期刊文献+
共找到2篇文章
< 1 >
每页显示 20 50 100
Wear Properties of Ni_(3)Al-Ni_(3)V-Zr-Ni_(5)Zr Alloys under Different Atmospheres
1
作者 WU Shang-a-meng WANG Zhensheng 《Wuhan University Journal of Natural Sciences》 CAS CSCD 2024年第5期484-494,共11页
The study examines the friction and wear properties of Ni_(3)Al-Ni_(3)V-Zr-Ni_(5)Zr alloys under varying gas conditions.The alloy was tested in the presence of oxygen and carbon dioxide using a controlled atmosphere w... The study examines the friction and wear properties of Ni_(3)Al-Ni_(3)V-Zr-Ni_(5)Zr alloys under varying gas conditions.The alloy was tested in the presence of oxygen and carbon dioxide using a controlled atmosphere wear tester.The study revealed that the wear environ‐mental embrittlement resulted from the diffusion of reactive atomic hydrogen into the interior of the Ni_(3)Al-Ni_(3)V alloy.The addition of Zr elements decreased the proportion of Al elements on the surface of the Ni_(3)Al-Ni_(3)V-Zr-Ni_(5)Zr alloy and reduced the proportion of H atoms produced by the chemical reaction between atmospheric water vapour and Al elements.This inhibited the environmental embrittlement and improved the performance of the Ni_(3)Al-Ni_(3)V-Zr-Ni_(5)Zr alloy.The wear performance of Ni_(5)Zr alloy is superior to that of Ni_(3)Al-Ni_(3)V.When exposed to air in an air environment,the surface of Ni_(3)Al-Ni_(3)V-Zr-Ni_(5)Zr alloy forms a protective Al_(2)O_(3) oxide film on the workpiece,result‐ing in a reduction of the friction coefficient and wear rate of the alloy.The wear mechanism of the alloy is mainly oxidation wear and abra‐sive wear.In an oxygen environment,the surface of the alloy generates a significant amount of Al_(2)O_(3) oxide film.The flaking of the oxide film leads to an increase in the friction coefficient and wear rate of the alloy.In a carbon dioxide environment,the surface of the alloy un‐dergoes severe deformation,and plough lines become apparent.This is accompanied by flaking Si_(3)N_(4) abrasive chips adhering to the sur‐face of the alloy,which intensifies the wear of the alloy.The primary wear mechanism is abrasive wear.Therefore,the friction coefficient and wear rate of the Ni_(3)Al-Ni_(3)V-Zr-Ni_(5)Zr alloy in the atmosphere are optimal. 展开更多
关键词 metallic materials ni_(3)al-ni_(3)v-zr-ni_(5)zr alloys environmental embrittlement nickel-based alloys frictional wear
原文传递
Ni_(3)Al-Ni_(3)V合金和Ni_(3)Al-Ni_(3)V(Zr)合金的微观组织与磨损特性
2
作者 王振生 李海星 +2 位作者 易轶杰 谢威 宋力 《材料热处理学报》 CAS CSCD 北大核心 2022年第5期79-87,共9页
利用扫描电镜(SEM)、X射线衍射(XRD)、透射电镜(TEM)、磨损实验和力学和能量学计算等研究了Ni_(3)Al-Ni_(3)V合金和Ni_(3)Al-Ni_(3)V(Zr)合金的微观组织和磨损机理。结果表明:Ni_(3)Al-Ni_(3)V合金的组织主要由Ni_(3)Al相和Ni_(3)Al+Ni_... 利用扫描电镜(SEM)、X射线衍射(XRD)、透射电镜(TEM)、磨损实验和力学和能量学计算等研究了Ni_(3)Al-Ni_(3)V合金和Ni_(3)Al-Ni_(3)V(Zr)合金的微观组织和磨损机理。结果表明:Ni_(3)Al-Ni_(3)V合金的组织主要由Ni_(3)Al相和Ni_(3)Al+Ni_(3)V相构成,裂纹在合金磨损表面萌生,扩展方向与表面约呈18°;力学计算表明,Ni_(3)Al-Ni_(3)V合金的摩擦接触表面呈塑性接触状态,裂纹应力强度因子小于合金断裂韧性,接触应力不会导致裂纹产生;能量学计算表明,空气中的水汽与Ni_(3)Al-Ni_(3)V合金中的Ni_(3)Al相反应生成H,导致合金发生磨损环境致脆。Ni_(3)Al-Ni_(3)V(Zr)合金的组织主要由Ni_(3)Al相、Ni_(3)Al+Ni_(3)V相以及晶界处的富Zr相和Ni_(3)Zr相构成,Zr固溶在Ni_(3)Al相和Ni_(3)Al+Ni_(3)V相中;Zr抑制了Ni_(3)Al-Ni_(3)V(Zr)合金的环境脆性,合金的磨损机制为磨粒磨损和黏着磨损,磨损性能优于Ni_(3)Al-Ni_(3)V合金;Ni_(3)Al-Ni_(3)V(Zr)合金经不同工艺热处理后,可以得到具有纳米或微米尺度的Ni_(3)Al相,其中,具有纳米尺度的Ni_(3)Al相的合金的硬度高,磨损性能良好。 展开更多
关键词 ni_(3)al-ni_(3)V合金 ni_(3)al-ni_(3)V(zr)合金 磨粒磨损 环境致脆 黏着磨损
下载PDF
上一页 1 下一页 到第
使用帮助 返回顶部