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Production of Ultra-Fine Grains and Evolution of Grain Boundaries During Severe Plastic Deformation of Aluminum and its Alloys

机译：铝及其合金严重塑性变形过程中超细晶粒的产生及晶界演变

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Equal channel-angular pressing (ECAP) is a recently developed method for deformation processing of material that can produce an ultra-fine grain structure in bulk material through severe plastic deformation. This study will present results on micro structural evolution during repetitive ECAP of pure aluminum. The principal method of data collection was Orientation Imaging Microscopy (OIM). The results of the study indicate that, after one ECAP pass, the structure is inhomogeneous and anisotropic, and consists mostly of deformation-induced features. After repetitive ECAP, the aluminum material exhibited a homogeneous grain size but retained an anisotropic character to the microstructure. After twelve ECAP passes the microstructure consisted mainly of fine grains surrounded by high-angle boundaries but an appreciable fraction of low-angle boundaries remained. This microstructure thus comprises a mixture of deformation-induced and recrystallization features. Further results were also obtained documenting the existence of deformation banding in this material as well as in a rolled aluminum alloy. This phenomenon may be general in nature and associated with severe plastic deformation in aluminum and its alloys.

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Swisher, D. L.;
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年度 2000
页码 1-82
总页数 82
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Plastic deformation; Aluminum alloys; Structural properties; Alloys; Anisotropy; Grain structures(Metallurgy); Grain boundaries; Ultrafines; Microstructure; Materials; Processing; Deformation; Orientation(Direction); Bulk materials; Microscopy; Boundaries; Purity; Images; Evolution(General); Data acquisition; Recrystallization; Homogeneity; High angles;

机译：塑性变形;铝合金;结构性能;合金;各向异性;晶粒结构（冶金）;晶界;超细;微观结构;材料;加工;变形;取向（方向）;块状材料;显微镜;边界;纯度;图像;演变（一般）;数据采集;再结晶;均匀性;高角度;

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专利

1. Accumulative fold-forging (AFF) as a novel severe plastic deformation process to fabricate a high strength ultra-fine grained layered aluminum alloy structure [J] . Khodabakhshi F., Gerlich A. P. Materials Characterization . 2018,第期

机译：累积折叠锻造（AFF）作为一种新型的严格塑性变形方法，用于制造高强度超细颗粒层状铝合金结构
2. Grain Boundary Sliding in a Superplastic Zinc-Aluminum Alloy Processed Using Severe Plastic Deformation [J] . Megumi Kawasaki, Terence G. Langdon Materials transactions . 2008,第1期

机译：使用严重塑性变形处理的超塑性锌铝合金中的晶界滑动
3. Evolution of the Microstructure and Mechanisms of Formation of New Grains upon Severe Plastic Deformation of the 2219 Aluminum Alloy [J] . O. Sh. Sitdikov, R. O. Kaybyshev, I. M. Safarov The Physics of Metals and Metallography . 2001,第3期

机译：2219铝合金严重塑性变形后新晶粒组织和形成机理的演变
4. Investigations on Microstructure Evolution and Deformation Behavior of Aged and Ultrafine Grained Al-Zn-Mg Alloy Subjected to Severe Plastic Deformation [C] . Weiping Hu, Siyuan Zhang, Xiaoyu He, Nanomaterials by severe plastic deformation . 2011

机译：严重塑性变形下时效和超细晶Al-Zn-Mg合金的组织演变和变形行为研究
5. Microstructural evolution in ultra-fine grained copper processed by severe plastic deformation. [D] . Mishra, Anuj. 2007

机译：严重塑性变形处理后的超细晶粒铜的微观组织演变。
6. Cyclic Deformation of Ultra-Fine Grained Commercial Purity Aluminum Processed by Accumulative Roll-Bonding [O] . Charles C.F. Kwan, Zhirui Wang 2013

机译：累积辊压加工超细晶粒商业纯铝的循环变形
7. Production of ultra-fine grains and evolution of grain boundaries during severe plastic deformation of aluminum and its alloys [O] . Swisher Douglas Lee 2000

机译：铝及其合金严重塑性变形过程中超细晶粒的产生和晶界的演变

Production of Ultra-Fine Grains and Evolution of Grain Boundaries During Severe Plastic Deformation of Aluminum and its Alloys

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