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异步轧制工业纯钛的组织与力学性能 被引量:3

Microstructures and Mechanical Properties of Commercially Pure Ti Processed by Asymmetric Rolling
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摘要 采用异步轧制方式在室温下轧制TA1工业纯钛,获得平均晶粒尺寸小于300 nm的超细晶组织,显著提升了材料的强度,并探讨了超细晶的形成和强化机制。经轧下量为87%的异步轧制后,材料内部形成均匀分布的狭长剪切带,组织中主要为等轴超细晶,亦存在少量拉长晶粒和小角度晶界;材料的显微硬度比原始热轧态提高了60%,抗拉强度提高至740 MPa以上。 Commercially pure Ti (TAI) was asymmetrically rolled at room temperature. Ultrafinegrained Ti with grain size smaller than 300 nm was obtained and its strength was remarkably improved. The formation and strengthening mechanisms of the uhrafine grains were discussed. After asymmetric rolling with 87% reduction, narrow shear bands distributed uniformly in the materials. The roiled materials were mainly consisted of equiaxed uhrafine grains, and a small amount of elongated grains and small-angle grain boundaries were existed. The microhardness of the asymmetrically rolled Ti was enhanced about 60% and the ultimate tensile strength was above 740 MPa.
作者 李志明 蒋建华 单爱党
机构地区 上海交通大学材料科学与工程学院
出处 《上海有色金属》 CAS 2011年第4期151-155,共5页 Shanghai Nonferrous Metals
关键词 异步轧制 超细晶 组织 力学性能 Titanium asymmetric rolling ultra-fine grain microstructure mechanical property
分类号 TG339 [金属学及工艺—金属压力加工]
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参考文献10

  • 1Sabirov I, Perez-Prado M T, Molina-Aldareguia J M, et al. Anisotropy of Mechanical Properties in High-strength Ultrafine-gained Pure Ti Processed via a Complex Severe Plastic Deformation Route [ J ]. Scripta Materialia, 2011,64 ( 1 ) :69-72.
  • 2Pachla W, Kulczyk M, Sus-RYszkowska M, et al. Nanocrystalline Titanium Produced by Hydrostatic Extrusion [ J ]. Journal of Materials Processing Technology, 2008,205 ( 1-3 ) : 173-182.
  • 3Popov A A, Pyshmintsev I Y, Demakov S L, et al. Structural and Mechanical Properties of Nanocrystalleve Titanium Processed by Severe Plastic Deformation [ J ]. Scripta Materialia, 1997,37(7) :1089-1094.
  • 4Raab G I, Soshnikova E P, Valiev R Z. Influence of Temperature and Hydrostatic Pressure during Equal-channel Angular Pressing on the Microstructure of Commercial-purity Ti [J], Materials Science and Engineering A, 2004,387-389; 674-677.
  • 5Ko Y G, Shin D H, Park K-T, et al. An Analysis of the Strain Hardening Behavior of Ultra-fine Grain Pure Titanium [ J ]. Scripta Materialia, 2006,54 (10) : 1785-1789.
  • 6Stolyarov V V, Zhu Y T, Lowe T C, et al. A Two Step SPD Processing of Uhrafine-grained Titanium [ J ]. Nanostructured Materials, 1999,11 (7) :947-954.
  • 7Hallab N J, Vermes C, Messina C, et al. Concentration-and Composition-dependent Effects of Metal Ions on Human MG-63 Osteoblasts [ J ]. Journal of Biomedical Materials Research, 2002,60(3) :420-433,.
  • 8Lincks J, Boyan B D, Blanchard C R, et al. Response of MG63 Ostenblast-like Cells to Titanium and Titanium Alloy is Dependent on Surface Roughness and Composition [ J ]. Biomaterials, 1998,19(23) :2219-2232.
  • 9Park J-W, Kim Y-J, Park C H, et al. Enhanced Osteoblast Response to an Equal Channel Angular Pressing-processed Pure Titanium Substrate with Microrough Surface Topography [ J ]. Acta Biomaterialia, 2009,5 ( 8 ) :3272-3280.
  • 10蒋建华,丁毅,单爱党.冷轧工业纯钛的微观组织及力学性能[J].中国有色金属学报,2010,20(B10):58-61. 被引量:11

二级参考文献12

  • 1JIA D, WANG Y M, RAMESH K T, MA E, ZHU Y T, VALIEV R Z. Deformation behavior and plastic instabilities of ultrafine-grained titanium[J]. Applied Physics Letters, 2001, 79: 611-613.
  • 2STOLYAROV V V, ZHU Y T, ALEXANDORV I V, LOWE T C, VALIEV R Z. Influence of ECAP routes on the microstructure and properties of pure Ti[J]. Materials Science and Engineering A, 2001, 299: 59-67.
  • 3SERGUEEVA A V, STOLYAROV V V, VALIEV R Z, MUKHERJEE A K. Advanced mechanical properties of pure titanium with ultrafine grained structure[J]. Scripta Materialia, 2001,45: 747-752.
  • 4STOLYAROV V V, ZHU Y T, RAAB G I, ZHARIKOV A I, VALIEV R Z. Effect of initial microstructure on the microstructural evolution and mechanical properties of Ti during cold rolling[J]. Materials Science and Engineering A, 2004, 385: 309-313.
  • 5STOLYAROV V V, PROKOFIEV E A, VALIEV R Z, LOWE T C, ZHU Y T. Structure and properties of Ti alloys processed by ECAP[C]//ZHU Y T, VARYUKHIN V. Nanostructured Materials by High-Pressure Severe Plastic Deformation. Netherland: Springer, 2006.
  • 6ZHAO X C, FU W J, YANG X R, LANGDON T G. Microstructure and properties of pure titanium processed by equal-channel angular pressing at room temperature[J]. Scripta Materialia, 2008, 59: 542-545.
  • 7CHEN Y J, LI Y J, WALMSLEY J C, DUMOULIN S, ROVEN H J. Deformation structures of pure titanium during shear deformation[J]. Metallurgical and Materials Transactions A, 2010, 41: 787-794.
  • 8CUI Q, OHORI K. Grain refinement of high purity aluminum by asymmetric rolling[J]. Materials Science and Technology, 2000, 16: 1095-1101.
  • 9J1N H, LLOYD D J. The tensile response of a fine-grained AA5754 alloy produced by asymmetric rolling and annealing[J]. Metallurgical and Materials Transactions A, 2004, 35: 997-1006.
  • 10KIM W J, YOO S J, LEE J B. properties of pure Ti processed rolling at room temperature[J] 451-454. Microstructure and mechanical by high-ratio differential speed Scripta Materialia, 2010, 62:.

共引文献10

同被引文献15

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二级引证文献4

上海有色金属
2011年 第4期

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