Tinten aluminium alloy or tunsten potassium alloy is used in the manufacture of the tungsten heater. It has 99.95% purity.
About Metal Aloy 99.95% Purity Tungsten Heating Ellement 0.3mm Thickness :
High melting point: The melting point of tungsten is as high as 3410 ° C, which means that even at extremely high temperatures, the tungsten heater will not melt. Therefore, the tungsten heater can work stably in a high-temperature environment for a long time.
High thermal conductivity: the thermal conductivity of tungsten is as high as 125W/(m·K), second only to copper. This allows the tungsten heater to reach the required temperature in a short time and maintain the stability of the temperature.
Corrosion resistance: Tungsten heater has good corrosion resistance and can work in acidic, alkaline, oxidizing, and reducing atmospheres. This makes tungsten heaters widely used in chemical reactions, material handling, and vacuum systems.
Environmental protection: Tungsten heater is an environmentally friendly material that will not produce harmful substances. At the same time, tungsten heater waste can be recycled, in line with the requirements of sustainable development.
Application of Metal Aloy 99.95% Purity Tungsten Heating Ellement 0.3mm Thickness :
Aerospace field: In the aerospace field, tungsten heaters manufacture high-temperature components such as combustion chambers and nozzles of aero engines. Because tungsten heater has a high melting point, strength, and corrosion resistance, they can withstand high temperature, high strength, and high corrosion environment.
Energy sector: Tungsten heaters manufacture heater elements for new energy equipment in the energy sector. These devices need to work in an environment of high temperature, high strength, and high corrosion resistance, and the excellent properties of tungsten heaters can meet these requirements and improve the performance and service life of the equipment.
Nuclear industry: In the nuclear sector, tungsten heaters manufacture vital components such as heater elements for atomic reactors and cladding tubes for fuel elements. Due to the extremely harsh working environment of the nuclear reactor, the details need to withstand the test of high temperature, high strength, and high corrosion, and the excellent nature of the tungsten heater can meet these requirements to ensure safety.
Chemical industry: In the chemical industry, tungsten heaters manufacture chemical equipment, chemical reactors, pipelines, and other vital components. Due to its high corrosion resistance and melting point, tungsten heaters can resist the erosion of various chemical substances and improve the service life and performance of the equipment.
Automotive field: In the automotive field, tungsten heaters manufacture high-temperature components such as combustion chambers and nozzles of automotive engines. Due to its high strength and high corrosion resistance, tungsten heaters can improve automotive components' service life and performance. In contrast, its high melting point can reduce the car's weight and improve fuel efficiency.
Production Method of Metal Aloy 99.95% Purity Tungsten Heating Ellement 0.3mm Thickness :
Ingredients: According to the composition requirements of the required tungsten heater, tungsten powder, alloying elements, and impurity elements are mixed in a particular proportion. This ratio must be formulated according to the application field and use environment.
Billet making: the mixed tungsten powder is put into the mold, and the billet of a specific shape and size is made under a certain pressure. In this process, the stress and pressing time must be controlled to ensure that the density and strength of the blank meet the requirements.
Sintering: The billet is placed in the sintering furnace and sintered at high temperatures. During sintering, the tungsten powder will undergo a physical and chemical reaction to form a tungsten heater with particular strength and hardness. The sintering temperature and sintering time need to be controlled according to the specific formula and production process.
Heat treatment: The sintered tungsten heater needs to be heat treated further to improve its mechanical, physical, and chemical properties. During the heat treatment process, the structure of the tungsten heater will change, such as grain growth, phase transformation, etc. These changes will directly affect its mechanical, physical, and chemical properties.
Processing: During the machining process, it is necessary to control the machining parameters and tool selection to ensure the accuracy and quality of the tungsten heater.
Quality testing: For each batch of tungsten heaters, strict quality testing is required to ensure it meets the relevant standards and customer requirements. Quality inspection includes appearance inspection, size measurement, performance testing, etc. Only qualified tungsten heaters can be used for subsequent processing and use.