Topological sensitivity analysis for a two-parameter Mooney-Rivlin hyperelastic constitutive model

Pereira, Carlos Eduardo Leite; Bittencourt, Marco L.

doi:10.1590/s1679-78252010000400002

Cited by 3 publications

(3 citation statements)

References 31 publications

(43 reference statements)

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“…(1) Material parameters of rubber C 10 , C 01 . The constitutive model used in this paper is the Mooney-Rivlin two-parameter model [13]. The model can describe the deformation characteristics of rubber materials in 150%.…”

Section: Constructing Parameterized Modelmentioning

confidence: 99%

Sensitivity Analysis of the Waterproof Performance of Elastic Rubber Gasket in Shield Tunnel

Wang

Lei

2021

Applied Mathematics and Nonlinear Sciences

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In order to study the waterproof performance of elastic rubber gasket in shield tunnel lining joints, an innovative sensitivity analysis method is proposed by combining the Monte Carlo method with the stochastic finite element method (FEM) in this paper. The sensitivity values of the waterproof performance respecting to elastic rubber gaskets are obtained via the ANSYS Probabilistic Design System (PDS) module, in which the parameters of material hardness, coordinates of the hole center, apertures are selected as random input variables. Meantime, the extent of the tolerance effect of the random parameters on the waterproof performance is explored.

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Section: Constructing Parameterized Modelmentioning

confidence: 99%

Sensitivity Analysis of the Waterproof Performance of Elastic Rubber Gasket in Shield Tunnel

Wang

Lei

2021

Applied Mathematics and Nonlinear Sciences

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“…Different strain energy functions are used to model hyperelastic behavior of these materials and there are numerous efforts in the literature on the derivation and/or fitting of various forms of strainenergy functions, such as works of Mooney (1940), Blatz and Ko (1962), Yeoh (1993), Ogden (1972), Beatty (1987). Presenting precise constitutive model to describe hyperelastic behavior of rubber like material is the subject of a lot of researches in the recent years such as works by Anani and Alizadeh (2011), Bao et al (2003), Silva and Bittencourt (2008), Pereira and Bittencourt (2010), Pascon and Coda (2013), Coelho et al (2014), Santos et al (2015), Tomita et al (2008) and Barforooshi and Mohammadi (2016) As functionally graded rubber is the subject of this study it should be noted that graded rubber like materials were created by Ikeda et al (1998) in the laboratory for the first time, a while after these materials have attracted the attention of investigators for modeling these materials behavior under mechanical and geometrical boundary conditions. Some important and novel researches about analysis of inhomogeneous rubber like materials structures are presented in details by Bilgili (2003Bilgili ( ,2004, Batra (2006), Batra and Bahrami (2009), Rahimi (2015,2016).…”

Section: Introductionmentioning

confidence: 99%

On the stability of internally pressurized thick-walled spherical and cylindrical shells made of functionally graded incompressible hyperelastic material

Anani

Rahimi

2018

Lat. Am. j. solids struct.

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In this paper, stability analysis of thick-walled spherical and cylindrical shells made of functionally graded incompressible hyperelastic material subjected to internal pressure is presented. Instability point happens in the inflation of above mentioned shells and in this paper effect of material inhomogeneity and shell thickness has been investigated. Extended Ogden strain energy function with variable material parameter is used to model the material behavior. To model inhomogeneity, we assume that material parameter varies by a power law function in the radial direction and inhomogeneity factor is a power in the power law function. Analytical method is used to find the internal pressure versus hoop extension ratio relations in explicit form for both of cylindrical and spherical shells and the non-monotonic behavior of the inflation curves is studied. Following this, profile of inflation pressure versus hoop stretch is presented and effect of the inhomogeneity and shell thickness in the onset of instability is studied. The obtained results show that the material inhomogeneity parameter and shell thickness have a significant influence on the stability of above mentioned shells. Thus with selecting a proper material inhomogeneity parameter and shell thickness, engineers can design a specific FGM hollow cylinder that can meet some special requirements.

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“…Silva and Bittencourt (2008) used Mooney-Rivlin hyperelastic model in shape optimization of elastomeric media of an engine mount. Pereira and Bittencourt (2010) used the 2 parameter Mooney-Rivlin constitutive model in topological sensitivity analysis. Pearson and Pickering (2001) obtained the constants of Mooney-Rivlin model using axial tensile test and showed that using these constants, the static behavior of the elastomeric material is predicted well.…”

Section: Introductionmentioning

confidence: 99%

Predicting the dynamic material constants of Mooney-Rivlin model in broad frequency range for elastomeric components

Jahani

Mahmoodzade

2014

Lat. Am. j. solids struct.

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In this paper, dynamic material constants of 2-parameter Mooney-Rivlin model for elastomeric components are identified in broad frequency range. To consider more practical case, an elastomeric engine mount is used as the case study. Finite element model updating technique using Radial Basis Function neural networks is implemented to predict the dynamic material constants. Material constants of 2-parameter Mooney-Rivlin model are obtained by curve fitting on uni-axial stress-strain curve. The initial estimations of the material constants are achieved by using uni-axial tension test data. To ensure of the consistency of dynamic response of a real component, frequency response function of three similar engine mounts are extracted from experimental modal data and average of them used in the procedure. The results showed that this technique can successfully predict dynamic material constants of Mooney-Rivlin model for elastomeric components.

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Topological sensitivity analysis for a two-parameter Mooney-Rivlin hyperelastic constitutive model

Cited by 3 publications

References 31 publications

Sensitivity Analysis of the Waterproof Performance of Elastic Rubber Gasket in Shield Tunnel

Sensitivity Analysis of the Waterproof Performance of Elastic Rubber Gasket in Shield Tunnel

On the stability of internally pressurized thick-walled spherical and cylindrical shells made of functionally graded incompressible hyperelastic material

Predicting the dynamic material constants of Mooney-Rivlin model in broad frequency range for elastomeric components

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