摘要
为提高涡轮叶片榫头的疲劳性能,研究了喷丸对DD412单晶合金表面完整性和高温疲劳性能的影响规律。采用白光干涉仪、粗糙度仪、显微硬度计、扫描电镜、透射电镜等分别对喷丸前后的表面形貌、粗糙度、硬度梯度、微观组织进行表征,并采用旋弯疲劳试验机测试高温疲劳寿命和极限。结果表明:喷丸后,表面磨削刀痕被消除,显著降低表面微观应力集中系数;试样表层组织发生剧烈塑性变形,并形成深度约0.10~0.32 mm的硬化层。相比未喷丸试样,优化工艺喷丸试样在600℃/500 MPa条件下的旋弯中值疲劳寿命提高21.7倍以上,在600℃下的中值疲劳极限提高了17.3%。经分析认为,喷丸对表面完整性的优化是DD412合金高温疲劳性能提升的主要原因。
To improve the fatigue performance of turbine blade tenon,the effect of shot peening on the surface integrity and high temperature fatigue performance of DD412 single crystal alloy was investigated.The surface morphology,roughness,hardness gradient and microstructure after shot peening were characterized by white light interferometer,roughness tester,microhardness tester,scanning electron microscope and transmission electron microscope respectively.The results show that after shot peening,the surface grinding tool marks are eliminated,and the surface micro stress concentration factor is significantly reduced.Severe plastic deformation occurr in the surface layer of the specimen,and a hardened layer with a depth of about 0.10-0.32 mm is formed.The mean fatigue life of the optimal shot peening specimens at 600℃/500 MPa is increased by more than 21.7 times,and the median fatigue limit at 600℃is increased by 17.3%.The favorable change of surface integrity is the main reason for the improvement of high temperature fatigue properties of DD412 alloy after shot peening.
作者
王琨
罗学昆
宋尽霞
周春根
田凯
王一鸣
王欣
WANG Kun;LUO Xuekun;SONG Jinxia;ZHOU Chungen;TIAN Kai;WANG Yiming;WANG Xin(Surface Engineering Institution,AECC Beijing Institute of Aeronautical Materials,Beijing 100095,China;Aviation Key Laboratory of Advanced Corrosion and Protection on Aviation Materials,AECC Beijing Institute of Aeronautical Materials,Beijing 100095,China;National Key Lab of Advanced High TemperatureStructural Materials,AECC Beijing Institute of Aeronautical Materials,Beijing 100095,China;School of Materials Science and Engineering,Beihang University,Beijing 100191,China)
出处
《材料工程》
EI
CAS
CSCD
北大核心
2024年第7期152-161,共10页
Journal of Materials Engineering
基金
国家自然科学基金(52271076)
国家科技重大专项(Y2022-Ⅶ-0007-0094,J2019-Ⅳ-0009-0077,J2019-Ⅶ-0015-0155)。
关键词
喷丸
单晶合金
表面完整性
疲劳寿命
微观组织
硬度
shot peening
single crystal alloy
surface integrity
fatigue life
microstructure
hardness