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Philosophical Magazine A Volume 82, 2002 - Issue 16
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Original Articles

Microstructural changes in the cell walls of a closed-cell aluminium foam during creep

P. Zhang Max-Planck-Institut für Metallforschung, Heisenbergstrasse 3, D-70569, Stuttgart, Germany
,
M. Haag Universität Stuttgart, Institut für Metallkunde, Heisenbergstrasse 3, D-70569, Stuttgart, Germany
,
O. Kraft Max-Planck-Institut für Metallforschung, Heisenbergstrasse 3, D-70569, Stuttgart, Germany
,
A. Wanner Universität Stuttgart, Institut für Metallkunde, Heisenbergstrasse 3, D-70569, Stuttgart, Germany
&
E. Arzt Max-Planck-Institut für Metallforschung, Heisenbergstrasse 3, D-70569, Stuttgart, Germany; Universität Stuttgart, Institut für Metallkunde, Heisenbergstrasse 3, D-70569, Stuttgart, Germany
Pages 2895-2907 | Received 01 Nov 2001, Accepted 24 Jun 2002, Published online: 04 Aug 2009

Citations (16)

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C. Y. Zhang, L. Q. Tang, Z. J. Liu, Y. P. Liu, X. Q. Huang & D. N. Fang. (2014) Prediction of Creep Properties of Fiber-Reinforced Closed-Cell Metallic Foams. Mechanics of Advanced Materials and Structures 21:9, pages 761-771.
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Articles from other publishers (15)

Haiming Liu, Maxwell Fordjour Antwi‐Afari, Haoyang Mi & Chuntai Liu. (2022) Research on the feasibility of polyethylene terephthalate foam used in wind turbine blades. Environmental Progress & Sustainable Energy 42:1.
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Dipen Kumar Rajak, Nikhil N. Mahajan & Emanoil Linul. (2019) Crashworthiness performance and microstructural characteristics of foam-filled thin-walled tubes under diverse strain rate. Journal of Alloys and Compounds 775, pages 675-689.
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Bin Han, Run-Pei Yu, Qian-Cheng Zhang, Hua-Jian Gao, Qi Zhang, Tian Jian Lu & Bing-Heng Lu. (2018) Creep of closed-cell aluminum foams: Effects of imperfections and predictive modeling. Materials & Design 156, pages 229-241.
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Éric Maire, Jérôme Adrien & Clémence Petit. (2014) Structural characterization of solid foams. Comptes Rendus. Physique 15:8-9, pages 674-682.
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James G. Hemrick & Edgar Lara-Curzio. (2013) Constitutive Model for the Time-Dependent Mechanical Behavior of 430 Stainless Steel and FeCrAlY Foams in Sulfur-Bearing Environments. JOM 65:3, pages 450-458.
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Z.G. Fan, C.Q. Chen & T.J. Lu. (2012) Multiaxial creep of low density open-cell foams. Materials Science and Engineering: A 540, pages 83-88.
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F. Diologent, R. Goodall & A. Mortensen. (2011) Activation volume in microcellular aluminium: Size effects in thermally activated plastic flow. Acta Materialia 59:18, pages 6869-6879.
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S. Soubielle, F. Diologent, L. Salvo & A. Mortensen. (2011) Creep of replicated microcellular aluminium. Acta Materialia 59:2, pages 440-450.
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Ting-Jung Chen & Jong-Shin Huang. (2009) Creep-buckling of open-cell foams. Acta Materialia 57:5, pages 1497-1503.
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Olivier Couteau & David C. Dunand. (2008) Creep of aluminum syntactic foams. Materials Science and Engineering: A 488:1-2, pages 573-579.
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Randoald Mueller, Sébastien Soubielle, Russell Goodall, Frédéric Diologent & Andreas Mortensen. (2007) On the steady-state creep of microcellular metals. Scripta Materialia 57:1, pages 33-36.
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Scott M. Oppenheimer & David C. Dunand. (2007) Finite element modeling of creep deformation in cellular metals. Acta Materialia 55:11, pages 3825-3834.
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Masataka Hakamada, Tatsuho Nomura, Yasuo Yamada, Yasumasa Chino, Hiroyuki Hosokawa, Takeshi Nakajima, Youqing Chen, Hiromu Kusuda & Mamoru Mabuchi. (2005) Compressive properties at elevated temperatures of porous aluminum processed by the spacer method. Journal of Materials Research 20:12, pages 3385-3390.
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Masataka Hakamada, Tatsuho Nomura, Yasuo Yamada, Yasumasa Chino, Youqing Chen, Hiromu Kusuda & Mamoru Mabuchi. (2005) Compressive Deformation Behavior at Elevated Temperatures in a Closed-Cell Aluminum Foam. MATERIALS TRANSACTIONS 46:7, pages 1677-1680.
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H CHOE & D DUNAND. (2004) Mechanical properties of oxidation-resistant Ni–Cr foams. Materials Science and Engineering A 384:1-2, pages 184-193.
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