Showing results: 31 - 37 of 37 items found.
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TSS series -
Clima Temperatur Systeme
The operating principle of Schocktestprfschrank based of two superposed test rooms (top hot chamber, cold chamber below), between which a car with the test specimens is moved up and down by the large thermal shock test equipment may be subjected
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ATSS Series -
Thermotron Industries
Thermotron's Automated Thermal Stress Systems (ATSS) facilitate extremely rapid product temperature change rates in a space-saving, self-contained design that accelerate a Thermal Stress test. Thermotron's ATSS chambers meet the latest MIL-STD 883E and MIL-STD 202F thermal shock specifications as well as JEDEC and IPC test methods. ATSS chambers are capable of the following: Rapid thermal shocking, Accelerated product stressing, Controlled thermal cycling in a self-contained, compact design. With separate hot and cold zones, the Automated Thermal Stress System was designed with a patented retractable product transfer carrier that makes full use of the available working volume in both temperature zones for increased product loading and throughput. The product transfer carrier reduces the overall height requirements of the chamber and is made as light as possible to minimize thermal loading restraints. Thermotron ATSS chambers can be used as part of most commercial reliability and quality control programs, helping to determine:
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National Technical Systems
NTS is the exclusive provider of HATS2™testing services in North America. Thermal shock testing has long been the accepted method to check robustness and reliability of plated-through holes and solder joint connections. Historically, thermal shock testing has been performed utilizing either dual chamber air-to-air systems or liquid-to-liquid systems. Both of these methods offer significant disadvantages in cost, time, and the fact that the samples must be transported between the hot and cold environments. Transportation of the samples between the temperature environments makes monitoring the resistance of the samples difficult and inaccurate due to the length and quantity of wires. The infrequent monitoring typically associated with traditional thermal shock methods also makes detection of “glitch” conditions marginal at best.
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Darwin Chambers Company
Our walk-in Materials Test and Cure Rooms offer reliable, efficient environmental controls for a variety of applications including shelf-life testing and storage, ceramic and concrete wet and dry cure regimens (including ASTM-compliant units), thermal shock chambers, general, medical and packaging materials.
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Quest Engineering Solutions
Quest has 14 environmental chambers ranging in size from 1 cubic foot to over 1,000 cubic feet, covering temperatures from below -100C to temperatures exceeding 200C. Our temperature/humidity test chambers include one of the largest walk-in chambers (15 x 10 x 8 ft) in New England, table top, high humidity, thermal shock, and high ramp rate test chambers. We can provide a wide range of temperature/humidity conditions on a variety of different product shapes and sizes, from extremely small to large products.
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TSB Series -
Cincinnati Sub-Zero Products
CSZ's Liquid thermal shock chambers consist of separately controlled hot and cold baths. Product is submersed in fluid and thermally stressed between the hot and cold baths, resulting in immediate product temperature changes. CSZ uses perfluorinated fluid that does not coat the product or conduct electricity for use in both the hot and cold baths to eliminate cross contamination and reduce evaporation losses.
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Dongguan Amade Instruments Technology Co., Ltd
Lithium battery test chambers are used to simulate various extreme conditions such as crush, impact, penetration, overcharge etc the lithium ion cells and batteries are subjected to during use, transportation, storage and disposal to determine the safety performances, tests including altitude simulation test, thermal test, vibration test, shock test, external short circuit test, impact/crush test, overcharge test, discharge test etc based on UN38.3, IEC62133, UL1642 standards. Applicable to communication products, computer products, consumer electronics, automobile power supplies and so on.
