利用脉冲单电源和直流单电源,分别在Q235钢表面进行等离子钨钼共渗.通过对不同电源钨钼共渗试样的渗层组织、渗层成分分布、晶体结构、渗层硬度分布的检测和比较,分析了2种电源对等离子钨钼共渗的影响.结果表明,利用单一电源均可在Q235钢表面形成明显反应扩散层;在相同工艺下,采用脉冲电源所得到的试样渗层厚度较采用直流电源的渗层厚度增加了18.1%;脉冲电源试样表面W、Mo含量(质量分数,下同)分别约为8.4%和9.8%,直流电源试样表面W、Mo含量分别为8.2%和8.9%,可见2种电源渗层表面含W、Mo量相差不大;2种电源渗层相结构均为Fe_7W_6和Fe_3Mo金属间化合物相;钨钼共渗后渗层硬度提高不明显.
Q235 steel is subjected to single plasma W-Mo alloying process using the pulse power supply and the DC power supply respectively. Then the metallurgical structure, crystal structure and hardness distribution of alloying layers are tested. The effects of two different power sources on plasma W-Mo alloying process are analyzed. The results show that single glow discharge technique can realize surface alloying on metal material. The reaction diffusion layers form on the surface of Q235 steel Under the same conditions, compared with DC power supply the alloying layer of pulse power supply increased by 18.1% in thickness. When using pulse power source, the surface contents of W and Mo are 8. 4% and 9. 8% respectively. While using direct current supply the surface contents of W and Mo are 8. 2% and 8.9% respectively. It can be seen that contents of W and Mo using two power supply are almost the same. The phases of the two alloying layers are composed of Fe_7 W_6 and Fe_3 Mo intermetallics. W-Mo co-diffusing process makes little contribute to the micro-hardness increase of the alloying layer.
参考文献
[1] | Xu Zhong .Method and apparatus for introducing normally solid materials into substrate[P].US 45220268,1985. |
[2] | 高原,徐晋勇,高清,成均,徐重.双层辉光离子渗金属技术特点分析[J].热加工工艺,2006(06):56-59. |
[3] | 徐晋勇,刘燕萍,王建忠,隗小云,高原,徐重.Q235钢双层辉光等离子Mo-Cr共渗及其热处理工艺研究[J].材料热处理学报,2006(01):104-107. |
[4] | 刘小平;李忠厚;苏永安 et al.表面冶金高速钢及其应用[J].材料科学与工艺,1997,5(l):16. |
[5] | 徐晋勇,龙向前,刘燕萍,王建忠,隗小云,高原,徐重.双层辉光离子渗Cr合金层组织和性能[J].煤炭学报,2005(05):673-677. |
- 下载量()
- 访问量()
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%