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钛基梯度功能涂层磨损和腐蚀行为研究
引用本文:胡芳友,崔爱永,回丽,彭欣. 钛基梯度功能涂层磨损和腐蚀行为研究[J]. 功能材料, 2012, 43(1): 36-38,41
作者姓名:胡芳友  崔爱永  回丽  彭欣
作者单位:1. 海军航空工程学院青岛分院,山东青岛,266041
2. 沈阳航空航天大学,辽宁沈阳,110034
3. 中国海洋大学化学化工学院,山东青岛,266100
基金项目:国家博士后科学基金资助项目
摘    要:为开发在超高温、大温差条件下具有热应力缓和功能的新型耐磨耐蚀涂层,在钛合金表面Nd∶YAG激光制备了梯度功能涂层,SEM观察了微观组织结构,XRD分析相组成并测定了摩擦磨损和耐腐蚀性能。结果表明原位自反应生成的TiC球状增强体弥散均匀分布在FGL中,微观组织为粗大和不完整的树枝晶、相对较细小的等轴和近等轴晶及细小短纤维状形态。FGL和N-FGM耐磨、耐蚀性能优异;摩擦系数和磨损率显著降低,其平均值是Ti600基体的0.3~0.5倍;腐蚀电流和电阻值分别为Ti600的0.72和1.31倍。

关 键 词:钛基梯度功能  微观组织  相分析  摩擦磨损  腐蚀

Wear and corrosion behavior of Ti-matrix functional gradient layer
HU Fang-you,CUI Ai-yong,HUI Li,PENG Xin. Wear and corrosion behavior of Ti-matrix functional gradient layer[J]. Journal of Functional Materials, 2012, 43(1): 36-38,41
Authors:HU Fang-you  CUI Ai-yong  HUI Li  PENG Xin
Affiliation:1.Qingdao Branch,Naval Aeronautical Engineering College,Qingdao 266041,China; 2.Shenyang Aeronautical Engineering University,Shenyang 110034,China; 3.Chemistry and Chemical Engineering College,Ocean University of China,Qingdao 266100,China)
Abstract:To improve the wear and corrosion resistance of Ti600,and alleviate thermal stress as well under hyperthermal and excessive temperature difference condition,the experiments of Ti-matrix FGL on Ti600 substrate by pulsed Nd∶YAG had been carried out.The microstructures and phase composition of the FGL were investigated.The friction wear and corrosion properties of the FGL,N-FGM and Ti600 substrate were examined.It was found that a rapidly solidified microstructure consisting of in situ synthesized TiC reinforced phase distributed on FGL substance evenly and dispersely in the form of globular grains had three main different shapes:bulky or imperfect arborescent crystal,fine or approximately equiaxial crystal and chopped fibriform crystal.The wear and corrosion resistance of the FGL was improved.Friction coefficient and wear rate decreased significantly,the value was 0.3-0.5 times of Ti600 substrate.Corrosion current and resistance were 0.72 and 1.31 times of Ti600 substrate separately.
Keywords:Ti-matrix functional gradient  microstructure  phase analysis  frictional wear  corrosion
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