1) heating stage
高温热台
1.
A heating stage was designed according to the principle of zone-melting.
根据水平区熔法晶体生长的原理 ,设计制作了激光显微喇曼高温热台 ;针对不同晶体 ,采用不同的加热装置 ,构成相应的温度场 ,并对其三维方向的温度场进行了测量。
2) 1 350 ℃high-temperatrue stage
1350℃高温热台
1.
Using LEICA 1 350 ℃high-temperatrue stage can show the ruler of the transformation on the structure of the two steels.
利用 LEICA 1350℃高温热台观察了 304钢和 Cr12钢的高温相变过程,发现 304钢在 1130℃左右开始析出 α相,1250℃左右 α相析出量最大;Cr12钢中共晶碳化物在 800℃左右时开始溶解。
3) high temperature pyrolysis
高温热解
1.
In order to study the characterisetics of batched high temperature pyrolysis of some mumicipal solid waste(MSW),a batched-scale pyrolysis test has been carried out on the test stand,obtaining pyrolystic gas compents and gas-producing rate of each specimen.
为了研究固体废物批量热解特性,在试验台上进行了批量规模的高温热解试验,得到了各样本的热解气组分和产气率。
2.
The catalyst iron particles and carbon atom are introduced onto the substrate by high temperature pyrolysis of FePc.
利用高温热解酞菁铁的方法,在几种不同金属丝上生长了碳纳米管,测试比较了几种金属丝上碳纳米管的场致电子发射特性。
3.
The sulfur escapes from samples in form of gas oxides by the high temperature pyrolysis combustion,at the same time,the chloride are broken down to chlorine and escaped,so the sulfur is oxidized to high valence in form of SO3,and it is absorbed by water to form SO2-4 ion,which forms fine particle mixed with Ba2+ ion.
利用高温热解燃烧将试样中的硫以气体氧化物形式逸出,与此同时,氯化物也分解成氯气逸出,因而硫被氧化为高价,呈SO3形式被水吸收而形成SO42-离子,SO42-离子与Ba2+离子即生成细微的颗粒。
4) pyrolysis
[英][pai'rɔlisis] [美][paɪ'rɑləsɪs]
高温热解
1.
Characteristic study of the solid, liquid and gas produced by microwave pyrolysis of sewage sludge;
微波高温热解污水污泥各态产物特性分析
2.
Volatility of trace elements in the coal from Shenfu during pyrolysis;
高温热解神府煤中微量元素释放规律的研究
3.
Efficiency and Mechanism of Sewage Sludge Deatering and Pyrolysis under Treatment of Microwave Energy;
微波能作用下污泥脱水和高温热解的效能与机制
6) High Temperature Heat Pipe
高温热管
1.
Simulation design of high temperature heat pipe heat exchanger;
高温热管换热器模拟设计
2.
Analysis on the properties of NaK alloy high temperature heat pipe and its experimental study;
钠钾合金高温热管性能试验研究
补充资料:内燃机油高温热稳定性试验
分子式:
CAS号:
性质:评定内燃机油高温变质生成沉积物趋势的实验室模拟方法。常用的方法是:斜板法、成焦板法、热管法、热重分析法等。热重分析法是通过比较氧化前后试油失重,而其他方法均为通过观察沉积物生成量及颜色来评价油品的高温稳定性。
CAS号:
性质:评定内燃机油高温变质生成沉积物趋势的实验室模拟方法。常用的方法是:斜板法、成焦板法、热管法、热重分析法等。热重分析法是通过比较氧化前后试油失重,而其他方法均为通过观察沉积物生成量及颜色来评价油品的高温稳定性。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条