1) liquidus sintering
液相线结
2) supersolidus liquid phase sintering
超固相线液相烧结
1.
Nickel base powder superalloy GH4049 was prepared from pre-alloyed powder by supersolidus liquid phase sintering.
采用超固相线液相烧结方法制备了GH4049粉末合金,研究了合金的致密化机理、热处理对合金组织和力学性能的影响以及Y2O3对合金的强化作用。
2.
Nickel base powder superalloy Inconel 718 was prepared from pre-alloyed powder by supersolidus liquid phase sintering.
以惰性气体雾化粉末为原料,采用超固相线液相烧结方法制备了Inconel 718粉末高温合金,研究了粉末合金的烧结温度和热处理制度对合金组织和力学性能的影响。
3) liquid phase sintering
液相烧结
1.
Mechanism of liquid phase sintering for Al_2O_3/3Y-TZP composite;
Al_2O_3/3Y-TZP复相陶瓷的液相烧结机理
2.
Crystallization and phase changing of amorphous silicon nitride nanopowders by liquid phase sintering;
液相烧结非晶纳米氮化硅陶瓷粉体结晶与相变行为研究
3.
A study on liquid phase sintering process of hard cladding materials;
硬质覆层材料的液相烧结工艺研究
4) liquid-phase-sintering
液相烧结
1.
Experiment process of liquid-phase-sintering of high-density W-Ni-Mn alloy was introduced.
介绍了高密度合金W-Ni-Mn液相烧结的实验过程,并对烧结体密度和显微组织进行了测试和分析,发现Mn能够降低烧结温度和细化晶粒,但其高氧化性对合金的烧结工艺和性能影响显著。
5) liquid-phase sintering
液相烧结
1.
The microstructure,thermal conductivity,electrical conductivity,relative density of Mo-Cu alloy prepared by infiltration and liquid-phase sintering process are investigated.
研究熔渗和液相烧结法制得Mo-Cu合金的显微组织、电导率、致密度、热导率。
2.
08)O_4 was prepared by liquid-phase sintering process.
采用液相烧结,制备了组成为Mn_(0。
3.
The addition of ZnO led to a liquid-phase sintering mechanism of Ca 0.
4Zr4P6O24 陶瓷的液相烧结。
6) liquid sintering
液相烧结
1.
Reactivity in liquid sintering process of Al/fly ash particulate composites;
铝/飞灰颗粒复合材料液相烧结过程的反应性
2.
By addition of complex sintering aids to ZTA nano multiphase ceramics, liquid sintering occurred at lower temperature, so the densification process was accelerated and the relative density was improved.
在微 纳复合ZTA材料中加入少量复合助剂 ,材料在较低温度下实现液相烧结 ,促进了材料的致密化过程 ,提高了材料的相对密度。
3.
The in-situ reaction liquid sintering technical process, sintering mechanism and mechanical properties as well as its application of ternary-boride based cermet such as Mo2FeB2 based cermet(KHM) were reviewed.
介绍了三元硼化物基金属陶瓷的发展现状,以MO2FeB2基金属陶瓷KHM为例,对三元硼化物基金属陶瓷的原位反应液相烧结工艺过程、烧结机理和力学性能及其应用进行了综述,并对它的应用前景和发展趋势进行了展望。
补充资料:液相线温度
液相线温度
液相线温度(又称初晶温度)是铝电解体系的一个重要的性质,它与铝电解操作温度有直接的关系。电解质温度对于稳定的生产非常重要。工业实践证明,当电解质温度降低10℃,电流效率可提高2%。熔体的温度过高或过低,都将影响冶金生产作业的正常进行,及时检测和控制熔体的温度,是保证冶金生产正常作业的重要条件之一。电解质组分不同,其分子比也不同。电解质的分子比适当降低,其过热温度也随之下降,这有利于降低电解温度,提高电流效率。分子比偏高或偏低对槽膛都会有较大的影响。低分子比操作是现代高效节能铝电解槽的标志。由上可知测定铝电解质的液相线温度和分子比对铝电解工业是多么重要。
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