因此,导热管在测试过程中断裂的机率将大幅降低。
Therefore, the breakage probability of the heat conducting pipe during the test process is significantly lowered.
本文从四个方面介绍超导热管与常规热管的不同点及优缺点。
The differences, advantages and disadvantages of super - conductive tube and conventional heat tube were presented in four aspects.
如果使用6mm的导热管紧靠LED,那么散热片的面积可以适当减少。
This size can be reduced if 6mm heatpipes are used to take the heat away from the immediate vicinity of the LED.
其中,集热器包括盖板、保温底盘、吸热板、导热管、耐温隔层、边框。
Wherein, the collector comprises a cover board, a heat insulating chassis, a heat absorbing plate, a heat pipe, a thermotolerant interlayer and a frame.
太阳光能量通过玻璃真空管采集,由金属超导热管传热至承压水箱内把水加热。
Sunlight energy is collected by glass vacuum tube and metal superconductive tube transmits heat to the pressure-bearing water tank to heat up water.
超导热管的集热原理是:通过金属芯片吸收热量,利集热管损坏也不影响正常使用。
The heat collecting principle of 2> superconducting heat pipe is to absorb heat through the metal chip, and heat damage will not affect the normal use.
本文研究了适用于单螺杆挤出的氯化聚氯乙烯(CPVC)导热管的配方和工艺条件。
In this paper, the formulation and processing technology for CPVC thermal conductivity pipe produced by single screw extruder were investigated.
对板式换热器、波纹管换热器和超导热管换热器的特点及使用场合进行了分析、对比。
A comparison and an analysis are made of the characteristics and situations of use of plate, corrugated tube and super conductive heat pipe exchangers.
根据热能工程及化工领域中的某些实际需要,提出了一种新型分离式可变热导热管并进行了实验研究。
Based on some demands in thermal energy engineering and chemical industries, a new type of heat pipe was proposed and studied experimentally.
这种加热炉的技术关键在于筒体按常压结构设计,采用了超导热管和波纹管强化传热材料,大幅度提高了热效率。
The heater body is designed with a atmospheric pressure structure, which adopts superheat pipes and corrugated pipes to improve greatly its heat efficiency.
这种加热炉的技术关键在于筒体按常压结构设计,采用了超导热管和波纹管强化传热材料,大幅度提高了热效率。
The heater body is designed with a atmospheric pressure structure, which adopts superheat pipes and corrugated pipes to improve greatly its heat efficiency.
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