1) Diamond/Al composites
Diamond/Al复合材料
1.
Diamond/Al composites fabricated by spark plasma sintering;
放电等离子烧结制备Diamond/Al复合材料
2) Al/Diamond composites
Al/Diamond复合材料
1.
Al/Diamond composites were fabricated by Spark Plasma Sintering(SPS) under Solid-phase sintering,changes of interfacial bonding during sintering process were investigated mainly.
使用放电等离子烧结(SPS)固相烧结条件下制备Al/Diamond复合材料,重点研究烧结过程中基体与增强体两相界面结合状态随烧结时间的变化规律。
3) Al SiC w/Al composites
Al-SiC_w/Al复合材料
4) B4C/Al composites
B4C/Al复合材料
1.
The phase composition of B4C/Al composites fabricated by pressureless infiltration was analyzed,and th.
分析了无压浸渗法所制备B4C/Al复合材料的相组成,并测试了其力学性能。
5) SiCp/Al MMCs
SiCp/Al基复合材料
1.
In order to analyze the weldability of SiC particle reinforced aluminum metal matrix composites(SiCp/Al MMCs),plasma arc in-situ welding of SiCp/Al MMCs was carried out using argon-nitrogen mixture as plasma gas with Ti-Mg mixed powder as in-situ material.
为分析SiCp/Al基复合材料的焊接性,以Ti-Mg混合粉末作为填充材料,采用氮氩混合等离子气体对SiCp/Al基复合材料进行等离子弧原位焊接。
2.
Plasma arc "in-situ" welding of SiCp/Al MMCs were carried out using argon-nitrogen mixture as plasma gases with Ti-Ni alloying as "in-situ" material.
以Ti-Ni合金作为填加材料,采用氮氩混合等离子气对SiCp/Al基复合材料进行等离子弧原位焊接。
3.
In this paper,SiCp/Al MMCs were selected as research objects,and process and mechanism of SiCp/6061Al MMCs by plasma arc welding(Ar and N2 as ionized gas, Ar as fielded gas) were systematically studied.
研究表明填加Al-Si-Ti-Ni合金对SiCp/Al基复合材料进行等离子弧原位焊接,填加材料中Ti含量为5%时,可以有效抑制有害相Al_4C_3的生成,得到的焊缝组织较为致密,没有气孔、微观裂纹等缺陷,接头强度较之不加填充材料时有较大提高,达到226MPa,提高了接头的力学性能。
6) SiC_P/Al composites
SiC_P/Al复合材料
1.
Study of electroless Ni plating with palladium-free activation on the surface of SiC_p/Al composites;
SiC_p/Al复合材料表面无钯活化化学镀镍的研究
2.
A simple model was introduced for describing the effect of porosity on the thermal conductivity of spark plasma sintered(SPS) consolidated SiC_p/Al composites in terms of an effective medium approximation(EMA) scheme.
本文基于有效介质近似原理(EMA)提出一简易模型(MEMA),用于描述孔隙对放电等离子烧结(SPS)SiC_p/Al复合材料热导率的影响规律。
补充资料:diamond C
分子式:
CAS号:
性质:晶态单质碳的一种变体。是石墨、富勒烯碳的同素异形体。天然出产的矿物呈无色、淡黄色、天蓝色、蓝色、紫色、红色。有强烈的金刚光泽等轴晶系。常成八面体。熔点4000℃(6.3MPa)。密度3.51g/cm3。折射率高。对光的透明度好。莫氏硬度为10。是自然界硬度最大的物质。不导电。惰性。在隔绝空气加热到1000℃时,转变为石墨。在空气中加热到780℃左右会燃烧生成二氧化碳。工业用人造金刚石是用过渡金属化合物作催化剂在1600~1800℃、(5~6)×103MPa下使石墨转变而成。透明金刚石(多为天然产物)可作宝石(钻石)。黑色和不透明的金刚石在工业上用作钻头和切割工具。金刚粉是优良的磨料。
CAS号:
性质:晶态单质碳的一种变体。是石墨、富勒烯碳的同素异形体。天然出产的矿物呈无色、淡黄色、天蓝色、蓝色、紫色、红色。有强烈的金刚光泽等轴晶系。常成八面体。熔点4000℃(6.3MPa)。密度3.51g/cm3。折射率高。对光的透明度好。莫氏硬度为10。是自然界硬度最大的物质。不导电。惰性。在隔绝空气加热到1000℃时,转变为石墨。在空气中加热到780℃左右会燃烧生成二氧化碳。工业用人造金刚石是用过渡金属化合物作催化剂在1600~1800℃、(5~6)×103MPa下使石墨转变而成。透明金刚石(多为天然产物)可作宝石(钻石)。黑色和不透明的金刚石在工业上用作钻头和切割工具。金刚粉是优良的磨料。
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参考词条