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What is the maximum welding temperature for Manhart (Guangdong) CNC Co., Ltd.’s high-temperature welding machine?

The maximum welding temperature of a high-temperature welding machine is not determined by the welding machine itself, but by the welding material used, the base material (i.e. the material to be welded), and the welding process. Different materials have different melting points, and the temperature during the welding process needs to be high enough to melt the interface between the welding material and the base material, in order to achieve a strong connection between them.
Usually, the operating temperature range of high-temperature welding machines can be between hundreds to thousands of degrees Celsius. For example, for common high-temperature materials such as stainless steel and high alloy steel, the welding temperature is usually between 1500 ° C and 2000 ° C. For certain special high-temperature alloys or refractory metals, the welding temperature may be higher.
However, it should be noted that the higher the welding temperature, the better. Excessive temperature may lead to a decrease in material performance, excessive thermal stress or deformation, and may even result in a decrease in the quality of welded joints. Therefore, when selecting welding temperature and welding process, it is necessary to comprehensively consider the specific material type and thickness, joint design requirements, and actual application scenarios.
In addition, during the high-temperature welding process, attention should be paid to controlling parameters such as welding speed and welding pressure to ensure the quality and performance of the welded joints. At the same time, special attention should be paid to safety issues during high-temperature welding operations, such as taking appropriate protective measures and avoiding the generation of harmful gases and smoke.
In summary, the maximum welding temperature of a high-temperature welding machine is not fixed, but determined based on specific material and process requirements. In practical applications, it is necessary to comprehensively consider the specific situation to ensure the quality and performance of welded joints.