1) Al-Al_3Ti composite
Al-Al_3Ti复合材科
2) Al_3Ti/Al composite
Al_3Ti/Al复合材料
4) Al SiC w/Al composites
Al-SiC_w/Al复合材料
5) 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。
6) 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。
补充资料:TC4(Ti6Al4V)焊接组织
TC4(Ti6Al4V)焊接组织
719
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