The deformation, damage, fracture, plasticity and melting phenomenon induced by shear fracture were investigated and summarized for Zr-, Cu-, Ti- and Mg-based bulk metallic glasses (BMGs) and their composites. The shear fracture angles of these BMG materials often display obvious differences under compression and tension,and follow either the Mohr-Coulomb criterion or the unified tensile fracture criterion. The compressive plasticity of the composites is always higher than the tensile plasticity, leading to a significant inconsistency. The enhanced plasticity of BMG composites containing ductile dendrites compared to monolithic glasses strongly depends on the details of the microstructure of the composites. A deformation and damage mechanism of pseudo-plasticity, related to local cracking, is proposed to explain the inconsistency of plastic deformation under tension and compression. Besides, significant melting on the shear fracture surfaces was observed. It is suggested that melting is a common phenomenon in these materials with high strength and high elastic energy, as it is typical for BMGs and their composites failing under shear fracture. The melting mechanism can be explained by a combined effect of a significant temperature rise in the shear bands and the instantaneous release of the large amount of elastic energy stored in the material.
参考文献
[1] | W Klement;R H Willens;P Duwez .[J].Nature,1960,187:869. |
[2] | C A Pampillo .[J].Journal of Materials Science,1975,10:1194. |
[3] | F Spaepen .[J].Acta Metallurgica,1977,25:407. |
[4] | A Argon .[J].Acta Metallurgica,1979,27:47. |
[5] | S Takayama .[J].Scripta Metallurgica,1979,13:463. |
[6] | L A Davis;Y T Yeow .[J].Journal of Materials Science,1980,15:230. |
[7] | P S Steif;F Spaepen;J W Hutchinson .[J].Acta Metallurgica,1982,30:447. |
[8] | N I Noskova;N F Vildanova;Y I Filippov;A P Potapov .[J].Phys Stat Solids (a),1985,87:549. |
[9] | A T Alpas;L Edwards;C N Neid .[J].Materials Science and Engineering,1988,98:501. |
[10] | P E Donovan .[J].Acta Metallurgica,1989,37:445. |
[11] | A Inoue;T Zhang;T Masumoto .[J].Materials Transactions-Japan Institute of Metals,1990,31:177. |
[12] | A Peker;W L Johnson .[J].Applied Physics Letters,1993,63:2342. |
[13] | W L Johnson .[J].MRS Bulletin,1999,24(10):42. |
[14] | A.Inoue .Stabilization of metallic supercooled liquid and bulk amorphous alloys[J].Acta materialia,2000(1):279-306. |
[15] | A Inoue;K Ohtera;K Kita;T Masumoto .[J].Japanese Journal of Applied Physics,1988,27:L2248. |
[16] | A Inoue;T Zhang;T Masumoto .[J].Materials Transactions-Japan Institute of Metals,1989,30:965. |
[17] | A Inoue;J S Gook .[J].Materials Transactions-Japan Institute of Metals,1995,36:1180. |
[18] | A Inoue;T Zhang;T Itoi;A Takeuchi .[J].Materials Transactions-Japan Institute of Metals,1997,38:359. |
[19] | A Inoue;N Nishiyama;T Masumoto .[J].Materials Transactions-Japan Institute of Metals,1996,37:181. |
[20] | T Zhang;A Inoue .[J].Materials Transactions-Japan Institute of Metals,1998,39:1001. |
[21] | T Zhang;A Inoue .[J].Materials Transactions-Japan Institute of Metals,1999,40:301. |
