在宏观尺度上制造出具有纳米结构和纳米效应的高性能金属材料,并揭示这些材料的组织演化特征以实现功能调控,是金属材料学科面临的重大科学问题和需要解决的核心关键技术.阐述金属纳米材料界面、尺度与材料塑变、强化关系的主要研究进展,重点介绍宏观尺寸制备金属纳米复合材料、纳米尺度下经典Hall-Petch关系和复合材料混合定律的适用性、界面特征和尺度效应对材料微观结构、力学性能以及物理特性等的影响,指出面向应用的高性能金属纳米复合材料的发展趋势.
参考文献
| [1] | Jason R. Trelewicz;Christopher A. Schuh .The Hall-Petch breakdown in nanocrystalline metals: A crossover to glass-like deformation[J].Acta materialia,2007(17):5948-5958. |
| [2] | Schiotz J;Jacobsen KW .A maximum in the strength of nanocrystalline copper[J].Science,2003(5638):1357-1359. |
| [3] | V. Yamakov;D. Wolf;S. R. Phillpot;A. K. Mukherjee;H. Gleiter .Deformation mechanism crossover and mechanical behaviour in nanocrystalline materials[J].Philosophical Magazine Letters,2003(6):385-393. |
| [4] | A. Mishra;B.K. Kad;F. Gregori .Microstructural evolution in copper subjected to severe plastic deformation: Experiments and analysis[J].Acta materialia,2007(26):13-28. |
| [5] | Segal VM. .MATERIALS PROCESSING BY SIMPLE SHEAR[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,1995(2):157-164. |
| [6] | VALIEV R Z;KRASILNIKOV N A;TSENEV N K .Plastic deformation of alloys with submicron-grained structure[J].Materials Science and Engineering A,1991,137:35-40. |
| [7] | VlSWANATHAN V;LAHA T;BALANI K;AGARWAL A SEAL S .Challenges and advances in nanocomposite processing teciniques[J].Martials Science and Engineering R,2006,54:121-285. |
| [8] | Saito Y.;Tsuji N.;Sakai T.;Utsunomiya H. .Novel ultra-high straining process for bulk materials - Development of the accumulative roll-bonding (ARB) process[J].Acta materialia,1999(2):579-583. |
| [9] | S. Ohsaki;S. Kato;N. Tsuji .Bulk mechanical alloying of Cu-Ag and Cu/Zr two-phase microstructures by accumulative roll-bonding process[J].Acta materialia,2007(8):2885-2895. |
| [10] | LU L;SUI M L;LU K .Supcrplastic extensibility of nanocrystalline copper at room temperature[J].Science,2000,287:1463-1466. |
| [11] | LU Lei;SHEN Yong-feng;CHEN Xian-hua;QIAN Li-hua LU Ke .Ultrahigh strength and high electrical conductivity in copper[J].Science,2004,304:422-426. |
| [12] | L. Lu;X. Chen;X. Huang;K. Lu .Revealing The Maximum Strength In Nanotwinned Copper[J].Science,2009(5914):607-610. |
| [13] | Strengthening Materials by Engineering Coherent Internal Boundaries at the Nanoscale[J].Science,2009(Apr.17 TN.5925):349. |
| [14] | LI Hong-qi;CHOO H;REN Yang;SALEH T A LIENERT U LIAW P K EBRAHIMI F .Strain-dependent deformation behavior in nanocrystalline metals[J].Physical Review Letters,2008,101:015502-015505. |
| [15] | A. Azushima;R. Kopp;A. Korhonen;D. Y. Yang;F. Micari;G. D. Lahoti;P. Groche;J. Yanagimoto;N. Tsuji;A. Rosochowski;A. Yanagida .Severe plastic deformation (SPD) processes for metals[J].CIRP Annals,2008(2):716-735. |
| [16] | WU X L;ZHU Y T .Inverse grain-size effect on twinning in nanocrystalline Ni[J].Physical Review Letters,2008,101:025503-025506. |
| [17] | Wu XL;Liao XZ;Srinivasan SG;Zhou F;Lavernia EJ;Valiev RZ;Zhu YT .New deformation twinning mechanism generates zero macroscopic strain in nanocrystalline metals[J].Physical review letters,2008(9):095701-1-095701-4-0. |
| [18] | Kevin Spencer;Florence Lecouturier;Ludovic Thilly;J. David Embury .Established and Emerging Materials for use as High-Field Magnet Conductors[J].Advanced Engineering Materials,2004(5):290-297. |
| [19] | V. Vidal;L. Thilly;F. Lecouturier .Effects of size and geometry on the plasticity of high-strength copper/ tantalum nanofilamentary conductors obtained by severe plastic deformation[J].Acta materialia,2006(4):1063-1075. |
