1) bulk precipitation
体相沉淀
2) interphase precipitation
相间沉淀
1.
The new research achievement in recent years was synthesized to expound the new mechanism of eutectoid reaction in steel,to make a new explanation for the mechanism of the interphase precipitation and to renew the concept of pearlite.
本文综合近年来的研究成果,阐述了钢中共析分解的新机制,对于"相间沉淀"机理做了新的解释,重申了珠光体的新概念。
2.
It is thought that the pearlite transformation and interphase precipitation of supercooling austenite is a process that ferrite and carbied can coexist and.
认为 ,过冷奥氏体的珠光体转变以及所谓“相间沉淀”都是铁素体和碳化物两相的共析共生的分解过程 ,设计了新的转变模型 。
3) homogeneous precipitation
均相沉淀
1.
Preparation of W-Cu nanopowder by homogeneous precipitation process and its sintering behavior;
纳米W-Cu粉末的均相沉淀法制备及其烧结性能
2.
3 nm was prepared by a homogeneous precipitation method with nickel nitrate hexahydrate and urea.
以Ni(NO3)2·6H2O和CO(NH2)2为原料,采用均相沉淀法制备尺寸为39。
3.
Using FeCl_3 and TiCl_4 as raw materials, nanometric TiO_2_Fe_2O_3 was prepared under microwave irradiation by homogeneous precipitation method.
以TiCl4,FeCl3为原料,尿素为沉淀剂,采用微波加热,均相沉淀法合成了一系列纳米TiO2-Fe2O3复合材料。
4) liquid-phase precipitation
液相沉淀
1.
Preparation of Al_2O_3 nanopowders withliquid-phase precipitation method;
特殊液相沉淀法制备纳米Al_2O_3粉体
2.
Preparation of nano BaTiO_3 doped with Sn powder by special liquid-phase precipitation method;
用特殊液相沉淀法制备掺锡钛酸钡纳米粉体
3.
Preparation of ZTA nanoceramic composites by liquid-phase precipitation method;
液相沉淀法制备ZTA纳米复相陶瓷
5) precipitated phases
沉淀相
1.
The effects of 10-T magnetic field on ageing behavior of the precipitated phases of Al-4%Cu alloys aged at 130 ℃ were investigated by differential scanning calorimetry analysis,Vickers micro-hardness test,electron probe microanalysis and transmission electron microscopy observation.
采用差示扫描量热仪分析并结合显微硬度测试、电子探针分析、透射电镜观察研究了10-T稳恒强磁场对Al-4%Cu(质量分数)合金130℃时效过程中各沉淀相析出行为的影响。
6) precipitates
[英][pri'sipitit] [美][prɪ'sɪpətɪt]
沉淀相
1.
The precipitates in 20Cr11MoVNbNB heat resisting steel quenched at 1130℃ and tempered at 700℃ for 4h, and subsequently creeped at 550℃ for 5462h and 650℃ for 2968h were studied by means of XRD, TEM, etc.
对20Cr11MoVNbNB钢550℃、650℃蠕变过程中的沉淀相研究表明:M23C6和MC型碳化物是该钢的主要沉淀相;M23C6和MC的粗化均符合D-t1/4线性规律、受体扩散和位错扩散综合控制;M23C6的粗化速率比MC的大。
2.
The evolution of coarse second phases and precipitates during the heat treatment .
但在合金的成分优化,显微组织控制和强韧化机理方面的研究仍不具体透彻,尤其是粗大第二相和沉淀相的演化规律和作用方面,仍有相当的理论和应用内容需做进一步系统深入的研究。
补充资料:半奥氏体沉淀硬化不锈钢的金相组织
半奥氏体沉淀硬化不锈钢的金相组织
黝半奥氏体沉淀硬化不锈钢的金相组织
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