[22] | A. INOUE;W.ZHANG;T.ZHANG .HIGH-STRENGTH Cu-BASED BULK GLASSY ALLOYS IN Cu-Zr-Ti AND Cu-Hf-Ti TERNARY SYSTEMS[J].Acta materialia,2001(14):2645-2652. |
[23] | A Inoue .[J].Materials Transactions-Japan Institute of Metals,1995,36:866. |
[24] | A Inoue;H Kimura .[J].Materials Science and Engineering,2000,A286:1. |
[25] | A Inoue;T Zhang;Y H Kim .[J].Materials Transactions-Japan Institute of Metals,1997,38:749. |
[26] | C Fan;A Inoue .[J].Applied Physics Letters,2000,77:46. |
[27] | H Choi-Yim;W L Johnson .[J].Applied Physics Letters,1997,71:3808. |
[28] | H Kato;T Hirano;A Matsuo;Y Kawamura and A Inoue .[J].Scripta Materialia,2000,43:503. |
[29] | R.D. Conner;H. Choi-Yim;W.L. Johnson .Mechanical properties of Zr_57Nb_5Al_10Cu_15.4Ni_12.6 metallic glass matrix particulate composites[J].Journal of Materials Research,1999(8):3292-3297. |
[30] | H Choi-Yim;J Schroers;W L Johnson .[J].Applied Physics Letters,2002,80:1906. |
[31] | Q.WANG,J.J. Blandin,M. Suery,B. Van de Moortéle,J.M. Pelletier.Homogeneous Plastic Flow of Fully Amorphous and Partially Crystallized Zr41.2Ti13.8Cu12.5Ni10Be22.5 Bulk Metallic Glass[J].材料科学技术学报(英文版),2003(06):557-560. |
[32] | Y F Sun;Y R Wang;B C Wei;B C WeiW H Li .[J].Journal of Materials Science and Technology,2006,22:73. |
[33] | R.D.Conner;R.B.Dandliker;W.L.Johnson .Mechanical properties of tungsten and steel fiber reinforced Zr-41.25Ti_13.75Cu_12.5Ni_10Be_22.5 metallic glass matrix composites[J].Acta materialia,1998(17):6089-6102. |
[34] | R.D. Conner;R.B. Dandliker;V. Scruggs .Dynamic deformation behavior of tungsten-fiber/metallic-glass matrix composites[J].International journal of impact engineering,2000(5):435-444. |
[35] | D H Bae;M H Lee;D H Kim;D J Sordelet .[J].Applied Physics Letters,2003,83:2312. |
[36] | K.Q. Qiu;A.M. Wang;H.F. Zhang .Mechanical properties of tungsten fiber reinforced ZrAlNiCuSi metallic glass matrix composite[J].Intermetallics,2002(11/12):1283-1288. |
[37] | B. Clausen;S.-Y. Lee;E. Ustundag .Compressive yielding of tungsten fiber reinforced bulk metallic glass composites[J].Scripta materialia,2003(2):123-128. |
[38] | C. P. Kim;R. Busch;A. Masuhr;H. Choi-Yim;W. L. Johnson .Processing of carbon-fiber-reinforced Zr_(41.2)Ti_(13.8)Cu_(12.5)Ni_(10.0)Be_(22.5) bulk metallic glass composites[J].Applied physics letters,2001(10):1456-1458. |
[39] | H. Zhang;Z.F. Zhang;Z.G. Wang .Effects of Tungsten Fiber on Failure Mode of Zr-Based Bulk Metallic Glassy Composite[J].Metallurgical and Materials Transactions, A. Physical Metallurgy and Materials Science,2006(8):2459-2470. |
[40] | H Zhang;Z F Zhang;Z G Wang;K Q Qiu H F Zhang Q S Zang and Z Q Hu .[J].Materials Science and Engineering,2006,A418:146. |
[41] | H Wang .[J].Journal of Materials Science and Technology,2005,21(z1):86. |
[42] | C C Hays;C P Kim;W L Johnson .[J].Physical Review Letters,2000,84:2901. |
[43] | F F Wu;Z F Zhang;A Peker;S X Mao and J Eckert .[J].Physical Review,2007,B75:134201. |
[44] | U Kühn;J Eckert;N Mattern;L Schultz .[J].Applied Physics Letters,2002,80:2478. |
