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Selection suggestions for plasma enhanced PECVD coating electric furnaceIn the selection process of plasma enhanced PECVD coating electric furnace, multiple key factors need to be comprehensively considered to ensure that the equipment can meet specific process requirements and achieve the expected coating effect. The following are specific selection suggestions:

05-23
Plasma enhanced PECVD coating electric furnacePlasma enhanced chemical vapor deposition (PECVD) coating electric furnace is a device that uses low-temperature plasma assisted chemical reactions for thin film deposition. It has the advantages of low deposition temperature, high deposition rate, and adjustable thin film properties, and is widely used in semiconductor, photovoltaic, optical and other fields. Let’s take a detailed look below!

05-23
Can an experimental multi gradient tube furnace be made to rotate and tilt?The experimental multi gradient tube furnace can be made to rotate and tilt. Let’s take a detailed look at the advantages of the multi gradient rotating inclined tube furnace below!

05-22
Common faults and troubleshooting methods of laboratory rotary tube furnaceThe common faults and troubleshooting methods of laboratory rotary tube furnaces are as follows:

05-21
What is the reason for the inconsistency between the measured temperature and the actual temperature of the laboratory rotary tube furnace?The inconsistency between the measured temperature and the actual temperature of the laboratory rotary tube furnace may be caused by various reasons, including:

05-21
What is the reason why the temperature of the experimental rotary tube furnace cannot rise?The inability of the experimental rotary tube furnace to rise in temperature may be caused by various reasons. The following provides a detailed analysis from five aspects: power and electrical system, heating element, temperature control system, furnace structure and insulation performance, operation and process settings:

05-21
Can experimental rotary tube furnace be used for sintering experiments?The experimental rotary tube furnace can be used for sintering experiments and has significant advantages and wide applications in sintering experiments.

05-21
Why is the experimental rotary tube furnace made to rotate?The core purpose of designing an experimental rotary tube furnace as a rotating structure is to optimize the heat treatment effect through dynamic processes. Its rotating mechanism plays an irreplaceable role in improving temperature uniformity, enhancing reaction efficiency, and improving material properties.

05-21
Can the speed of the experimental rotary furnace be adjusted?The rotational speed of experimental rotary furnaces can usually be adjusted, and the range and method of adjustment depend on the design of the equipment, the driving system, and the experimental requirements.

05-21
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

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