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Purpose: of this paper reports damage analysis of TiB2 (ceramic particles) reinforced steel matrix composite sheets. This new steel composite receives much attention as potential structural materials due to their high specific strength and stiffness. The goal of the research described in this paper is to study the usage of this new steel family in the manufacture of light structures. Design/methodology/approach: therefore in this study is focused to the titanium diboride TiB2 reinforced steel matrix composite sheets that they were characterized by optical and scanning electron microscopes after the mechanical tests carried out on the base metal and welded specimens under dynamic and static test conditions. Findings: The non homogeneity of the structure in this type of composites makes deeply complexity of their numerical and analytical modelling to predict their damage during the loading. For example, the interfaces essentially play a key role in determining mechanical and physical properties. For this reason, a Finite Element (FEM) analysis is used for modelling to simulate the macroscopic behaviour of this material, taking into account the relevant microscopic scales. Practical implications: defined in this research is based on the impact dynamic behaviour of this steel sheets by using a special impact tensile test developed formerly that all details were published in this journal. This type of test gives more comprehensible information about special steel sheets (welded or base metal) in case of dynamic crash conditions. Originality/value: The present research gives detail information on the new steel matrix composite sheets reinforced TiB2 ceramic particles. This new composite was developed by ARCELOR research group and impact dynamic behaviour and weldability of the welded parts and base metals from this composite steel are discussed here in order to give practical and useful solution for industrial applications.
Słowa kluczowe
Wydawca
Rocznik
Tom
Strony
53--61
Opis fizyczny
Bibliogr. 17 poz., rys., tab.
Twórcy
autor
- Supmeca/LISMMA - Paris, School of Mechanical and Manufacturing Engineering, Paris, France
- Chair of Industrial Materials, CNAM, Arts et Métiers, 75141 Paris 03, France
autor
- Supmeca/LISMMA - Paris, School of Mechanical and Manufacturing Engineering, Paris, France
autor
- Supmeca/LISMMA - Paris, School of Mechanical and Manufacturing Engineering, Paris, France
autor
- Chair of Industrial Materials, CNAM, Arts et Métiers, 75141 Paris 03, France
autor
- ARCELOR - Research, Paris, France
Bibliografia
- [1] ARCELOR Research group; Patent EP 1 897 963 A1, Bulletin 2008/11, 20p, 2008.
- [2] E. Bayraktar, D. Kaplan, C. Buirette, M. Grumbach, Application of Impact tensile testing to the welded thin sheets, Journal of Materials Processing Technology 145/I (2004) 27-39.
- [3] F. Akhtar, S.J. Askari, K.A. Shah, X. Du, S. Guo, Microstructure, mechanical properties, electrical conductivity and wear behavior of high volume TiC reinforced Cu-matrix composites, Materials Characterization 60/4 (2009) 327-336.
- [4] Y. Yang, H. Wang, Y. Liang, R. Zhao, Q. Jiang, Fabrication of steel matrix composites locally reinforced with different ratios of TiC/TiB2 particulates using SHS reactions of Ni-Ti-B4C and Ni-Ti-B4C-C systems during casting, Materials Science and Engineering A 445-446 (2007) 398-404.
- [5] Q.C. Jiang, B.X. Ma, H.Y. Wang, Y. Wang, Y.P. Dong, Fabrication of steel matrix composites locally reinforced with in situ TiB2-TiC particulates, Composites Part A: Applied Science and Manufacturing 37/1 (2006) 133-138.
- [6] Y. Wang, Z.Q. Zhang, H.Y. Wang, B.X. Ma, Q.C. Jiang, Effect of Fe content in Fe-Ti-B system on fabricating TiB2 particulate locally reinforced steel matrix composites, Materials Science and Engineering A 422 (2006) 339-345.
- [7] B. Ziębowicz, D. Szewieczek, L.A. Dobrzański, New possibilities of application of composite materials with soft magnetic properties, Journal of Achievements in Materials and Manufacturing Engineering 20 (2007) 207-210.
- [8] R. Narayanasamy, T. Ramesh, K.S. Pandey, Some aspects on cold forging of aluminium-iron powder metallurgy composite under triaxial stress state condition, Materials and Design 29 (2008) 891-903.
- [9] F. Tang, I.E. Anderson, T. Gnaupel-Herold, H. Prask, Pure Al matrix composites produced by vacuum hot pressing: tensile properties and strengthening mechanisms, Materials Science and Engineering A 383 (2004) 362-373.
- [10] A. Grabowski, B. Formanek, M. Sozanska, D. Janicki, M. Nowak, Laser remelting of Al-Fe-TiO powder composite on aluminium matrix, Journal of Achievements in Materials and Manufacturing Engineering 33/1 (2009) 78-85.
- [11] L. Duraes, B.F.O. Costa, R. Santos, A. Correia, J. Campos, A. Portugal, Fe2O3/aluminum thermite reaction intermediate and final products characterization, Materials Science and Engineering A 465 (2007) 199-210.
- [12] T. Mori, K. Tanaka, Average stress in matrix and average elastic energy of materials with misting inclusions, Acta Metallurgica 21/5 (1973) 571-574.
- [13] I. Doghri, L. Tinel, Micromechanical modelling and computation of elasto-plastic materials reinforced with distributed-orientation fibers, International Journal of Plasticity 21 (2005) 1919-1940.
- [14] L. Lu, M.O Lai, Y. Su, H.L. Teo, C.F. Feng, In-situ TiB2 reinforced Al alloy composites, Scripta Materialia 45/9 (2001) 1017-1023.
- [15] S. Gorsse, D.B. Miracle, Mechanical Properties of Ti-6Al-4V/TiB composites with randomly oriented and aligned TiB reinforcements, Acta Materialia 51/9 (2003) 2427-2442.
- [16] A. Giraud, Q.V. Huynh, D. Hoxha, D. Kondo, Effective poro-elastic properties of transversely isotropic rock-like composites with arbitrarily oriented ellipsoidal inclusions, Mechanics of Materials 39 (2007) 1006-1024.
- [17] T. Fukasawa, M. Ando, T. Ohji, S. Kanzaki, Synthesis of porous ceramics with complex pore structure by freeze-dries processing, Journal of the American Ceramic Society 84/1 (2001) 230-232.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-f5e8025f-7971-46ca-bed4-0a1c193bb18c