激光冲击强化K403镍基高温合金表面纳米化(英文)  被引量:5

Nanocrystallization of Ni-based superalloy K403 by laser shock peening

在线阅读下载全文

作  者:安志斌[1] 沈晓骏 高山[1] 姚晨光[3] 汪诚[1] 

机构地区:[1]空军工程大学等离子体动力学实验室,陕西西安710038 [2]切斯特大学科学与工程学院,英国切斯特CH14BJ [3]中华女子学院计算中心,北京100100

出  处:《红外与激光工程》2016年第9期242-247,共6页Infrared and Laser Engineering

基  金:国家自然科学基金青年项目(51405507)

摘  要:针对K403镍基高温合金铸造构建易发生裂纹、腐蚀、磨损的问题,采用激光冲击强化技术对K403薄片试件进行处理,使试件表面纳米化提高材料力学性能。利用X射线衍射、SEM扫描电镜、TEM透射电镜分析了材料表面纳米晶层的形成机理。实验结果表明:激光诱导的高压等离子体冲击波可以在样品表面上形成226 nm厚的纳米晶层;从SEM和TEM结果可以看出,激光冲击强化不会改变材料表面物相。在高冲击波压力下,K403试样表面组织产生了位错和纳米级晶粒细化。The surface of the K403's thin slice specimen uses laser shock processing technology in order to strengthen the surface on the nanocrystallization, located on the surface of the specimen, for the cast parts of the nickel-based superalloy K403, which produced cracks, corrosion, and wear. The formation mechanism of the nano-crystal layer on the surface was analyzed by these technologies using X-ray diffraction (XRD), scanning electron microscopy (SEM), and transmission electron microscopy (TEM). The results showed that a nanocrystalline layer of 226 nanometers thick could be prepared by laser- induced high-pressure plasma shock wave on the specimen's surface. The results of XRD and SEM showed that it will not change the phase structure by that laser shock processing the refined surface grain structure. Under the high pressure, the surface microstructure of K403 specimen generated a great number of dislocations and refinement grains into nanoscaie.

关 键 词:激光冲击强化 纳米化 透射电镜 位错 

分 类 号:TG17[金属学及工艺—金属表面处理]

 

参考文献:

正在载入数据...

 

二级参考文献:

正在载入数据...

 

耦合文献:

正在载入数据...

 

引证文献:

正在载入数据...

 

二级引证文献:

正在载入数据...

 

同被引文献:

正在载入数据...

 

相关期刊文献:

正在载入数据...

相关的主题
相关的作者对象
相关的机构对象