1) heating process
加热工艺
1.
The effect of heating process on surface oxidation of copper-bearing steel was studied.
研究了加热工艺对含铜钢表面氧化的影响。
2.
7-ton heavy ingots, a heating process has been designed and tested for blooming of heavy ingots for high carbon chromium bearing steel manufacturing.
7t大锭生产GCr15轴承钢,为消除大锭偏析和改善碳化物带状、液析,对大锭开坯加热工艺进行设计、试验探索,并不断地优化确立了较为合适的加热工艺,最后转化为正常生产工艺。
3.
The effect of heating process on the microstructure and mechanical properties of Nb microalloyed automotive steels has been studied in laboratory and under the industrial process conditions.
在实验室及工业生产条件下研究加热工艺对含Nb汽车用微合金钢显微组织和力学性能的影响。
2) hot working process
热加工工艺
1.
A study of mechanical properties and hot working process of SiC_P/FVS0812 composite
SiC_P/FVS0812的热加工工艺及力学性能研究
2.
Hot deformation behavior and hot working process of superalloy GH742 large-scare VAR ingot(■508mm) were studied.
对GH742合金自耗锭(■508 mm)的热变形行为及热加工工艺进行了研究。
3.
The MB 26 (Mg-Zn-Zr-RE) alloy samples treated with different hot working processes were analytically studied by mechanical performance test, metallography, SEM and TEM etc.
通过力学性能试验、金相、扫描电镜及透射电镜等方法和手段对MB2 6 (Mg Zn Zr RE)合金在不同热加工工艺条件下的样品进行了分析和研究。
3) hot-working technology
热加工工艺
1.
The influence of high-speed steel carbide appearance to hot-working technology and die & mold life was stated in detail.
详细叙述了高速钢碳化物形貌对热加工工艺及模具寿命的影响。
4) hot working technology
热加工工艺
1.
The effect of hot working technology on the mechanical properties and structure of the interface of Ti/Steel composite sheet was studied.
研究了热加工工艺对钛-钢复合板界面力学性能和显微组织的影响。
2.
The method of improving the impact toughness of non quenching and tempering steel by controlling the content of minor elements and the hot working technology is discussed.
通过在 40 Mn V钢中控制微量元素含量并控制热加工工艺 ,探讨提高非调质钢冲击性能的方法。
3.
The effective method of improving the toughness of 35MnVNRe steel is fining the austenite grain The paper researched the influence of hot working technology on austenite recrystallization and grain siz
为了提高非调质 35MnVNRe钢的韧性 ,有效的方法是细化奥氏体晶粒 ,因而研究了热加工工艺对该钢种奥氏体形变再结晶和晶粒尺寸的影响 ,为热加工工艺参数的选择提供了依
6) thermal independence technology
免加热工艺
1.
Object: To compare the pharmacological effects of Dragon s Blood extracts from thermal independence technology and tradition method.
目的:对免加热工艺提取的龙血竭与传统工艺提取的龙血竭进行止血镇痛抗炎作用比较。
补充资料:加热
分子式:
分子量:
CAS号:
性质:热源将热能传给较冷物体而使其变热的过程。根据热能的获得,可分为直接的和间接的两类。直接热源加热是将热能直接加于物料,如烟道气加热、电流加热和太阳辐射能加热等。间接热源加热是将上述直接热源的热能加热能加于一中间载热体,然后由中间载热体将热能再传给物料,如蒸汽加热、热水加热、矿物油加热等。
分子量:
CAS号:
性质:热源将热能传给较冷物体而使其变热的过程。根据热能的获得,可分为直接的和间接的两类。直接热源加热是将热能直接加于物料,如烟道气加热、电流加热和太阳辐射能加热等。间接热源加热是将上述直接热源的热能加热能加于一中间载热体,然后由中间载热体将热能再传给物料,如蒸汽加热、热水加热、矿物油加热等。
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参考词条