If you want to test the heating operation after the condensation is wet, in a temperature> 20OC environment, you can put the humidity sensor in the refrigerator for about 5 minutes and take it out to simulate the condensation conditions, or use the method to breathe the humidity sensor and observe Operation under condensation conditions.
It is a flexible material in copper alloys. It has a series of excellent properties such as high strength, elasticity, hardness, fatigue strength, small elastic hysteresis, corrosion resistance, wear resistance, cold resistance, high conductivity, non-magnetic, and non-sparking. Physical, chemical and mechanical properties.
High-strength beryllium copper alloy: The high-strength alloy beryllium content is greater than 1.6%, the strength and hardness are in the alloy-more than twice the hardness of stainless steel, and the resistance to mechanical and chemical effects is very good. The highly conductive alloy contains beryllium in the range of 0.15% -0.7%, and also contains 1.5% -2.5% of cobalt or nickel. Its electrical conductivity and thermal conductivity are close to those of pure copper.
It is a flexible material in copper alloys. It has a series of excellent properties such as high strength, elasticity, hardness, fatigue strength, small elastic hysteresis, corrosion resistance, wear resistance, cold resistance, high conductivity, non-magnetic, and non-sparking. Physical, chemical and mechanical properties.
High-strength beryllium copper alloy: The high-strength alloy beryllium content is greater than 1.6%, the strength and hardness are in the alloy-more than twice the hardness of stainless steel, and the resistance to mechanical and chemical effects is very good. The highly conductive alloy contains beryllium in the range of 0.15% -0.7%, and also contains 1.5% -2.5% of cobalt or nickel. Its electrical conductivity and thermal conductivity are close to those of pure copper.