[45] | J Das;W L(o)ser;U Kühn;J Eckert S K Roy and L Schultz .[J].Applied Physics Letters,2003,82:4690. |
[46] | G He;J Eckert;W L(o)ser;L Schultz .[J].Nature Materials,2003,2:33. |
[47] | G. He;W. Loser;J. Eckert .Enhanced plasticity in a Ti-based bulk metallic glass-forming alloy by in situ formation of a composite microstructure[J].Journal of Materials Research,2002(12):3015-3018. |
[48] | G. He;J. Eckert;W. Loser .Stability, phase transformation and deformation behavior of Ti-base metallic glass and composites[J].Acta materialia,2003(6):1621-1631. |
[49] | G. He;W. Loser;J. Eckert .In situ formed Ti-Cu-Ni-Sn-Ta nanostructure-dendrite composite with large plasticity[J].Acta materialia,2003(17):5223-5234. |
[50] | G. He;J. Eckert;W. Loser .Composition dependence of the microstructure and the mechanical properties of nano/ultrafine-structured Ti-Cu-Ni-Sn-Nb alloys[J].Acta materialia,2004(10):3035-3046. |
[51] | H Zhang;X F Pan;Z F Zhang;J Das K B Kim C Müller M Kusy A Gebert G He and J Eckert .[J].Zeitschrift fur Metallkunde,2005,96:675. |
[52] | Z.F. Zhang;J. Eckert;L. Schultz .Difference in compressive and tensile fracture mechanisms of Zr_(59)Cu_(20)Al_(10)Ni_8Ti_3 bulk metallic glass[J].Acta materialia,2003(4):1167-1179. |
[53] | Z.F.ZHANG;J. ECKERT;L. SCHULTZ .Fatigue and Fracture Behavior of Bulk Metallic Glass[J].Metallurgical and Materials Transactions, A. Physical Metallurgy and Materials Science,2004(11):3489-3498. |
[54] | Z F Zhang;G He;J Eckert .[J].Philosophical Magazine,2005,85:897. |
[55] | G. He;Z. F. Zhang;W. Loser;J. Eckert;L. Schultz .Effect of Ta on glass formation, thermal stability and mechanical properties of a Zr_(52.25)Cu_(28.5)Ni_(4.75)Al_(9.5)Ta_5 bulk metallic glass[J].Acta materialia,2003(8):2383-2395. |
[56] | H Zhang;Z G Wang;K Q Qiu;Q S Zang H F Zhang and Z Q Hu .[J].Materials Science and Engineering,2003,A356:173. |
[57] | H Ma;J Xu;E Ma .[J].Applied Physics Letters,2003,83:2793. |
[58] | Y K Xu;J Xu .[J].Scripta Materialia,2003,49:843. |
[59] | H Heilmaier .[J].Journal of Materials Processing Technology,2001,117:374. |
[60] | A Leonhard;L Q Xing;M Heilmaier;A Gebert J Eckert and L Schultz .[J].Nano-Structured Materials,1998,10:805. |
[61] | R W K Honeycombe.Plastic Deformation of Metals[M].Cambridge Press,1984 |
[62] | V Bengus;P Diko;K Csach;J Miskuf V Ocelik E B Korolkova E D Tabachnikova and P Duhaj .[J].Journal of Materials Science,1990,25:1598. |
[63] | G He;J Lu;Z Bian;D J Chen G L Chen G H Tu and G J Chen .[J].Materials Transactions,2001,42:356. |
[64] | A Inoue;H M Kimura;T Zhang .[J].Materials Science and Engineering,2000,A294-296:727. |
[65] | A Inoue;S Sobu;D V Louzguine .[J].Journal of Materials Research,2004,19:1539. |
[66] | J J Lewandowski;P Lowhaphandu .[J].Philosophical Magazine,2002,82:3427. |
[67] | C. T. Liu;L. Heatherly .Test environments and mechanical properties of Zr-Base bulk amorphous alloys[J].Metallurgical and Materials Transactions, A. Physical Metallurgy and Materials Science,1998(7):1811-1820. |
