Micromechanical progressive failure analysis of fiber-reinforced composite using refined beam models

Progressive Failure of a Unidirectional Fiber-reinforced Composite Using the Method of Cells: Discretization Objective Computational Results

Evan J. Pineda
Brett A. Bednarcyk
Anthony M. Waas
Steven M. Arnold

October 2016

The smeared crack band theory is implemented within the generalized method of cells and high-fidelit...

DAMAGE PROGRESSION IN composite materials and structures is, ingeneral, very complicated and involves multipl...

T. E. Tay
G. Liu
A. Yudhanto
V. B. C. Tan

September 2016

ABSTRACT: Modeling progressive damage in composite materials and structures poses considerable chall...

Component-Wise Method for Macro-Meso-Micro Modeling and Failure Analysis of Composite Structures

E. Carrera
A. Pagani
M. Petrolo
A. G. De Miguel
I. Kaleel

January 2017

The work assesses the advanced capabilities of the Component-Wise approach (CW) to model composite s...

Micromechanical progressive failure analysis of fiber-reinforced composite using refined beam models

Kaleel I.
Petrolo M.
Carrera E.
Waas A. M.

January 2017

An efficient and novel micromechanical computational platform for progressive failure analysis of fi...

Micromechanical Progressive Failure Analysis of Fiber-Reinforced Composite Using Refined Beam Models

I. Kaleel
M. Petrolo
A. M. Waas
E. Carrera

January 2018

An efficient and novel micromechanical computational platform for progressive failure analysis of fi...

Efficient High-Fidelity Two-Scale Computational Model for Progressive Failure Analysis of Fiber Reinforced Composites via Refined Beam Models

Kaleel, Ibrahim
Petrolo, Marco
Carrera, Erasmo
Waas, A.M.

January 2017

An efficient high-fidelity two-scale computational model for progressive failure analysis of fiber r...

Efficient High-Fidelity Two-Scale Computational Model for Progressive Failure Analysis of Fiber Reinforced Composites via Refined Beam Models

KALEEL, IBRAHIM
PETROLO, MARCO
CARRERA, Erasmo
Waas, A. M.

January 2017

An efficient high-fidelity two-scale computational model for progressive failure analysis of fiber r...

Fast two-scale computational model for progressive damage analysis of fiber reinforced composites

Kaleel, Ibrahim
Maiarù, Marianna
Petrolo, Marco
Carrera, Erasmo
Waas, Anthony

January 2017

A fast two-scale finite element framework based on refined finite beam models for progressive damage...

Elastoplastic and progressive failure analysis of fiber-reinforced composites via an efficient nonlinear microscale model

KALEEL, IBRAHIM
M. Petrolo
E. Carrera

January 2018

This paper presents numerical results concerning the nonlinear and failure analysis of fiber-reinfor...

Fast two-scale computational model for progressive damage analysis of fiber reinforced composites

KALEEL, IBRAHIM
MAIARU', MARIANNA
PETROLO, MARCO
CARRERA, Erasmo
Waas, Anthony

January 2017

A fast two-scale finite element framework based on refined finite beam models for progressive damage...

A Multiscale Framework for the Progressive Damage Analysis of Fiber-Reinforced Composites Using a Component-Wise Approach

M. H. Nagaraj
E. Carrera
M. Petrolo

January 2020

The objective of the current work is the development of a multiscale numerical platform for the ana...

Progressive Damage Analysis of Composite Structures via The one-dimensional Carrera Unified Formulation

CARRERA, Erasmo
KALEEL, IBRAHIM
PETROLO, MARCO

January 2016

This paper presents a progressive damage model of composite structures based on refined one-dimensio...

Progressive Damage Analysis of Composite Structures via The one-dimensional Carrera Unified Formulation

Carrera, Erasmo
Kaleel, Ibrahim
Petrolo, Marco

January 2016

This paper presents a progressive damage model of composite structures based on refined one-dimensio...

Computationally-efficient multiscale models for progressive failure and damage analysis of composites

Kaleel, Ibrahim
Carrera, Erasmo
Petrolo, Marco
Waas, Anthony M

January 2019

A class of computationally-efficient tools to undertake progressive failure and damage analysis of c...

Numerical Simulation of Failure in Fiber Reinforced Composites

CARRERA, Erasmo
KALEEL, IBRAHIM
PETROLO, MARCO

January 2017

This paper presents numerical results concerning the failure analysis of fiber-reinforced composites...

Progressive Failure of a Unidirectional Fiber-reinforced Composite Using the Method of Cells: Discretization Objective Computational Results

Evan J. Pineda
Brett A. Bednarcyk
Anthony M. Waas
Steven M. Arnold

October 2016

The smeared crack band theory is implemented within the generalized method of cells and high-fidelit...

DAMAGE PROGRESSION IN composite materials and structures is, ingeneral, very complicated and involves multipl...

