1) mechano-chemical method
机械-化学法
1.
Nanosized g-72Ni28Fe alloy was successfully synthesized by mechano-chemical method, and the microstructures and particle size dependence on synthesis conditions were investigated by using various techniques, including XRD, TEM, SEM, EDS and BET.
应用机械-化学法成功地制备出纳米g-72Ni28Fe合金,通过XRD、TEM、SEM、EDS、BET等测试手段分析了不同球磨时间及氢气还原温度对粉末结构、颗粒尺寸等的影响。
2) mechanochemical method
机械化学法
1.
MnO2 was prepared by mechanochemical method,the influence of mole ratio KMnO4: Mn(CH3COO)2 on the performance of MnO2 was studied.
采用机械化学法制备了MnO2粉体,研究了不同高锰酸钾与乙酸锰配比对产物结构与性能的影响。
2.
In this paper preparation process and mechanism of nano-scale surface modification of GCC using nano CaCO_3 as modifier by mechanochemical method were studied.
本论文以纳米碳酸钙为改性剂,研究了机械化学法对重质碳酸钙进行表面纳米化修饰的工艺和机理,并对制备的复合颗粒进行表面改性,从而为充分发挥碳酸钙的优异特性、提升利用价值和技术含量等提供技术支持。
3) mechanochemical
[英][,mekənəu'kemikəl] [美][,mɛkəno'kɛmɪkəl]
机械化学法
1.
Tin oxide nanocrystal synthesized by mechanochemical method;
机械化学法合成二氧化锡纳米晶(英文)
5) mechanochemical reaction
机械化学法
1.
Sulfur-Nitrogen co-doped TiO2 nano-sized powders were prepared by the mechanochemical reaction method on 600rpm milled 2 hours and calcined using anatase TiO2 as raw material and thiourea as S-N source.
以锐钛矿型TiO2为原料,硫脲为掺杂源,采用机械化学法经过600rpm×2h高能球磨后,以焙烧处理,合成了S-N共掺杂纳米TiO2粉末。
2.
Nitrogen-doped TiO_2 nano-sized powders were prepared by the mechanochemical reaction method on 600 r·min~(-1) milled 2 hours and calcined using anatase TiO_2 as raw material and hexamethylenetetramine(HMT) as N source.
以锐钛矿型TiO2为原料,HMT(六亚甲基四胺)为掺杂N源,采用机械化学法经过600 r。
6) mechanochemical process
机械化学法
1.
Supercapacitor material MnO_2 made by mechanochemical process;
机械化学法制备超级电容器材料MnO_2
2.
The principles and characterizing technique and main application of superfine composite particle fa- bricated by mechanochemical process are reviewed.
介绍了机械化学法制备超细复合粒子的基本原理、表征技术及其应用,重点介绍了机械化学法制备无机-无机、有机-无机复合粒子的研究进展,并对其未来发展进行了展望。
3.
Ultrafine nano- scale powders of ZrO2 and ZrO2(Mgo) has been prepared by mechanochemical processing of anhydrous zirconium chloride, lithium hydroxide and magnesium chloride in room temperature and subsequently washing, heat treatment.
以氯化锆和氢氧化物以及氯化镁为原料,在室温下,通过机械化学法及高温热处理合成二氧化鋯基超细粉,经过X射线粉末衍射,扫描电镜,透射电镜分析,表明产物粒径小,颗粒分散性好。
补充资料:容量分析法(见化学分析法)
容量分析法(见化学分析法)
容t分析法见化学分析法
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