Selectively adsorbs hydrogen, contributing to the longevity of products and improved thermal insulation performance!
Lothar is a getter that selectively adsorbs hydrogen, developed specifically for ultra-low temperature insulated containers and pipes used for the storage and transportation of liquid gases (such as LNG, LN2, LH2, LOX). It contributes to the longevity of cryogenic equipment and the improvement of insulation performance as an efficient, cost-effective, and safe getter solution. 【Features】 ○ High adsorption capacity for hydrogen ○ Safe to use even in liquid oxygen tanks ○ No activation required ○ Convenient use of a porous bag (no need for powder weighing or bagging operations)
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basic information
Hydrogen gas can potentially cause degradation of particulate materials such as Pd and Pt when used in specific devices like GaAs devices. Hydrogen gas is well known for its ability to transfer heat efficiently, but it is also known to create dangerous situations, such as explosions, when large amounts of hydrogen are stored in sealed or semi-sealed containers. Additionally, hydrogen gas can be generated by the decomposition of moisture, which may lead to the expansion of the outer casing of semi-sealed electrochemical devices like Al capacitors and supercapacitors. In response to these technical needs, Saes has developed an efficient hydrogen getter. Saes' hydrogen getter does not require thermal activation and can withstand harsh environments and production processes. Furthermore, it features high adsorption performance per unit area.
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Applications/Examples of results
【Applications】 ● Ultra-low temperature tanks and Dewar bottles for the storage and transportation of liquid gases ● Vacuum-insulated ultra-low temperature pipes ● Vacuum-insulated low-temperature holding devices for superconducting cables ● Solutions for products where getter activation is difficult due to high temperatures
Company information
The "Saes Getters Group," a global pioneer in getter technology, has been providing solutions for various applications, such as high and ultra-high vacuum environments and the deposition of pure metals, since its founding in the 1940s (including gas/moisture adsorbents, mercury/alkali metal deposition sources, etc.). Additionally, the company has actively invested in research and development, and since 2004, it has expanded its business into the Nitinol market. The superelastic properties of Nitinol are applied in medical devices, while its shape memory characteristics are utilized in industrial and household electrical appliances.