热裂解-气相色谱/质谱联用技术,Pyrolysis Gas Chromatography/Mass Spectrum(Py-GC/MS),在线英语词典,英文翻译,专业英语

1) Pyrolysis Gas Chromatography/Mass Spectrum(Py-GC/MS)

热裂解-气相色谱/质谱联用技术

2) Hot Crack

热裂

Effects of Si on Hot Crack Behavior of 6082 Alloy;

Si含量对6082合金热裂行为的影响

Effects of Electric Pulse Moeification on the Hot Cracking Tendency of Al-5Cu Alloy;

电脉冲孕育处理对Al-5Cu合金热裂的影响

Hot crack numerical simulation has been handled by 'solidification-feeding' model based on temperature field.

本文使用基于温度场的凝固补缩模型来进行热裂纹数值模拟。

3) hot cracking

热裂

The effects of Sb and Bi on the hot cracking tendency of casting Al-Cu alloys;

Sb和Bi元素对铸造铝铜合金抗热裂性能的影响

The effects of rare earths and strontium composite additions on the microstructure,mechanical properties and hot cracking resistant property of AM60 magnesium alloy were investigated.

稀土、锶复合添加对AM60镁合金组织、力学性能和抗热裂性能的影响的研究结果表明,往AM60镁合金中添加稀土后,稀土与合金中的异质形核核心Al9Mn11相或Al(8Fe,Mn)5相反应生成Al-RE-Mn三元相,减少了合金熔体中异质形核核心的数目,从而引起了合金晶粒粗化。

A new type of multi-function system for testing linear shrinkage, stress and hot cracking of casting alloy is introduced in the paper.

介绍一种新型铸造合金线收缩-应力-热裂特性综合测试系统。

4) hot tearing

热裂

Effects of alloying elements on hot tearing trends of Al-Cu alloy;

合金元素对Al-Cu合金热裂倾向的影响

Resolution of Hot Tearing and Distortion for Long and Thin Castings in Investment Foundry;

细长件熔模铸造热裂及变形缺陷问题的解决

Increasing Al content decreased the hot tearing susceptibility of Mg-Al binary alloys rema.

增加Al含量时,可以显著降低Mg-Al二元合金的热裂倾向,提高α-Mg基体的显微硬度。

5) Hot-crack

热裂

Reason of Hot-cracking of Resin-sand Lathe Bed Casting and It's Elimination Method;

树脂砂床身热裂纹缺陷的成因及防止

6) hot tear

热裂

Effects of Die Structure on Hot Tear Tendency of Al-Cu Alloy in Squeezing Casting;

模具结构对挤压铸造Al-Cu合金热裂倾向的影响

Hot Tearing Behavior Testing of Mg Alloy;

镁合金的热裂行为测试研究

Research Development of Hot Tear Mechanism for Cast Alloys;

合金的热裂机理及其研究进展

参考词条

再热裂纹热裂倾向加热裂解抗热裂性热裂测试不可否认密码协议三峡经济区

补充资料：热裂解气

分子式：
CAS号：

性质：又称裂解气。以天然气（甲烷）、石脑油、轻柴油直到重质油等轻类为原料，通过非催化热裂解制得的混合气体，在较低压力（0.1～0.3MPa）和较高温度（约760～900℃）下裂解制取，主要组分为乙烯、丙烯、丁二烯、C₆～C₈芳烃和甲烷、氢。以制取乙炔为主要目的的热裂解气是以天然气为原料，在1450℃左右的高温下裂解制取。热裂解气是组成复杂的混合气，需经净化、分离、脱除杂质气体组分后才能作为化工基本原料。

说明：补充资料仅用于学习参考，请勿用于其它任何用途。

首页 \| 翻译 \| 影视 \| 论坛 \| 索引热裂/热裂势热裂纹热裂解热裂解法水热裂解热裂解能

1) Pyrolysis Gas Chromatography/Mass Spectrum(Py-GC/MS) 热裂解-气相色谱/质谱联用技术 2) Hot Crack 热裂 1. Effects of Si on Hot Crack Behavior of 6082 Alloy; Si含量对6082合金热裂行为的影响 2. Effects of Electric Pulse Moeification on the Hot Cracking Tendency of Al-5Cu Alloy; 电脉冲孕育处理对Al-5Cu合金热裂的影响 3. Hot crack numerical simulation has been handled by 'solidification-feeding' model based on temperature field. 本文使用基于温度场的凝固补缩模型来进行热裂纹数值模拟。 3) hot cracking 热裂 1. The effects of Sb and Bi on the hot cracking tendency of casting Al-Cu alloys; Sb和Bi元素对铸造铝铜合金抗热裂性能的影响 2. The effects of rare earths and strontium composite additions on the microstructure,mechanical properties and hot cracking resistant property of AM60 magnesium alloy were investigated. 稀土、锶复合添加对AM60镁合金组织、力学性能和抗热裂性能的影响的研究结果表明,往AM60镁合金中添加稀土后,稀土与合金中的异质形核核心Al9Mn11相或Al(8Fe,Mn)5相反应生成Al-RE-Mn三元相,减少了合金熔体中异质形核核心的数目,从而引起了合金晶粒粗化。 3. A new type of multi-function system for testing linear shrinkage, stress and hot cracking of casting alloy is introduced in the paper. 介绍一种新型铸造合金线收缩-应力-热裂特性综合测试系统。 4) hot tearing 热裂 1. Effects of alloying elements on hot tearing trends of Al-Cu alloy; 合金元素对Al-Cu合金热裂倾向的影响 2. Resolution of Hot Tearing and Distortion for Long and Thin Castings in Investment Foundry; 细长件熔模铸造热裂及变形缺陷问题的解决 3. Increasing Al content decreased the hot tearing susceptibility of Mg-Al binary alloys rema. 增加Al含量时,可以显著降低Mg-Al二元合金的热裂倾向,提高α-Mg基体的显微硬度。 5) Hot-crack 热裂 1. Reason of Hot-cracking of Resin-sand Lathe Bed Casting and It's Elimination Method; 树脂砂床身热裂纹缺陷的成因及防止 6) hot tear 热裂 1. Effects of Die Structure on Hot Tear Tendency of Al-Cu Alloy in Squeezing Casting; 模具结构对挤压铸造Al-Cu合金热裂倾向的影响 2. Hot Tearing Behavior Testing of Mg Alloy; 镁合金的热裂行为测试研究 3. Research Development of Hot Tear Mechanism for Cast Alloys; 合金的热裂机理及其研究进展参考词条再热裂纹热裂倾向加热裂解抗热裂性热裂测试不可否认密码协议三峡经济区补充资料：热裂解气分子式： CAS号：性质：又称裂解气。以天然气（甲烷）、石脑油、轻柴油直到重质油等轻类为原料，通过非催化热裂解制得的混合气体，在较低压力（0.1～0.3MPa）和较高温度（约760～900℃）下裂解制取，主要组分为乙烯、丙烯、丁二烯、C₆～C₈芳烃和甲烷、氢。以制取乙炔为主要目的的热裂解气是以天然气为原料，在1450℃左右的高温下裂解制取。热裂解气是组成复杂的混合气，需经净化、分离、脱除杂质气体组分后才能作为化工基本原料。说明：补充资料仅用于学习参考，请勿用于其它任何用途。
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