| [20] | THILLY L;RENAULT P O;VIDAL V;LECOUTURIER F van PETEGEM S STUHR U van SWYGENHOVEN H .Plasticity of multiscale nanofilamentary Cu/Nb composite wires during in situ neutron diffraction:Codeformation and size effect[J].Applied Physics Letters,2006,88:2202720-2202722. |
| [21] | Pantsyrny V. I.;Shikov A. K.;Vorobieva V. E.;Khlebova N. E.;Kozlenkova N. I.;Drobishev V. A.;Potapenko I. I.;Beliakov N. A.;Polikarpova M. V. .High Strength, High Conductivity Microcomposite Cu-Nb Wires with Cross Sections in the Range of 0.01–100 <formula formulatype="inline"> <tex>${hbox{mm}}^{2}$</tex></formula>[J].IEEE Transactions on Applied Superconductivity: A Publication of the IEEE Superconductivity Committee,2008(2):616-619. |
| [22] | Stamopoulos D;Pissas M;Sandim MJR;Sandim HRZ .Proximity induced superconductivity in bulk Cu-Nb composites: The influence of interface's structural quality[J].Physica, C. Superconductivity and its applications,2006(1):45-54. |
| [23] | B.Z. Cui;Y. Xin;K. Han .Structure and transport properties of nanolaminate Cu-Nb composite foils by a simple fabrication route[J].Scripta materialia,2007(10):879-882. |
| [24] | Characteristics of High Strength and High Conductivity Cu-Nb Micro-Composites[J].IEEE Transactions on Applied Superconductivity: A Publication of the IEEE Superconductivity Committee,2010(3):1619. |
| [25] | FUNKENBUSCH P;COURTNEY T .On the strength of heavily cold worked in situ composites[J].Acta Metallurgica,1985,33:913-922. |
| [26] | VERHOEVENA J D;CHUMBLEYA L S;LAABSA F C;SPITZIG W A .Measurement of filament spacing in deformation processed Cu-Nb alloys[J].Acta Metallurgica,1991,39:2825-2834. |
| [27] | SPITZIG W A .Strengthening in heavily deformation processed Cu-20%Nb[J].Acta Metallurgica,1991,39:1085-1090. |
| [28] | SPITZIG W A;PELTON A R;LAABS F C .Characterization of the strength and microstructure of heavily cold worked Cu-Nb composites[J].Acta Metallurgica,1987,35:2427-2442. |
| [29] | WANG J;HOAGLAND R G;HIRTH J P;MISRA A .Atomistic modeling of the interaction of glide dislocations with "weak"interfaces[J].Acta Materialia,2008,56:5658-5693. |
| [30] | J. Wang;R.G. Hoagland;J.P. Hirth .Atomistic simulations of the shear strength and sliding mechanisms of copper-niobium interfaces[J].Acta materialia,2008(13):3109-3119. |
| [31] | DEMKOWICZ M J;HOAGLAND R G;HIRTH J P .Interface structure and radiation damage resistance in Cu-Nb muttilayer nanocomposites[J].Physical Review Letters,2008,100:136102-136105. |
| [32] | Hoagland RG.;Mitchell TE.;Hirth JP.;Kung H. .On the strengthening effects of interfaces in multilayer fcc metallic composites[J].Philosophical Magazine.A.Physics of condensed matter, defects and mechanical properties,2002(4):643-664. |
| [33] | S. Ohsaki;K. Yamazaki;K. Hono .Alloying of immiscible phases in wire-drawn Cu-Ag filamentary composites[J].Scripta materialia,2003(12):1569-1574. |
| [34] | H.R.Z. Sandim;M.J.R. Sandim;H.H. Bernardi .Annealing effects on the microstructure and texture of a multifilamentary Cu-Nb composite wire[J].Scripta materialia,2004(11):1099-1104. |
| [35] | SANDIM M J R;dos SANTOS C A M;SANDIM H R Z;GHIVELDER L .Influence of the filament morphology on the magnetic properties of a Cu-Nb composite[J].Physica C,2004,408/410:207-208. |
| [36] | D. Raabe;S. Ohsaki;K. Hono .Mechanical alloying and amorphization in Cu-Nb-Ag in situ composite wires studied by transmission electron microscopy and atom probe tomography[J].Acta materialia,2009(17):5254-5263. |
