No activation process is required! It maintains the desired pressure within the vacuum insulation space.
Combo Getter is a product designed for vacuum insulation panel (VIP) applications. It has an exceptionally high nitrogen adsorption performance, capable of adsorbing permeated or outgassed species within the vacuum panel for long periods, ranging from 10 to 20 years or more, keeping the pressure below the desired threshold. Additionally, it does not require an activation process. Along with nitrogen adsorption, Combo Getter exhibits high adsorption capacity for O2, H2O, H2, CO/CO2 at room temperature. Combo Getter can also be used in vacuum devices where baking is not possible, or those containing materials with high outgassing rates or high permeability. 【Features】 ○ High adsorption capacity for N2, H2O, H2, CO, CO2, O2 at room temperature ○ No activation required; can be used as is. ○ Ideal for operation between 10-4 mbar and 1 mbar ○ Packaged in a protected argon atmosphere ○ After opening, leakage to the atmosphere should be minimized (preferably within 15 minutes).
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basic information
Saes' getter technology has been closely involved in the revolution of vacuum technology and related devices for over the past 50 years. Various getter alloys and different shapes and structures of non-evaporable getters have been developed to fit all possible vacuum devices, addressing specific process conditions (such as process temperature, special needs for adsorption force, and adsorption force at different temperatures).
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Applications/Examples of results
【Applications】 ● Vacuum Insulation Panels (VIP) ● Vacuum insulation devices that cannot undergo baking or degassing ● Vacuum containers (those with a high outgassing rate that quickly saturate conventional non-evaporable getters, under relatively high pressure conditions.)
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.
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