Beryllium bronze is a typical alloy with a strong age hardening type. Heat treatment of beryllium bronze springs has great practical value. Beryllium bronze heat treatment not only has high hardness, strength, elasticity and good abrasion resistance, but also has good corrosion resistance, electrical conductivity, thermal conductivity, solderability, non-magnetism, etc., no sparks when impacted.
Supersaturation obtained after quenching. A solid solution is an unstable tissue at room temperature. If you want to reach equilibrium or stabilize the tissue, you need to go through aging. The aging process is the process of dissolving the solid solution, which changes with the change of temperature. When the QBc2 alloy is heated to a certain temperature, the sensitive atoms in the solution are moved and aggregated to a certain area, and the aggregated area is completely coherent with the matrix.
The aging strengthening effect of samarium alloy is related to the size of aggregated particles, but the particle size is controlled by the aging temperature. From the data, the peak age and hardness of beryllium bronze are between (300-500) r. The formulation of art under aging must first ensure that the design requirements of the product are met. The bee value of hardness and strength should not be pursued blindly. The original aging process only considers the peak effect of aging. The data shows that the aging temperature of the elastic element is selected according to its physical condition.
Supersaturation obtained after quenching. A solid solution is an unstable tissue at room temperature. If you want to reach equilibrium or stabilize the tissue, you need to go through aging. The aging process is the process of dissolving the solid solution, which changes with the change of temperature. When the QBc2 alloy is heated to a certain temperature, the sensitive atoms in the solution are moved and aggregated to a certain area, and the aggregated area is completely coherent with the matrix.
The aging strengthening effect of samarium alloy is related to the size of aggregated particles, but the particle size is controlled by the aging temperature. From the data, the peak age and hardness of beryllium bronze are between (300-500) r. The formulation of art under aging must first ensure that the design requirements of the product are met. The bee value of hardness and strength should not be pursued blindly. The original aging process only considers the peak effect of aging. The data shows that the aging temperature of the elastic element is selected according to its physical condition.