Shakedown loading capacity prediction of metal-based nanocomposites

Sina Soleimanian; Min Chen; Derrick Tate; Shunqi Zhang

doi:10.1088/1742-6596/1303/1/012005

Shakedown loading capacity prediction of metal-based nanocomposites

Sina Soleimanian, Min Chen^*, Derrick Tate, Shunqi Zhang

^*Corresponding author for this work

School of Advanced Technology

Research output: Contribution to journal › Conference article › peer-review

Abstract

Nano reinforcement of metals cannot escape the attention of designers who seek to improve overall performance of engineering structures from automotive components to biomedical devices. Since many engineering structures are susceptible to variable cyclic load, presenting shakedown design of them is of the present research interest. So that, in the present research the shakedown loading capacity of metal based nanocomposite is estimated through finite element discretization and interior point optimization method. Finally, the results are obtained for plate structures subjected to two independent biaxial loads. A maximum improvement of 71.2% is achieved for shakedown load factor of the structure, which means a remarkable improvement in load bearing capacity of the structure.

Original language	English
Article number	012005
Journal	Journal of Physics: Conference Series
Volume	1303
Issue number	1
DOIs	https://doi.org/10.1088/1742-6596/1303/1/012005
Publication status	Published - 2 Sept 2019
Event	2nd International Conference on Mechanical, Electric and Industrial Engineering, MEIE 2019 - Hangzhou, China Duration: 25 May 2019 → 27 May 2019

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10.1088/1742-6596/1303/1/012005

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title = "Shakedown loading capacity prediction of metal-based nanocomposites",

abstract = "Nano reinforcement of metals cannot escape the attention of designers who seek to improve overall performance of engineering structures from automotive components to biomedical devices. Since many engineering structures are susceptible to variable cyclic load, presenting shakedown design of them is of the present research interest. So that, in the present research the shakedown loading capacity of metal based nanocomposite is estimated through finite element discretization and interior point optimization method. Finally, the results are obtained for plate structures subjected to two independent biaxial loads. A maximum improvement of 71.2% is achieved for shakedown load factor of the structure, which means a remarkable improvement in load bearing capacity of the structure.",

author = "Sina Soleimanian and Min Chen and Derrick Tate and Shunqi Zhang",

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T1 - Shakedown loading capacity prediction of metal-based nanocomposites

AU - Soleimanian, Sina

AU - Chen, Min

AU - Tate, Derrick

AU - Zhang, Shunqi

PY - 2019/9/2

Y1 - 2019/9/2

N2 - Nano reinforcement of metals cannot escape the attention of designers who seek to improve overall performance of engineering structures from automotive components to biomedical devices. Since many engineering structures are susceptible to variable cyclic load, presenting shakedown design of them is of the present research interest. So that, in the present research the shakedown loading capacity of metal based nanocomposite is estimated through finite element discretization and interior point optimization method. Finally, the results are obtained for plate structures subjected to two independent biaxial loads. A maximum improvement of 71.2% is achieved for shakedown load factor of the structure, which means a remarkable improvement in load bearing capacity of the structure.

AB - Nano reinforcement of metals cannot escape the attention of designers who seek to improve overall performance of engineering structures from automotive components to biomedical devices. Since many engineering structures are susceptible to variable cyclic load, presenting shakedown design of them is of the present research interest. So that, in the present research the shakedown loading capacity of metal based nanocomposite is estimated through finite element discretization and interior point optimization method. Finally, the results are obtained for plate structures subjected to two independent biaxial loads. A maximum improvement of 71.2% is achieved for shakedown load factor of the structure, which means a remarkable improvement in load bearing capacity of the structure.

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DO - 10.1088/1742-6596/1303/1/012005

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SN - 1742-6588

VL - 1303

JO - Journal of Physics: Conference Series

JF - Journal of Physics: Conference Series

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M1 - 012005

T2 - 2nd International Conference on Mechanical, Electric and Industrial Engineering, MEIE 2019

Y2 - 25 May 2019 through 27 May 2019

ER -

Shakedown loading capacity prediction of metal-based nanocomposites

Abstract

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