In the fields of scientific research, experimentation, and high-end manufacturing, glove boxes play a crucial role as indispensable precision equipment. It can not only provide a relatively enclosed, water free, oxygen free, and controllable working atmosphere environment, but also effectively isolate external pollution, ensuring the accuracy of experimental data and the reliability of product quality. So, what is the main material of such a precision glove box device?
Glove box body and structural material: 304 stainless steel
The material selection of the glove box body, as the main frame of the entire equipment, is crucial. 304 stainless steel, with its excellent corrosion resistance, high temperature resistance, and good mechanical properties, has become the preferred material for glove box bodies. This material can not only effectively resist various corrosive substances that may be generated during the experimental process, but also maintain stable structural strength in high temperature environments, ensuring the long-term stable operation of the glove box.
The thickness of 304 stainless steel is usually 3mm, which not only ensures the durability of the glove box, but also avoids the cost increase and heavy weight caused by excessive thickness. In addition, 304 stainless steel also has good processing performance, which can meet the design requirements of complex glove box structures, such as the processing of fine structures such as flange interfaces and sealing grooves.
Exterior surface and aesthetic customization of glove box: 304 stainless steel (color can be customized)
The outer surface color of the glove box can be customized, and can be sprayed or mirrored, giving the glove box a richer color and texture while maintaining the original performance of 304 stainless steel.
Inner surface and cleanliness of glove box: oil film brushed surface
The inner surface of the glove box is treated with an oil film brushed surface. This processing method helps optimize the reflection of light inside the glove box to reduce glare, improve visual comfort, and enhance the comfort and safety of experimental operations.
Sealing and protective materials for glove box: O-ring and aluminum alloy
In the sealing structure of the glove box, O-ring is the main sealing element, and its material is usually made of high elasticity rubber to ensure a tight sealing effect at the flange interface. Aluminum alloy is widely used in the sealing structure of key parts such as glove ports in glove boxes due to its lightweight, high strength, and corrosion resistance. By using O-rings in conjunction with aluminum alloy, the glove box can achieve efficient sealing and protection, effectively isolating the intrusion of external pollutants.
Glove material: Butyl rubber
The material selection of gloves is equally crucial as they serve as the direct contact interface between the glove box and the operator. Butyl rubber has become the preferred material for glove boxes due to its excellent corrosion resistance, aging resistance, and good elasticity. This material can not only effectively resist various corrosive substances that may be generated during the experimental process, but also ensure that the gloves maintain good sealing performance and operating feel during long-term use.
Purification system: 304 stainless steel and purification material
The purification column container of the glove box is made of 304 stainless steel to ensure its corrosion resistance and structural strength. Purification materials include high-efficiency adsorbents such as copper catalysts and molecular sieves, which are used to remove impurities such as oxygen and moisture from the glove box.
The main materials of the glove box include 304 stainless steel, O-rings, aluminum alloy, butyl rubber, etc. These materials play their unique roles in the design of glove boxes, together forming a sturdy, durable, clean, and controllable working environment.
