Application of Box type Tempering Furnace in the Field of New Materials

Box type tempering furnaces are widely used in the field of new materials, mainly reflected in the synthesis and modification of new materials, performance research and analysis, process optimization and development, etc. The following is an introduction for you:

Synthesis and Modification of New Materials
High temperature synthesis: In the preparation of some new high-temperature alloys and ceramic based composite materials, specific temperature conditions are required to achieve element diffusion and reaction. The box type tempering furnace can provide a stable and precise high-temperature environment. For example, when preparing titanium carbide based composite materials, the raw materials can be heated to above 1800 ℃ in the box type tempering furnace, allowing the titanium carbide particles to fully react with the metal matrix, forming a uniform composite structure and improving the hardness and wear resistance of the material.
Material modification: For some metal materials, tempering treatment can change their internal structure, thereby improving their properties. For example, tempering a new type of titanium alloy can adjust the phase composition in the alloy, improve its strength and toughness, and better meet the demand for high-performance materials in aerospace and other fields.

Research and Analysis of New Material Properties
Phase transition research: Many new materials undergo phase transitions during heating and cooling processes, which have a significant impact on the properties of the materials. By using a box type tempering furnace, the heating and cooling rates can be precisely controlled, and the microstructure evolution and performance changes of new materials under different phase transition conditions can be studied. For example, when studying the phase transition behavior of shape memory alloys, the temperature is precisely controlled through a box type tempering furnace to observe the shape memory effect and changes in superelastic properties of the alloy at different temperatures.
Performance testing: In the process of developing new materials, it is necessary to test the mechanical properties such as hardness, strength, toughness, as well as the physical and chemical properties such as thermal stability and oxidation resistance of the materials. The box type tempering furnace can provide the necessary heat treatment conditions for performance testing, simulating the heat treatment process of materials in actual usage environments. For example, when testing the oxidation resistance of new high-temperature ceramic materials, the materials are subjected to high-temperature oxidation treatment in a box type tempering furnace, and then the oxidation weight gain and surface morphology changes of the materials are measured to evaluate their oxidation resistance.

Optimization and development of new material processes
Process parameter determination: When developing new material preparation processes, it is necessary to determine the optimal process parameters such as heating temperature, holding time, and cooling rate. The box type tempering furnace can conduct a large number of process experiments through precise temperature control and time setting to find the optimal combination of process parameters. For example, in the development of sintering processes for new powder metallurgy materials, sintering experiments are conducted at different temperatures and holding times to determine the process parameters that achieve the optimal density and performance of the material using a box type tempering furnace.
Small batch production validation: During the transition stage from laboratory research and development to large-scale production of new materials, box type tempering furnaces can be used for small batch production validation. It can meet the requirements of temperature control and process stability for small batch production, perform heat treatment on small batch products of new materials, and evaluate whether the quality and performance of the products meet the requirements of large-scale production. For example, in the research and development process of new magnetic materials, a box type tempering furnace is used to heat treat small batches of products, test the magnetic and physical properties of magnetic materials, and provide a basis for large-scale production.