[68] | P.Lowhaphandu;L.A.Ludrosky .Deformation and fracture toughness of a bulk amorphous[J].Intermetallics,2000(5/6):487-492. |
[69] | J Megusar;A S Argon;N J Grant .[J].Materials Science and Engineering,1979,38:63. |
[70] | T Mukai;T G Nieh;Y Kawamura;A Inoue and K Higashi .[J].Scripta Materialia,2002,46:43. |
[71] | X S Xiao;S S Fang;L Xia;W H Li Q Hua and Y D Dong .[J].Journal of Alloys and Compounds,2003,351:324. |
[72] | T Hirano;H Kato;A Matsuo;Y Kawamura A Inoue .[J].Materials Transactions-Japan Institute of Metals,2000,41:1454. |
[73] | Z F Zhang;G He;J Eckert;L Schultz .[J].Physical Review Letters,2003,91:045505. |
[74] | Z Bian;T Zhang;H Kato;M Hasegawa and A Inoue .[J].Journal of Materials Research,2004,19:1068. |
[75] | A. Inoue;B. L. Shen;H. Koshiba;H. Kato;A. R. Yavari .Ultra-high strength above 5000 MPa and soft magnetic properties of Co–Fe–Ta–B bulk glassy alloys[J].Acta materialia,2004(6):1631-1637. |
[76] | A. Inoue;B.L. Shen;C.T. Chang .Super-high strength of over 4000 MPa for Fe-based bulk glassy alloys in [(Fe_(1-x)Co_x)_(0.75)B_(0.2)Si_(0.05)]_(96)Nb_4 system[J].Acta materialia,2004(14):4093-4099. |
[77] | P. Wesseling;T. G. Nieh;W. H. Wang;J. J. Lewandowski .Preliminary assessment of flow, notch toughness, and high temperature behavior of Cu_(60)Zr_(20)Hf_(10)Ti_(10) bulk metallic glass[J].Scripta materialia,2004(2):151-154. |
[78] | W J Wright;R Saha;W D Nix .[J].Materials Transactions,2001,42:642. |
[79] | Y.-K. Xu;H. Ma;J. Xu .Mg-based bulk metallic glass composites with plasticity and gigapascal strength[J].Acta materialia,2005(6):1857-1866. |
[80] | M A Mayers;K K Chawla.Mechanical Behavior of Materials[M].Prentice-Hall,Upper Saddle River,New Jersey,1999 |
[81] | A C Lund;C A Schuh .[J].Intermallics,2004,12:1159. |
[82] | X S Xiao;W H Li;L Xia;S S Fang Q Hua and Y D Dong .[J].Journal of Materials Science and Technology,2003,22:410. |
[83] | F.F. Wu;Z.F. Zhang;A. Peker .Strength asymmetry of ductile dendrites reinforced Zr- and Ti-based composites[J].Journal of Materials Research,2006(9):2331-2336. |
[84] | R.T. OTT;F. SANSOZ;T. JIAO .Yield Criteria and Strain-Rate Behavior of Zr_(57.4)Cu_(16.4)Ni_(8.2)Ta_8Al_(10) Metallic-Glass-Matrix Composites[J].Metallurgical and Materials Transactions, A. Physical Metallurgy and Materials Science,2006(11):3251-3258. |
[85] | T H Courtney.Mechanical Behavior of Materials[M].Mcgraw-hill Companies,inc,2000 |
[86] | Z F Zhang;J Eckert .[J].Physical Review Letters,2005,94:094301. |
[87] | Z F Zhang;J Eckert .[J].Advances in Engineering Materials,2007,9:143. |
[88] | C A Schuh;A C Lund .[J].Nature Materials,2003,2:449. |
[89] | S Cheng;J A Spencer;W W Milligan .[J].Acta Matkr,2003,51:4505. |
[90] | K. S. Kumar;H. Van Swygenhoven;S. Suresh .Mechanical behavior of nanocrystalline metals and alloys[J].Acta materialia,2003(19):5743-5774. |
[91] | C A Schuh;T C Hufnagel;U Ramamurty .[J].Acta Materialia,2007,55:4067. |
[92] | M. Calin;J. Eckert;L. Schultz .Improved mechanical behavior of Cu-Ti-based bulk metallic glass by in situ formation of nanoscale precipitates[J].Scripta materialia,2003(6):653-658. |
