Chambers are one of solutions to be utilized in large scale PV testing program. We offer customized as well as standard multidimensional test program for PV modules in reasonable prices. This system delivers the weathering stress representative of long term outdoor exposure.Our flexible system can be designed according to our test requirements, to suit environmental test conditions like volume, temperature, humidity solar radiation intensity and other measuring instruments. Weiber provide Solar Radiation Test Chamber.WEIBER solar test system are recognized for superior solar simulation environmental Testing, evaluating outdoor use product reliability, quality & safety. This technology allows for very high concentrations of UV energy without excessive heating of test samples. Custom mounting and cooling can be added depending upon specific material exposure requirements. MHGs (metal halide global lamps) are used as radiation source. Weiber provide Solar Simulation Test Chamber.
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Optical Fiber Cable Testing Equipment
Optical fiber consists of a core and a cladding layer, selected for total internal reflection due to the difference in the refractive index between the two. In practical fibers, the cladding is usually coated with a layer of acrylate polymer or polyimide. This coating protects the fiber from damage but does not contribute to its optical waveguide properties. Individual coated fibers then have a tough resin buffer layer and/or core tube(s) extruded around them to form the cable core. Several layers of protective sheathing, depending on the application, are added to form the cable. Rigid fiber assemblies sometimes put light-absorbing ("dark") glass between the fibers, to prevent light that leaks out of one fiber from entering another. This reduces cross-talk between the fibers, or reduces flare in fiber bundle imaging applications Optical fibers are very strong, but the strength is drastically reduced by unavoidable microscopic surface flaws inherent in the manufacturing process. The initial fiber strength, as well as its change with time, must be considered relative to the stress imposed on the fiber during handling, cabling, and installation for a given set of environmental conditions. There are three basic scenarios that can lead to strength degradation and failure by inducing flaw growth: dynamic fatigue, static fatigues, and zero-stress aging.
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HV Rotary Switches
B-1003
A key feature of our rotary switches is their simple mechanical design which results in conservative stress levels for trouble-free, long life use. In addition, each rotary switch has a reinforced chassis design utilizing G-10 or G-11 fire retardant anti-tracking coated epoxy glass insulation. G-7 silicone glass is used for special applications where RF or high temperatures are involved. Heavy duty contacts, specifically designed to minimize corona in the Ross rotaries, are made of highly conductive yet weld resistant alloy with high contact closing force. This high force gives our rotary switches high momentary current capability and a reputation for their ability to withstand high shock and vibration as well as other severe environmental conditions. Ratings to 150kV, to 200A. When immersed in insulating oil, fluid or gas, the voltage withstand value is at least doubled and the interrupt capability is much greater. In a gas atmosphere, no modification is required. However, immersion in oil or fluid may require modification in some cases, at an extra cost (optional). Each unit is either manually or electrically operated. One SPDT contact is standard on most units. The auxiliary contact is used as an interlock for protection against "Switching Hot".
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SMARC Short Size Module with NXP i.MX 6 Multicore Arm® Cortex®-A9
LEC-iMX6R2
The SMARC ("Smart Mobility ARChitecture") is a versatile small form factor computer Module definition targeting applications that require low power, low costs, and high performance. The Modules will typically use ARM SOCs similar or the same as those used in many familiar devices such as tablet computers and smart phones. Alternative low power SOCs and CPUs, such as tablet oriented X86 devices and other RISC CPUs may be used as well. The Module power envelope is typically under 6W. The Modules are used as building blocks for portable and stationary embedded systems. The core CPU and support circuits, including DRAM, boot flash, power sequencing, CPU power supplies, GBE and a single channel LVDS display transmitter are concentrated on the Module. The Modules are used with application specific Carrier Boards that implement other features such as audio CODECs, touch controllers, wireless devices, etc. The modular approach allows scalability, fast time to market and upgradability while still maintaining low costs, low power and small physical size. To stress on its low power consumption feature, ADLINK has named SMARC products as LEC (Low Energy Computer on module) series.
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Digital Leakage Current Tester
Educated Design & Development, Inc.
Fast - All operator controls are located on the front panel to expedite testing. The entire test can be performed in a matter of seconds! Pays for itself in time and stress savings. Versatile - Measures Leakage Current in accordance with UL, CSA, EN, and IEC/ International Standards. Includes ability to perform open neutral, open ground, and line polarity forward/reverse test conditions. Adaptable - Universal rear panel receptacle allows for testing products with any plug configuration. Accurate - True RMS meter accurately measures both sinusoidal and non-sinusoidal waveshapes. This is important when testing products using a switch mode power supply which can generate non-sinusoidal leakage currents. Calibrated, traceable to NIST. Flexible - A front panel switch permits testing either through the power cord of the product under test, from surface/ patient connection-to-ground, or from surface/ patient connection-to-surface/ patient connection. Portable - Lightweight, with integral handle. Other Features - Product Ground Switching (grounding conductor maintained to device under test when not measuring leakage). Automatic front receptacle disconnect when configured in the 240V test mode (prevents inadvertent connection of 120V when configured for 240V operation). Proven - These are the only leakage current testers designed and supported by Product Safety experts. That is part of the reason why they have become the standard in the industry. Full technical support by experienced safety engineers.
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Dielectric Breakdown Voltage and Dielectric Strength
ASTM D149
This test method covers procedures for the determination of dielectric strength of solid insulating materials at commercial power frequencies, under specified conditions. Unless otherwise specified, the tests shall be made at 60 Hz. However, this test method is suitable for use at any frequency from 25 to 800 Hz. At frequencies above 800 Hz, dielectric heating is a potential problem. This test method is intended to be used in conjunction with any ASTM standard or other document that refers to this test method. References to this document need to specify the particular options to be used. It is suitable for use at various temperatures, and in any suitable gaseous or liquid surrounding medium. This test method is not intended for measuring the dielectric strength of materials that are fluid under the conditions of test. This test method is not intended for use in determining intrinsic dielectric strength, direct-voltage dielectric strength, or thermal failure under electrical stress (see Test Method ASTM D3151). This test method is most commonly used to determine the dielectric breakdown voltage through the thickness of a test specimen (puncture). It is also suitable for use to determine dielectric breakdown voltage along the interface between a solid specimen and a gaseous or liquid surrounding medium (flashover). This test method is similar to IEC Publication 243-1. All procedures in this method are included in IEC 243-1. Differences between this method and IEC 243-1 are largely editorial. Note: The above information is taken directly from the test method Scope published in ASTM D149.
