%0 Journal Article
%T 渗硼温度对Inconel 625的微观组织及磨损性能的研究<br>Effect of Boronizing Temperature on Microstructure and Wear Properties of Inconel 625
%A 王宇祺
%A 詹嘉妮
%A 陈聪聪
%A 周依
%J Advances in Material Chemistry
%P 122-132
%@ 2331-0146
%D 2025
%I Hans Publishing
%R 10.12677/amc.2025.132014
%X 研究了不同的渗硼温度(850&#8451;~980&#8451;)对Inconel 625镍基合金进行渗硼处理。研究表明&#65292;随着渗硼温度的增加&#65292;渗硼层的厚度会不断增加&#65307;当渗硼温度达到980&#8451;时&#65292;渗层出现裂缝和孔洞&#65307;渗硼层主要由Ni<sub>3</sub>B和Cr<sub>2</sub>B等硬质相硼化物组成&#65307;在950&#8451;时&#65292;合金的表面硬度达到1279.8 HV<sub>0.1</sub>的峰值&#65292;相较于基体263.4 HV<sub>0.1</sub>得到显著提升&#65307;渗硼处理后试样表面摩擦因数和截面磨痕面积显著减小&#65307;渗硼层厚度的平方与时间呈线性关系&#65292;B原子在Inconel 625渗层中的扩散激活能为227 KJ/mol<sup>&#8722;</sup><sup>1</sup>。<br>The boronizing treatment of Inconel 625 nickel-based alloy at different boronizing temperatures (850&#730;C~980&#730;C) was studied. The results show that the thickness of boronizing layer increases with the increase of boronizing temperature. When the boriding temperature reaches 980&#730;C, cracks and voids appear in the boriding layer. The boriding layer is mainly composed of hard phase borides such as Ni<sub>3</sub>B and Cr<sub>2</sub>B. At 950&#730;C, the surface hardness of the alloy reaches a peak of 1279.8 HV<sub>0.1</sub>, which is significantly improved compared with the matrix of 263.4 HV<sub>0.1</sub>; after boronizing treatment, the surface friction coefficient and cross-sectional wear scar area of the sample are significantly reduced. The square of the thickness of boronizing layer is linear with time, and the diffusion activation energy of B atom in Inconel 625 boronizing layer is 227 KJ/mol<sup>&#8722;</sup><sup>1</sup>.
%K 镍基合金Inconel 625&#65292
%K 固体渗硼&#65292
%K 耐磨性&#65292
%K 动力学<br>Nickel-Based Alloy Inconel 625
%K Solid Boronizing
%K Wear Resistance
%K Kinetics
%U http://www.hanspub.org/journal/PaperInformation.aspx?PaperID=110950