The melting point of most alloys is lower than the melting point of any of the constituent metals in their components; the hardness is generally greater than the hardness of any of the metals in their components; special case: sodium-potassium alloys are liquid, and are used as heat transfer agents and alloys in atomic reactor The electrical and thermal conductivity is lower than that of any component metal. Using this characteristic of the alloy, high resistance and high thermal resistance materials can be manufactured. Materials with special properties can also be manufactured, such as 15% chromium and 9 in iron % Nickel to obtain a corrosion-resistant stainless steel, suitable for the chemical industry. Some have strong corrosion resistance (such as stainless steel).
Beryllium bronze has good elasticity, non-magnetism, does not produce corner sparks, abrasion and corrosion resistance, and excellent electrical conductivity. These are incomparable with other copper alloys, especially with mechanical contact in a flammable environment, which does not produce sparks. Its characteristics make it widely used in explosion-proof tools.
It is an indispensable important basic material in aviation instruments, precision instruments, relays, connectors, molds and other aspects. Beryllium bronze has many advantages over other alloys, and its development prospects are promising.
Beryllium bronze has good elasticity, non-magnetism, does not produce corner sparks, abrasion and corrosion resistance, and excellent electrical conductivity. These are incomparable with other copper alloys, especially with mechanical contact in a flammable environment, which does not produce sparks. Its characteristics make it widely used in explosion-proof tools.
It is an indispensable important basic material in aviation instruments, precision instruments, relays, connectors, molds and other aspects. Beryllium bronze has many advantages over other alloys, and its development prospects are promising.