1) high energy ball milling
高能球磨法
1.
The influence of polyvinyl chloride on α-Fe2O3 by high energy ball millingα-Fe2O3 / polyvinyl chloride system is investigated by using Mossbauer spectroscopy,and the nanometerα-Fe2O3 is found from the production.
运用高能球磨法研磨α-Fe2O3/聚氯乙烯混合材料,Mssbauer谱测量发现有超顺磁双峰叠加在原有的α-Fe2O3/六线峰之上,表明α-Fe2O3/加入聚氯乙烯一起球磨时,有纳米α-Fe2O3微粒形成。
2.
Iron/polystrene(Fe/PS) nano-structure compound is prepared using the technique of high energy ball milling.
用高能球磨法制备铁与聚苯乙烯纳米复合材料,对其组分采用穆斯堡尔谱和X衍射谱分析,结果表明复合材料中有Fe5C2和Fe2C生成,略有部分Fe氧化。
3.
SiC_p/6066Al composites were fabricated by the method of high energy ball milling and quick hot extrusion at low temperature.
采用高能球磨法混料和低温快速热挤压相结合的粉末冶金工艺制备了SiCp/6066Al复合材料,研究了制备工艺对增强体颗粒分布均匀性的影响。
2) high energy ball mill
高能球磨法
1.
In order to make the alloy steel powder which conform to our need,the technique of high energy ball mill is studied.
高能球磨法是制备超细粉体的一种重要方法,但对不同的材料,制备粉体所需的工艺区别较大。
2.
The copper/paraformaldehyde functure nanocomposite materials are made by high energy ball mill.
采用高能球磨法制备了铜/多聚甲醛纳米功能复合材料。
3.
The nanometer polymer-ferric oxide composite is prepared by high energy ball mill,whose average diameter is 10nm.
采用高能球磨法制备聚合物—氧化铁纳米复合材料,平均粒径为10nm,Mossbauer测量显示有超顺磁性。
3) high-energy ball milling
高能球磨法
1.
The chemically synthesized compound powder and the nano powder obtained by high-energy ball milling are two development trends of ZnO varistor c.
对粉体的制备方法和应用前景进行了展望,指出化学法合成复合粉体和高能球磨法制备纳米粉体是氧化锌压敏陶瓷粉体的两个主要发展趋势。
4) high energy ball milling
高能球磨
1.
Influence of process control agent in preparation of SiC/Al composite powder by high energy ball milling;
过程控制剂在高能球磨法制备SiC/Al复合粉末中的作用研究
2.
Influences of high energy ball milling on microstructure and properties of a new steel bonded titanium carbide;
高能球磨对新型TiC钢结硬质合金组织和性能影响的研究
3.
Effects of low temperature heat treatment and high energy ball milling on the preparation of ultrafine alumina;
低温热处理以及高能球磨对制备超细氧化铝的影响
5) High energy milling
高能球磨
1.
Cu-Al alloy powder was produced by high energy milling of Cu and Al, then mixed them together with Cu2O powder,Al2O3/Cu composite was prepared through oxidation and sintering synchronously under the protecting of N2.
采用高能球磨制备出亚稳态的Cu-1%Al(质量分数)合金粉,再将Cu2O粉与其一起进行高能球磨,然后将复合粉末压坯在N2保护炉中同时进行氧化和烧结,制备出Al2O3/Cu复合材料。
2.
A 15%SiC_p/2009Al composite was fabricated by high energy milling powder metallurgy (PM) technique.
采用高能球磨粉末冶金法制备了15%SiCp/2009Al复合材料,研究了球磨转速、球磨时间、加热抽真空工艺、热压成型以及热挤压比对复合材料力学性能的影响。
3.
The aluminum matrix composites reinforced with SiC particulates were fabricated by the high energy milling in conjunction with powder metallurgy.
采用高能球磨粉末冶金技术制备了SiCp/Al复合材料 ,研究分析了该材料界面结构特点。
6) high-energy milling
高能球磨
1.
Influence of high-energy milling on the structure and magnetic properties of atomized magnetic powder;
高能球磨对雾化磁粉结构与磁性能的影响
2.
Micro-nanometer ferric oxide powders were prepared by high-energy milling and then reduction with hydrogen at different temperature for different holding time.
采用高能球磨,制得不同粒度的超细氧化铁粉末,然后,分别在不同还原温度和还原时间下,进行氢气还原。
3.
This paper studed the process and kinetics of solid -state reduction by high-energy milling at room temperature.
采用机械还原的方法以 Si/V_2O_5为原料直接制备 VO_2/SiO_2复合陶瓷粉,主要探讨了高能球磨实现固相反应的动力学条件。
补充资料:磨法
磨法 磨法 推拿手法名。指摇法或摩法。名见该条。
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