CAJ | 학술논문

采用激光熔化沉积方法制备出Rene95镍基高温合金薄壁样, 分析了沉积态的凝固组织, 并进行了热处理和力学性能测试. 研究表明, 激光熔化沉积Rene95镍基合金的凝固组织为外延生长的定向凝固组织, 其一次枝晶间距在20 μm左右, 二次枝晶臂细小甚至退化, 元素偏析较轻; 通过适当的热处理后, 合金中γ′沉淀相的体积分数明显增加, 合金的显微硬度由沉积态的HV_(0.1) 500提高到HV_(0.1) 540; 经过热处理后, 激光熔化沉积Rene95合金的室温抗拉强度为1247 MPa, 较粉末冶金C级水平略低, 而沿沉积高度方向的延伸率为16.2%, 高于粉末冶金A级水平.
채용격광용화침적방법제비출Rene95얼기고온합금박벽양, 분석료침적태적응고조직, 병진행료열처리화역학성능측시. 연구표명, 격광용화침적Rene95얼기합금적응고조직위외연생장적정향응고조직, 기일차지정간거재20 μm좌우, 이차지정비세소심지퇴화, 원소편석교경; 통과괄당적열처리후, 합금중γ′침정상적체적분수명현증가, 합금적현미경도유침적태적HV_(0.1) 500제고도HV_(0.1) 540; 경과열처리후, 격광용화침적Rene95합금적실온항랍강도위1247 MPa, 교분말야금C급수평략저, 이연침적고도방향적연신솔위16.2%, 고우분말야금A급수평.
Thin wall samples from Rene95 nickel based superalloy were prepared by laser direct deposition. The solidification microstructure, heat treatment process and the mechanical properties of the deposited materials were analyzed and tested. The results indicated that the as-deposited microstructure was directionally solidified dendrites. The primary dendrite arm space was about 20 μm and the secondary dendrite arm was smaller or somewhat degenerated. There was little composition segregation within the deposited materials. After proper heat treatment, the volume fraction of γ′ precipitates increased and micro-hardness increased from HV_(0.1) 500 to HV_(0.1) 540. The room temperature tensile strength of the as-deposited Rene95 superalloy was 1247 MPa, which was lower than that of powder metallurgy for level C, while the ductility along the deposition direction was 16.2%,which was much higher than that of powder metallurgy for level A.