Jie Chen , Chengchi Wang , Jianjun Ling , Pengfei Wang , Jingge Li , Haizhou Jin , Yu Cao
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引用次数: 0
摘要
利用激光热处理工艺制造了两种典型的组合异质结构钴铬铁镍高熵合金,它们具有优异的机械性能,避免了强度-电导率之间的权衡。由于在激光扫描前进行了短时间的低温退火(873 K 5 分钟),因此很难观察到具有相对较高显微硬度的片状晶粒结构。异质变形诱导强化,以及底部硬质区域优异的变形能力可增强纳米孪晶-位错之间的相互作用,并保持软硬层之间较大的显微硬度差,是提高 CoCrFeMnNi 高熵合金屈服强度的主要因素。此外,无片状变形带的组合异质结构具有相对更好的均匀伸长率,这归因于底部硬质区域的非再结晶晶粒具有更强的变形能力,并有效延迟了裂纹的生长。因此,无薄片的组合异质结构是一种同时提高强度和延展性的有效方法,可通过激光表面热处理技术高效制备。
Strength-ductility mechanism of combined heterostructured CoCrFeMnNi high-entropy alloy prepared by laser heat-treatment process
Two types of typical combined heterostructured CoCrFeMnNi high-entropy alloys with superior mechanical properties that evade the strength-ductility trade-off are fabricated using laser heat-treatment process. The lamellar grain structure with relatively high microhardness can hardly be observed due to the short time annealing at low temperature (873 K for 5 min) before laser scanning. The hetero-deformation induced strengthening, as well as the excellent deformation ability of the bottom hard region which can enhance the interaction between nanotwin-dislocation and maintains the large microhardness difference among the soft-hard layers, are the main factors that improve the yield strength of CoCrFeMnNi high-entropy alloy. Moreover, the combined heterostructured structure without lamellar deformed bands is demonstrated to have a relatively better uniform elongation, which is attributed to the stronger deformation ability of the non-recrystallized grains in the bottom hard region and the effective delay of the crack growth. Consequently, the combined heterostructured structure without lamellae is a promising way to simultaneously improve the strength and ductility, which can be efficiently prepared by the laser surface heat-treatment technique.
期刊介绍:
This journal is a platform for publishing innovative research and overviews for advancing our understanding of the structure, property, and functionality of complex metallic alloys, including intermetallics, metallic glasses, and high entropy alloys.
The journal reports the science and engineering of metallic materials in the following aspects:
Theories and experiments which address the relationship between property and structure in all length scales.
Physical modeling and numerical simulations which provide a comprehensive understanding of experimental observations.
Stimulated methodologies to characterize the structure and chemistry of materials that correlate the properties.
Technological applications resulting from the understanding of property-structure relationship in materials.
Novel and cutting-edge results warranting rapid communication.
The journal also publishes special issues on selected topics and overviews by invitation only.
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