| [37] | GIL SEVILLANO J .Substructure and strengthening of heavily deformed single and two-phase metallic materials[J].Journal of Physics Ⅲ,1991,1:967-988. |
| [38] | A. Misra;J. P. Hirth;R. G. Hoagland .Length-scale-dependent deformation mechanisms in incoherent metallic multilayered composites[J].Acta materialia,2005(18):4817-4824. |
| [39] | EMBURY J D;HIRTH J P .On dislocation storage and the mechanical response of fine scale microstructures[J].Acta Metallurgica Et Materialia,1994,42(06):2051-2056. |
| [40] | EMBURY J D;SINCLAIR C W .The mechanical properties of fine-scale two-phase materials[J].Materials Science and Engineering A:Structural Materials Properties Microstructure and Processing,2001,319/321:37-45. |
| [41] | EMBURY J .Micromechanical descriptions of heavily deformed materials[J].Scripta Metallurgica et Materialia,1992,27:981-986. |
| [42] | VIDAL V;THILLY L;van PETEGEM S;STUHR U LECOUTURIER F RENAULT P O Van SWYGENHOVENC H .Plasticity of annostructured Cu-Nb-based wires:Strengthening mechanisms revealed by in situ deformation under neutrons[J].Scripta Materialia,2009,60:171-174. |
| [43] | Ludovic Thilly;Steven Van Petegem;Pierre-Olivier Renault .A new criterion for elasto-plastic transition in nanomaterials: Application to size and composite effects on Cu-Nb nanocomposite wires[J].Acta materialia,2009(11):3157-3169. |
| [44] | Yao, DW;Meng, L .Effects of solute, temperature and strain on the electrical resistivity of Cu-Ag filamentary composites[J].Physica. B, Condensed Matter,2008(19/20):3384-3388. |
| [45] | J.B. Liu;L. Meng;Y.W. Zeng .Microstructure evolution and properties of Cu-Ag microcomposites with different Ag content[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2006(0):237-244. |
| [46] | Y.Z. Tian;Z.F. Zhang .Microstructures and tensile deformation behavior of Cu-16 wt.%Ag binary alloy[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2009(1/2):209-213. |
| [47] | RAABE D;MATTISSEN D .Microstructure and mechanical properties of a cast and wire-drawn ternary Cu-Ag-Nb in situ composite[J].Acta Materialia,1998,46:5937-5984. |
| [48] | D. Raabe;K. Miyake;H. Takahara .Processing, microstructure, and properties of ternary high-strength Cu-Cr-Ag in situ composites[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2000(1/2):186-197. |
| [49] | Hong SI.;Hill MA. .Mechanical and electrical properties of heavily drawn Cu-Nb microcomposites with various Nb contents[J].Journal of Materials Science,2002(6):1237-1245. |
| [50] | S.I. Hong;M.A. Hill .MICROSTRUCTURE AND CONDUCTIVITY OF Cu-Nb MICROCOMPOSITES FABRICATED BY THE BUNDLING AND DRAWING PROCESS[J].Scripta materialia,2001(10):2509-2515. |
| [51] | RAABE D;HANGEN U .Correlation of microstructure and type Ⅱ superconductivity of a heavily cold roiled Cu-20mass% Nb in situ composite[J].Acta Materialia,1995,44:953-961. |
| [52] | Raabe D.;Mattissen D. .Experimental investigation and Ginzburg-Landau modeling of the microstructure dependence of superconductivity in Cu-Ag-Nb wires[J].Acta materialia,1999(3):769-777. |
| [53] | D. MATTISSEN;D. RAABE;F. HERINGHAUS .EXPERIMENTAL INVESTIGATION AND MODELING OF THE INFLUENCE OF MICROSTRUCTURE ON THE RESISTIVE CONDUCTIVITY OF A Cu-Ag-Nb IN SITU COMPOSITE[J].Acta materialia,1999(5):1627-1634. |
| [54] | M J R Sandim;D Stamopoulos;H R Z Sandlin .Size effects on the magnetic properties of Cu-Nb nanofilamentary wires processed by severe plastic deformation[J].Superconductor Science & Technology,2006(12):1233-1239. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%