2025.11.25
Thermal pressing and hot riveting, as key processes for signal transmission in new-energy vehicle battery modules, demand extremely precise temperature control in their thermal bonding process.
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High-Precision Temperature Solutions for Photovoltaic Oxidation Processes
2025.06.26
Temperature is a critical parameter in the Photovoltaic industry diffusion process, significantly influencing the oxidation rate of materials, the quality of the oxide layer, as well as the efficiency and cost of the entire process. During photovoltaic oxidation, temperature control must be extremely precise to ensure the formation of a uniform and high-quality oxide layer. If the temperature is too high, the oxidation rate may become excessively rapid, leading to defects and stress that can compromise the material's mechanical and electrical properties. Conversely, if the temperature is too low, the oxidation rate will slow down, prolonging the production cycle and increasing energy consumption. Therefore, optimizing temperature control is an important approach for enhancing the performance of the photovoltaic oxidation process and reducing costs.
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Application in Lithium Battery Roller Heater Furnaces
2025.06.26
The tunnel kiln controls the kiln temperature by adjusting electric heating via a power regulator. During sintering, the raw materials undergo high-temperature and high-pressure processes, forming positive and negative electrode materials for lithium-ion batteries that exhibit specific mechanical strength and electrochemical performance. The roller hearth furnace requires a temperature-control system and temperature-sensing elements to ensure precise control of the sintering process.
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Temperature Control Solutions for Vacuum Equipment in New Material Production Processes
2025.06.26
Vacuum furnace equipment is used for processes such as the synthesis, sintering, and annealing of electronic materials. The performance and stability of electronic components are directly affected by temperature, as their material properties and internal structures are highly sensitive to temperature changes.
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Application of Instruments in Kinematic Viscosity Testers
2025.06.26
The kinematic viscosity tester is a laboratory instrument used for oil analysis, primarily designed to measure the kinematic viscosity of oils. By determining the kinematic viscosity of a liquid under various temperature conditions, this instrument can evaluate the fluid's performance and service life in extreme cold or hot environments, thereby ensuring the reliability and safety of the product. According to the set parameters, the instrument heats the sample to the specified temperature and maintains it at a constant level. Once the temperature reaches equilibrium, the sample is placed into the viscosity tube. The instrument then automatically measures the time it takes for the sample to flow through the tube, calculates the experimental results automatically, and finally cleans the viscosity tube to complete the test.
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Application of Thermostats in Organoid 3D Printers
2025.06.26
The device for household use is an organoid 3D printer that employs modular print heads featuring temperature-controlled extrusion, micro-droplet jetting, and light-curing technologies, enabling multi-channel, coordinated/synchronous printing of cells, hydrogels, polymers, and inorganic materials. During the printing process, the device requires a constant temperature to ensure smooth printing.
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