In the fields of new material research and development, precision manufacturing, and industrial production, high-temperature sintering and material processing are key links that determine product quality. The high-performance sintering furnaces and vacuum sintering furnaces we have developed, with their stable performance, precise temperature control, and reliable structure, have become the ideal choice for universities, research institutions, and industrial and mining enterprises. They provide professional solutions for scenarios such as powder metallurgy, ceramic preparation, high-temperature experiments, and material processing.
This sintering furnace has a wide range of applications and can meet the high-temperature operation needs in multiple fields. Whether it is scientific research exploration in university laboratories, new material research and development in research institutes, or large-scale production and quality inspection in industrial and mining enterprises, it can easily handle tasks such as powder roasting, ceramic sintering, high-temperature experiments, chemical analysis, and material processing. It helps achieve technological breakthroughs and product upgrades, supporting high-quality innovative development with professional equipment.
To ensure accurate temperature measurement and stable operation of the equipment, after using the automatic thermocouple in/out system for half a year, it is necessary to promptly unscrew the thermocouple base and add diffusion pump oil to guarantee precise temperature measurement and smooth transmission. After using the vacuum furnace and its supporting vacuum system for approximately half a year, vacuum sealant should be applied to axial sealing parts such as the observation window baffle base and the pneumatic vacuum butterfly valve to enhance sealing performance and eliminate potential air leakage hazards. After each sintering operation, the observation window glass should be promptly removed for cleaning to maintain a clear view and prevent residual impurities from affecting observation and the equipment’s sealing performance.
To ensure accurate temperature measurement and stable operation of the equipment, the automatic thermocouple entry and exit system must have its thermocouple base unscrewed in a timely manner after six months of use to add diffusion pump oil, thereby guaranteeing precise temperature measurement and smooth transmission. After approximately six months of use of the vacuum furnace and its supporting vacuum system, vacuum sealant should be applied to axial sealing components such as the observation window baffle base and the pneumatic vacuum butterfly valve to enhance sealing performance and eliminate potential air leakage risks. After each sintering operation, the observation window glass should be promptly removed for cleaning to maintain a clear view and prevent residual impurities from affecting observation and the equipment’s sealing performance.
As a core suppl…
National New Ca…