[93] | A Inoue;W Zhang .[J].Materials Transactions,2004,45:584. |
[94] | A. Inoue;B.L. Shen;A.R. Yavari .Mechanical properties of Fe-based bulk glassy alloys in Fe-B-Si-Nb and Fe-Ga-P-C-B-Si systems[J].Journal of Materials Research,2003(6):1487-1492. |
[95] | L Q Xing;C Bertrand;J P Dallas;M Cornet .[J].Materials Science and Engineering,1998,A241:216. |
[96] | W Zhang;A Inoue .[J].Scripta Materialia,2003,48:641. |
[97] | A. Inoue;T. Zhang;S. Ishihara .PREPARATION AND MECHANICAL PROPERTIES OF NANOQUASICRYSTALLINE BASE BULK ALLOYS[J].Scripta materialia,2001(8-9):1615-1619. |
[98] | C Fan;R T Ott;T C Hufnegal .[J].Applied Physics Letters,2002,81:1020. |
[99] | U Ramamurty;S Jana;Y Kawamura;K Chattopadhyay .[J].ACTA MATERIALIA,2005,53:705. |
[100] | H W Zhang;X N Jiang;G Subhash;L J Kecskes and R J Dowding .[J].ACTA MATERIALIA,2005,53:3849. |
[101] | A Antoniou;A F Bastawros;C C H Lo;S B Biner .[J].Materials Science and Engineering,2005,A394:96. |
[102] | J Lu;G Ravichandran .[J].Journal of Materials Research,2003,18:2039. |
[103] | Z. F. ZHANG;H. ZHANG;X. F. PAN .Effect of aspect ratio on the compressive deformation and fracture behaviour of Zr-based bulk metallic glass[J].Philosophical Magazine Letters,2005(10):513-521. |
[104] | S M Walley;D D Radford;D J Chapman .[J].Journal of Physics,2006,Ⅳ134:851. |
[105] | W.H. Jiang;G.J. Fan;H. Choo .Ductility of a Zr-based bulk-metallic glass with different specimen's geometries[J].Materials Letters,2006(29/30):3537-3540. |
[106] | H Bei;S Xie;E P George .[J].Physical Review Letters,2006,96:105503. |
[107] | F.F. Wu;Z.F. Zhang;S.X. Mao .Compressive properties of bulk metallic glass with small aspect ratio[J].Journal of Materials Research,2007(2):501-507. |
[108] | F F Wu;Z F Zhang;F Jiang;J Sun J Shen and S X Mao .[J].Applied Physics Letters,2007,90:191909. |
[109] | F F Wu;Z F Zhang;J Shen;S X Mao.[J].Acta Materialia,2007 |
[110] | J T Fan;F F Wu;Z F Zhang;F Jiang J Sun and S X Mao.[J].Journal of Non-Crystalline Solids,2007 |
[111] | J Schroers;W L Johnson .[J].Physical Review Letters,2004,93:255506. |
[112] | J Das;M B Tang;K B Kim;R Theissmann F Baier W H Wang and J Eckert .[J].Physical Review Letters,2005,94:205501. |
[113] | K F Yao;F Ruan;Y Q Yang;N Chen .[J].Applied Physics Letters,2006,88:122106. |
[114] | Y H Liu;G Wang;R J Wang;D Q Zhao M X Pan and W H Wang .[J].Science,2007,315:1385. |
[115] | H.GUO;P.F.YAN;Y.B.WANG .Tensile ductility and necking of metallic glass[J].Nature materials,2007(10):735-739. |
[116] | J J Lewandowski;W H Wang;A L Greer .[J].Philosophical Magazine Letters,2005,85:77. |
[117] | M W Chen;A Inoue;W Zhang;T Sakurai .[J].Physical Review Letters,2006,96:245502. |
[118] | K Hajlaoui;A R Yavari;B Doisneau;A LeMoulec W J Botta F G Vaughan A L Greer A Inoue W Zhang and (A) Kvick .[J].Scripta Materialia,2006,54:1829. |
[119] | K B Kim;J Das;S Venkataraman;S Yi and J Eckert .[J].Applied Physics Letters,2006,89:071908. |
[120] | G Wang;Y H Liu;P Yu;D W Zhao M X Pan and W H Wang .[J].Applied Physics Letters,2006,89:351909. |
