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Information Journal Paper

Title

Plastic Deformation Modeling of Foam-Filled Tubes with Multi-Layer Foams During Compression Loading

Pages

  62-81

Abstract

 The purpose of this paper is to investigate the work hardening behavior and energy absorption characteristic of metallic foams and functionally graded foam filled tubes, including single-, double-and triple-layer foams. Closed-cell A356 alloy and pure zinc foams are fabricated by casting method. The results illustrate that the metallic foams show partially brittle compressive deformation associated with cell walls’ bending and tearing. A nonlinear asymptotic model, 𝜎 𝜎 = 𝜎 𝜎 0(1 − 𝜀 𝜀 )− 𝜌 𝜌 𝐹 𝐹 /𝜌 𝜌 𝑆 𝑆 , is proposed to represent the hardening behavior of metallic foams and graded foam filled tubes as a function of relative density. The development of a complementary model, 𝜎 𝜎 = 𝜎 𝜎 0𝜀 𝜀 sin(𝑛 𝑛 𝑛 𝑛 𝑛 𝑛 ) + 𝜎 𝜎 0(1 − 𝜀 𝜀 )− 𝜌 𝜌 𝐹 𝐹 /𝜌 𝜌 𝑆 𝑆 , leads to a more accurate estimation of crushing response considering the stress oscillations, particularly for the A356 foam with high degrees of oscillation and multi-layered structures containing distinct plateau regions. Therefore, the present model is fairly consistent with the experimental results. Greater density and strength of the zinc foam compared to those of the A356 foam cause the highest total energy absorption of 581 J in the zinc foam filled tube and the highest specific energy absorption of 459. 2 J/(g/cm3) in the A356 foam filled tube. The presence of zinc foam results in the decrease of specific energy absorption. However, it plays a dominant role in adjusting the crash features of graded structures. The compressive properties of multi-layered structures can be controlled by varying the number and material of the layers at constant geometric features.

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    APA: Copy

    MIRBAGHERI, S.M.H., SALEHI, M., & Jafari Ramiani, A.. (2019). Plastic Deformation Modeling of Foam-Filled Tubes with Multi-Layer Foams During Compression Loading. IRANIAN JOURNAL OF MATERIALS FORMING, 6(2), 62-81. SID. https://sid.ir/paper/352145/en

    Vancouver: Copy

    MIRBAGHERI S.M.H., SALEHI M., Jafari Ramiani A.. Plastic Deformation Modeling of Foam-Filled Tubes with Multi-Layer Foams During Compression Loading. IRANIAN JOURNAL OF MATERIALS FORMING[Internet]. 2019;6(2):62-81. Available from: https://sid.ir/paper/352145/en

    IEEE: Copy

    S.M.H. MIRBAGHERI, M. SALEHI, and A. Jafari Ramiani, “Plastic Deformation Modeling of Foam-Filled Tubes with Multi-Layer Foams During Compression Loading,” IRANIAN JOURNAL OF MATERIALS FORMING, vol. 6, no. 2, pp. 62–81, 2019, [Online]. Available: https://sid.ir/paper/352145/en

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