T. E. Tay
G. Liu
A. Yudhanto
V. B. C. Tan

September 2016

ABSTRACT: Modeling progressive damage in composite materials and structures poses considerable chall...

Component-Wise Method for Macro-Meso-Micro Modeling and Failure Analysis of Composite Structures

E. Carrera
A. Pagani
M. Petrolo
A. G. De Miguel
I. Kaleel

January 2017

The work assesses the advanced capabilities of the Component-Wise approach (CW) to model composite s...

Micromechanical progressive failure analysis of fiber-reinforced composite using refined beam models

Kaleel I.
Petrolo M.
Carrera E.
Waas A. M.

January 2017

An efficient and novel micromechanical computational platform for progressive failure analysis of fi...

Micromechanical Progressive Failure Analysis of Fiber-Reinforced Composite Using Refined Beam Models

I. Kaleel
M. Petrolo
A. M. Waas
E. Carrera

January 2018

An efficient and novel micromechanical computational platform for progressive failure analysis of fi...

Efficient High-Fidelity Two-Scale Computational Model for Progressive Failure Analysis of Fiber Reinforced Composites via Refined Beam Models

Kaleel, Ibrahim
Petrolo, Marco
Carrera, Erasmo
Waas, A.M.

January 2017

An efficient high-fidelity two-scale computational model for progressive failure analysis of fiber r...

Efficient High-Fidelity Two-Scale Computational Model for Progressive Failure Analysis of Fiber Reinforced Composites via Refined Beam Models

KALEEL, IBRAHIM
PETROLO, MARCO
CARRERA, Erasmo
Waas, A. M.

January 2017

An efficient high-fidelity two-scale computational model for progressive failure analysis of fiber r...

Fast two-scale computational model for progressive damage analysis of fiber reinforced composites

Kaleel, Ibrahim
Maiarù, Marianna
Petrolo, Marco
Carrera, Erasmo
Waas, Anthony

January 2017

A fast two-scale finite element framework based on refined finite beam models for progressive damage...

Elastoplastic and progressive failure analysis of fiber-reinforced composites via an efficient nonlinear microscale model

KALEEL, IBRAHIM
M. Petrolo
E. Carrera

January 2018

This paper presents numerical results concerning the nonlinear and failure analysis of fiber-reinfor...

Fast two-scale computational model for progressive damage analysis of fiber reinforced composites

KALEEL, IBRAHIM
MAIARU', MARIANNA
PETROLO, MARCO
CARRERA, Erasmo
Waas, Anthony

January 2017

A fast two-scale finite element framework based on refined finite beam models for progressive damage...

A Multiscale Framework for the Progressive Damage Analysis of Fiber-Reinforced Composites Using a Component-Wise Approach

M. H. Nagaraj
E. Carrera
M. Petrolo

January 2020

The objective of the current work is the development of a multiscale numerical platform for the ana...

Progressive Damage Analysis of Composite Structures via The one-dimensional Carrera Unified Formulation

CARRERA, Erasmo
KALEEL, IBRAHIM
PETROLO, MARCO

January 2016

This paper presents a progressive damage model of composite structures based on refined one-dimensio...

Progressive Damage Analysis of Composite Structures via The one-dimensional Carrera Unified Formulation

Carrera, Erasmo
Kaleel, Ibrahim
Petrolo, Marco

January 2016

This paper presents a progressive damage model of composite structures based on refined one-dimensio...

Computationally-efficient multiscale models for progressive failure and damage analysis of composites

Kaleel, Ibrahim
Carrera, Erasmo
Petrolo, Marco
Waas, Anthony M

January 2019

A class of computationally-efficient tools to undertake progressive failure and damage analysis of c...

Numerical Simulation of Failure in Fiber Reinforced Composites

CARRERA, Erasmo
KALEEL, IBRAHIM
PETROLO, MARCO

January 2017

This paper presents numerical results concerning the failure analysis of fiber-reinforced composites...

Progressive Failure of a Unidirectional Fiber-reinforced Composite Using the Method of Cells: Discretization Objective Computational Results

Evan J. Pineda
Brett A. Bednarcyk
Anthony M. Waas
Steven M. Arnold

October 2016

The smeared crack band theory is implemented within the generalized method of cells and high-fidelit...

DAMAGE PROGRESSION IN composite materials and structures is, ingeneral, very complicated and involves multipl...

T. E. Tay
G. Liu
A. Yudhanto
V. B. C. Tan

September 2016

ABSTRACT: Modeling progressive damage in composite materials and structures poses considerable chall...

Component-Wise Method for Macro-Meso-Micro Modeling and Failure Analysis of Composite Structures

E. Carrera
A. Pagani
M. Petrolo
A. G. De Miguel
I. Kaleel

January 2017

The work assesses the advanced capabilities of the Component-Wise approach (CW) to model composite s...

Micromechanical progressive failure analysis of fiber-reinforced composite using refined beam models

Abstract

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Micromechanical progressive failure analysis of fiber-reinforced composite using refined beam models

Abstract

Extracted data

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