[121] | K B Kim;J Das;W D Wang;X F Zhang S Yi and J Eckert .[J].Philosophical Magazine Letters,2006,86:479. |
[122] | X. F. Zhang;X. D. Wang;K. B. Kim .Be Effect on Glass-Forming Ability and Mechanical Properties of Ti-Cu-Co-Zr-Sn Bulk Metallic Glasses[J].Materials transactions,2006(9):2321-2325. |
[123] | W L Johnson;K Samwer .[J].Physical Review Letters,2005,95:195501. |
[124] | F F Wu;R T Qu;Z F Zhang;A Peker .[Z].,2007. |
[125] | X K Xi;D Q Zhao;M X Pan;W H Wang Y Wu and J J Lewandowski .[J].Physical Review Letters,2005,94:125511. |
[126] | A. Inoue;W. Zhang;T. Tsurui .Unusual room-temperature compressive plasticity in nanocrystal-toughened bulk copper-zirconium glass[J].Philosophical Magazine Letters,2005(5):221-229. |
[127] | J. Das;K. B. Kim;W. Xu .Ductile Metallic Glasses in Supercooled Martensitic Alloys[J].Materials transactions,2006(10):2606-2609. |
[128] | K B Kim;J Das;F Baier;M B Tang W H Wang and J Eckert .[J].Applied Physics Letters,2006,88:051911. |
[129] | Q Cao;J Li;Y Zhou;J Z Jiang .[J].Applied Physics Letters,2005,86:081913. |
[130] | R D Conner;W L Johnson .[J].Scripta Materialia,2006,55:645. |
[131] | Y. Zhang;A.L. Greer .Correlations for predicting plasticity or brittleness of metallic glasses[J].Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics,2007(0):2-5. |
[132] | J B Qiang;W Zhang;G Q Xie;A Inoue .[J].Applied Physics Letters,2007,90:231907. |
[133] | Y J Huang;J Shen;J F Sun .[J].Applied Physics Letters,2007,90:081919. |
[134] | Z Bian;M X Pan;Y Zhang;W H Wang .[J].Applied Physics Letters,2002,81:4739. |
[135] | H. CHOI-YIM;R. BUSCH;U. KOSTFR;W. L. JOHNSON .SYNTHESIS AND CHARACTERIZATION OF PARTICULATE REINFORCED Zr57Nb5Al10Cu15.4Ni12.6 BULK METALLIC GLASS COMPOSITES[J].Acta materialia,1999(8):2455-2462. |
[136] | L Q Xing;Y Li;K T Ramesh;J Li and T C Hufnagel .[J].Physical Review B:Condensed Matter,2001,64:R180201. |
[137] | D V Louzguine;H Kato;A Inoue .[J].Journal of Alloys and Compounds,2004,375:171. |
[138] | M.L. Lee;Y. Li;C.A. Schuh .Effect of a controlled volume fraction of dendritic phases on tensile and compressive ductility in La-based metallic glass matrix composites[J].Acta materialia,2004(14):4121-4131. |
[139] | F. SZUECS;C.P. KIM;W.L. JOHNSON .MECHANICAL PROPERTIES OF Zr_56.2Ti_13.8Nb_5.0Cu_6.9Ni_5.6Be_12.5 DUCTILE PHASE REINFORCED BULK METALLIC GLASS COMPOSITE[J].Acta materialia,2001(9):1507-1513. |
[140] | B B Sun;M L Sui;Y M Wang;G He J Eckert and E Ma .[J].Acta Materialia,2006,54:1349. |
[141] | Z.F. Zhang;G. He;H. Zhang .Rotation Mechanism of Shear Fracture Induced by High Plasticity in Ti-Based Nano-Structured Composites Containing Ductile Dendrites[J].Scripta materialia,2005(9):945-949. |
[142] | W J Wright;R B Schwarz;W D Nix .[J].Materials Science and Engineering,2001,A319-321:229. |
[143] | Z F Zhang;J Eckert;L Schultz .[J].Journal of Materials Research,2003,18:456. |
[144] | V Schroeder;C J Gilbert;R O Ritchie .[J].Materials Science and Engineering,2001,A317:145. |
[145] | K M Flores;R H Dauskardt .[J].Materials Science and Engineering,2001,A319-321:511. |
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