Experimental rotary tube furnace heat treatment temperature rangeThe heat treatment temperature range of experimental rotary tube furnaces is usually determined based on the furnace body design, heating element materials, and experimental requirements. The common temperature range is between 1000 ℃ and 1600 ℃, and some equipment can reach up to 1700 ℃ or even higher.
05-21
What gases can be passed through an experimental rotary tube furnace?The experimental rotary tube furnace can be filled with various gases according to experimental requirements, and the gas selection mainly depends on material properties, reaction types, and process requirements. The following is a detailed explanation of common gas types and their application scenarios:
05-21
Can the experimental rotary tube furnace be ventilated with gas?The experimental rotary tube furnace can be ventilated with gas. It is usually equipped with atmosphere control function, and the sealing system adopts stainless steel flanges, furnace tubes, and high-temperature resistant silicone rubber seals. Inert gases such as nitrogen, argon, and hydrogen can be introduced to meet the atmosphere requirements under specific experimental conditions.
Experimental rotary tube furnaceExperimental rotary tube furnace is a heat treatment equipment used for laboratory research and small-scale production. Let’s take a detailed look below!
Customized tempering furnace daily maintenanceThe daily maintenance of customized tempering furnaces is the key to ensuring their long-term stable operation, extending their service life, and ensuring the quality of heat treatment. Here are some key maintenance measures and suggestions:
Can tempering furnaces be customized?Tempering furnaces can be customized. The manufacturer provides customized services for tempering furnaces to meet the personalized needs of different users. Here are some key information about customizing tempering furnaces:
05-19
Working principle of tempering furnaceTempering furnace is a key equipment in metal heat treatment process, and its core function is to adjust the microstructure of metal materials through controllable heating and cooling, thereby optimizing their comprehensive properties such as hardness, toughness, wear resistance, etc.
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