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A platform for research: civil engineering, architecture and urbanism
Nonlinear free vibration of bi-directional functionally graded porous plates
https://orcid.org/0000-0001-8528-0352
https://orcid.org/0000-0001-7941-4000
Abstract Understanding the nonlinear behavior of advanced engineering structures is of great importance in supporting the analysis, design, and manufacturing processes. The primary objective of this paper, therefore, is to focus on exploring the nonlinear free vibrational characteristics of bi-directional functionally graded (FG) plates considering internal pores under various conditions. To accomplish this, we present an approximate numerical model derived based on the framework of NURBS-based isogeometric analysis (IGA), in conjunction with four-variable refined plate theory (RPT) and the von Kármán assumption, to reckon the displacement field. The mechanical properties of bi-directional FG plate models can smoothly and continuously vary along two in-plane directions according to a power law. Additionally, it is assumed that internal porosities in the matrix materials can be dispersed into two independent patterns, either the even or uneven porosity distributions. The nonlinearity in free vibration, assessed by means of the nonlinear-to-linear frequency ratio related to the central deflection amplitude, can be obtained using an iterative scheme with a displacement control strategy. The accuracy and effectiveness of the current numerical model are demonstrated through a comparison with existing solutions. Comprehensive parametric investigations are subsequently carried out to provide insight into the impact of various factors on the nonlinear free vibration characteristics of plate structures under different conditions. The new insights obtained from this research could serve as valuable benchmark outcomes as well as contribute to a more comprehensive understanding of the nonlinear responses in future analysis and design processes.
Highlights Nonlinear free vibration characteristics of bi-directional FG porous plates are explored. Numerical model is developed using four-variable RPT and NURBS-based IGA. Iterations with displacement control strategy are implemented to obtain nonlinear responses. Significant influence of input factors is examined and evaluated thoroughly.
Nonlinear free vibration of bi-directional functionally graded porous plates
https://orcid.org/0000-0001-8528-0352
https://orcid.org/0000-0001-7941-4000
Abstract Understanding the nonlinear behavior of advanced engineering structures is of great importance in supporting the analysis, design, and manufacturing processes. The primary objective of this paper, therefore, is to focus on exploring the nonlinear free vibrational characteristics of bi-directional functionally graded (FG) plates considering internal pores under various conditions. To accomplish this, we present an approximate numerical model derived based on the framework of NURBS-based isogeometric analysis (IGA), in conjunction with four-variable refined plate theory (RPT) and the von Kármán assumption, to reckon the displacement field. The mechanical properties of bi-directional FG plate models can smoothly and continuously vary along two in-plane directions according to a power law. Additionally, it is assumed that internal porosities in the matrix materials can be dispersed into two independent patterns, either the even or uneven porosity distributions. The nonlinearity in free vibration, assessed by means of the nonlinear-to-linear frequency ratio related to the central deflection amplitude, can be obtained using an iterative scheme with a displacement control strategy. The accuracy and effectiveness of the current numerical model are demonstrated through a comparison with existing solutions. Comprehensive parametric investigations are subsequently carried out to provide insight into the impact of various factors on the nonlinear free vibration characteristics of plate structures under different conditions. The new insights obtained from this research could serve as valuable benchmark outcomes as well as contribute to a more comprehensive understanding of the nonlinear responses in future analysis and design processes.
Highlights Nonlinear free vibration characteristics of bi-directional FG porous plates are explored. Numerical model is developed using four-variable RPT and NURBS-based IGA. Iterations with displacement control strategy are implemented to obtain nonlinear responses. Significant influence of input factors is examined and evaluated thoroughly.
Nonlinear free vibration of bi-directional functionally graded porous plates
https://orcid.org/0000-0001-8528-0352
https://orcid.org/0000-0001-7941-4000
Abstract Understanding the nonlinear behavior of advanced engineering structures is of great importance in supporting the analysis, design, and manufacturing processes. The primary objective of this paper, therefore, is to focus on exploring the nonlinear free vibrational characteristics of bi-directional functionally graded (FG) plates considering internal pores under various conditions. To accomplish this, we present an approximate numerical model derived based on the framework of NURBS-based isogeometric analysis (IGA), in conjunction with four-variable refined plate theory (RPT) and the von Kármán assumption, to reckon the displacement field. The mechanical properties of bi-directional FG plate models can smoothly and continuously vary along two in-plane directions according to a power law. Additionally, it is assumed that internal porosities in the matrix materials can be dispersed into two independent patterns, either the even or uneven porosity distributions. The nonlinearity in free vibration, assessed by means of the nonlinear-to-linear frequency ratio related to the central deflection amplitude, can be obtained using an iterative scheme with a displacement control strategy. The accuracy and effectiveness of the current numerical model are demonstrated through a comparison with existing solutions. Comprehensive parametric investigations are subsequently carried out to provide insight into the impact of various factors on the nonlinear free vibration characteristics of plate structures under different conditions. The new insights obtained from this research could serve as valuable benchmark outcomes as well as contribute to a more comprehensive understanding of the nonlinear responses in future analysis and design processes.
Highlights Nonlinear free vibration characteristics of bi-directional FG porous plates are explored. Numerical model is developed using four-variable RPT and NURBS-based IGA. Iterations with displacement control strategy are implemented to obtain nonlinear responses. Significant influence of input factors is examined and evaluated thoroughly.
Nonlinear free vibration of bi-directional functionally graded porous plates
Nguyen, Nam V. (author) / Phan, Duc-Huynh (author)
Thin-Walled Structures ; 192
2023-09-11
Article (Journal)
Electronic Resource
English
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