Search results for: DIRECT SHELL FORMULATION

• An isogeometric finite element formulation for boundary and shell viscoelasticity based on a multiplicative surface deformation split

  Publication

  • K. Paul
  • R. Sauer

  - INTERNATIONAL JOURNAL FOR NUMERICAL METHODS IN ENGINEERING - Year 2022

  This work presents a numerical formulation to model isotropic viscoelastic material behavior for membranes and thin shells. The surface and the shell theory are formulated within a curvilinear coordinate system,which allows the representation of general surfaces and deformations. The kinematics follow from Kirchhoff–Love theory and the discretization makes use of isogeometric shape functions. A multiplicative split of the surface...

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• On the use of enhanced strain formulation in 6-field nonlinear shell theory with asymetric strain measures

  Publication

  • J. Chróścielewski
  • W. Witkowski

  - Year 2006

  W pracy zbadano możliwość zastosowania techniki wzbogaconych odkształceń do usunięcia zjawiska blokady w elementach skończonych opracowanych w ramach 6-parametrowej nieliniowej teorii powłok z niesymetrycznymi miarami odkształceń membranowych. Przedstawiono i porównano 4 warianty pol wzogacających odkształcenia

• Direct Response to Proton Beam Linear Energy Transfer (LET) in a Novel Polymer Gel Dosimeter Formulation

  Publication

  • O. Lopatiuk-Tirpak
  • Z. Su
  • Z. Li
  • O. Zeidan
  • S. Meeks
  • M. Maryanski
  • M. Maryański

  - TECHNOLOGY IN CANCER RESEARCH & TREATMENT - Year 2012

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• Application of Direct Current Atmospheric Pressure Glow Microdischarge Generated in Contact with a Flowing Liquid Solution for Synthesis of Au-Ag Core-Shell Nanoparticles

  Publication

  • A. Dzimitrowicz
  • P. Jamroz
  • M. Nyk
  • P. Pohl

  - Materials - Year 2016

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• Recent Achievements in Constitutive Equations of Laminates and Functionally Graded Structures Formulated in the Resultant Nonlinear Shell Theory

  Publication

  • S. Burzyński
  • J. Chróścielewski
  • K. Daszkiewicz
  • A. Sabik
  • B. Sobczyk
  • W. Witkowski

  - Year 2019

  The development of constitutive equations formulated in the resultant nonlinear shell theory is presented. The specific features of the present shell theory are drilling rotation naturally included in the formulation and asymmetric measures of strains and stress resultants. The special attention in the chapter is given to recent achievements: progressive failure analysis of laminated shells and elastoplastic constitutive relation...

• A general isogeometric finite element formulation for rotation‐free shells with in‐plane bending of embedded fibers

  Publication

  • T. X. Duong
  • M. Itskov
  • R. Sauer

  - INTERNATIONAL JOURNAL FOR NUMERICAL METHODS IN ENGINEERING - Year 2022

  This article presents a general, nonlinear isogeometric finite element formulation for rotation-free shells with embedded fibers that captures anisotropy in stretching, shearing, twisting, and bending - both in-plane and out-of-plane. These capabilities allow for the simulation of large sheets of heterogeneous and fibrous materials either with or without matrix, such as textiles, composites, and pantographic structures. The work...

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• Elastoplastic law of Cosserat type in shell theory with drilling rotation

  Publication

  • S. Burzyński
  • J. Chróścielewski
  • W. Witkowski

  - MATHEMATICS AND MECHANICS OF SOLIDS - Year 2015

  Within the framework of six-parameter non-linear shell theory, with strain measures of the Cosserat type, we develop small-strain J2-type elastoplastic constitutive relations. The relations are obtained from the Cosserat plane stress relations assumed in each shell layer, by through-the-thickness integration employing the first-order shear theory. The formulation allows for unlimited translations and rotations. The constitutive...

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• On the generalized model of shell structures with functional cross-sections

  Publication

  • S. Dastjerdi
  • M. Malikan
  • V. Eremeev
  • B. Akgöz
  • Ö. Civalek

  - COMPOSITE STRUCTURES - Year 2021

  In the present study, a single general formulation has been presented for the analysis of various shell-shaped structures. The proposed model is comprehensive and a variety of theories can be used based on it. The cross-section of the shell structure can be arbitrarily analyzed with the presented equations. In other words, various types of shell structures, including cylindrical, conical, spherical, elliptical, hyperbolic, parabolic,...

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• Equivalent 4-node enhanced assumed strain and hybrid stress shell elements in 6-parameter theory

  Publication

  • J. Chróścielewski
  • K. Daszkiewicz
  • W. Witkowski

  - Year 2014

  We discuss the equivalence of semi-enhanced assumed strain (EAS) and semi-hybrid stress (SEM) shell finite elements. We use the general nonlinear 6-field shell theory with kinematics composed of generalized displacements composed of the translation field and the rotation field. Due to the presence of rotation tensor the elements have naturally six nodal engineering degrees of freedom. We propose interpolation for a strain field...

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• Material Identification of the Human Abdominal Wall Based On the Isogeometric Shell Model

  Publication

  • B. Borzeszkowski
  • T. X. Duong
  • I. Lubowiecka
  • R. Sauer

  - Year 2020

  The human abdominal wall is an object of interest to the research community in the context of ventral hernia repair. Computer models require a priori knowledge of constitutive parameters in order to establish its mechanical response. In this work, the Finite Element Model Updating (FEMU) method is used to identify an heterogeneous shear modulus distribution for a human abdominal wall model, which is based on nonlinear isogeometric...