The New Concept of Thermal Endurance of Electrical Insulation System and Insulating Material 电气绝缘系统及绝缘材料耐热性的新概念
Experimental Study on Thermal Influence of Insulating Material on SF_6 Gas Decomposition 绝缘材料受热对SF6气体分解物影响的试验研究
The article discussed thermal aging rule of insulating material of power capacitor and the difference between thermal character and aging. 对电力电容器用绝缘材料的热老化规律,以及它与热性能的区别进行了讨论。
A Composite Thermal Conductive Insulating Epoxy Adhesive Material for Electronic Package 电子封装用复合导热绝缘环氧胶粘剂的研制
Flexible Thermal Insulating Material With Multilayer Reflection and Nanostructure 具有多层反射结构的柔性纳米隔热材料
H-BN is similar with graphite carbon,, it has good thermal stability, thermal conductivity, good lubricity. So it could be an ideal electrical insulating material. 六角氮化硼(h-BN)与石墨碳类似,具有良好的润滑性、导热性及热稳定性,并且是一种非常好的电绝缘材料。
Optimization of a new refractory thermal insulating material and its application 新耐火保温材料的优选与应用
According to heat loss of thermal network pipes per meter stated by nation, thickness of thermal insulating layer varying with thermal conductivity of insulating material and temperature of working pair is studied by numerical calculation. 在国家规定的热网管道的每米热损失下,其保温层厚度随着保温材料的导热系数及工质温度的不同而不同。
Effect of the Sinkage of the Thermal Insulating Material on the Heat Loss of Steam Pipeline 绝热材料下沉对蒸汽管道热损失的影响
High temperature resistant and thermal insulating DPFC pad is a compound component, using PPS resin as base resin and glass fiber as reinforcing material. DPFC耐高温隔热垫块是以PPS树脂为基体,以玻璃纤维等为增强材料制得的复合构件,它既能耐220℃以上的高温,又兼有隔热、承压性能。
The brief analysis shows that the primary factor of effects on heat lose of thermal insulating engineering is thermal conductivity of material. 说明影响保温工程热损失的主要因素是材料的导热系数。
The Measurement Technology of Steady State Thermal Resistance of Thermal Insulating Material Based on SCM 基于单片机的绝热材料稳态热阻的测量
But with the development of Micro-Electro-Mechanical System ( MEMS) technology, porous silicon has become a new kind of sacrificial and thermal insulating material used in MEMS due to its excellent mechanical and thermal isolation properties. 近几年来,随着微电子机械系统(MEMS)的发展,多孔硅优良的机械性能和热学性能逐渐为人们所关注,成为MEMS中新兴的牺牲层材料和绝热层材料。
The ideal microstructure of the thermal insulating material is discussed, and the microstructure of the thermal insulating material that was prepared by this study is analyzed. 探讨了高性能隔热材料理想的微观结构,并对本研究制备的隔热材料进行了微观结构分析。
The present paper discusses the technology of buried heating pipelines in three major aspects ( the pipeline network design, the thermal insulating material and structure, and the erection) and give an introduction to its application to the heating plant in the port construction. 对直埋供热管道技术主要从直埋供热管道网设计、直埋供热管道的保温材料和保温结构以及施工问题三方面进行探讨,并介绍其在港口供热工程中的应用。
As the most potential thermal insulating material in the MEMS technology, nanoporous silica film has attracted widespread attention. 作为微电子机械系统(MEMS)技术中最有潜力的绝热材料,纳米多孔二氧化硅薄膜近年来引起了广泛的关注。
On The Suggestion Defining The Upper Limit of Thermal Conductivity of Thermal Insulating Material 关于确定保温材料导热系数上限值的建议
Calculation on the Insulating Thickness of Thermal Network Pipes Varying with Temperature of Working Pair and Thermal Conductivity of Insulating Material 热网管道的保温厚度与工质温度、保温材料导热系数的关系计算