Christian Linder

Stanford University

H-index: 31

North America-United States

About Christian Linder

Christian Linder, With an exceptional h-index of 31 and a recent h-index of 25 (since 2020), a distinguished researcher at Stanford University, specializes in the field of Computational Mechanics, Solid Mechanics, Micromechanics, Finite Elements, Homogenization.

His recent articles reflect a diverse array of research interests and contributions to the field:

Plane strain problem of flexoelectric cylindrical inhomogeneities

An analytical model for nanoscale flexoelectric doubly curved shells

Analysis of flexoelectric solids with a cylindrical cavity

Circular cavities and inhomogeneities in anti-plane flexoelectricity

A multiscale anisotropic polymer network model coupled with phase field fracture

A multiscale phase field fracture approach based on the non-affine microsphere model for rubber-like materials

SenseNet: A Physics-Informed Deep Learning Model for Shape Sensing

A better understanding of the mechanics of borehole breakout utilizing a finite strain gradient-enhanced micropolar continuum model

Christian Linder Information

University	Stanford University
Position	Professor of Computational Mechanics
Citations(all)	5954
Citations(since 2020)	4207
Cited By	3775
hIndex(all)	31
hIndex(since 2020)	25
i10Index(all)	53
i10Index(since 2020)	44
Email	Access Email
University Profile Page	Stanford University
Google Scholar	View Google Scholar Profile

Christian Linder Skills & Research Interests

Computational Mechanics

Solid Mechanics

Micromechanics

Finite Elements

Homogenization

Top articles of Christian Linder

Title	Journal	Author(s)	Publication Date
Plane strain problem of flexoelectric cylindrical inhomogeneities	International Journal of Solids and Structures	Jinchen Xie Christian Linder	2024/3/1
An analytical model for nanoscale flexoelectric doubly curved shells	Mathematics and Mechanics of Solids	Jinchen Xie Ryan McAvoy Christian Linder	2024/2
Analysis of flexoelectric solids with a cylindrical cavity	Journal of Applied Mechanics	Jinchen Xie Christian Linder	2024/1/1
Circular cavities and inhomogeneities in anti-plane flexoelectricity	European Journal of Mechanics-A/Solids	Jinchen Xie Christian Linder	2024/5/1
A multiscale anisotropic polymer network model coupled with phase field fracture	International Journal for Numerical Methods in Engineering	Prajwal Kammardi Arunachala Sina Abrari Vajari Matthias Neuner Jay Sejin Sim Renee Zhao ...	2024/4/5
A multiscale phase field fracture approach based on the non-affine microsphere model for rubber-like materials	Computer Methods in Applied Mechanics and Engineering	Prajwal Kammardi Arunachala Sina Abrari Vajari Matthias Neuner Christian Linder	2023/5/15
SenseNet: A Physics-Informed Deep Learning Model for Shape Sensing	Journal of Engineering Mechanics	Yitao Qiu Prajwal Kammardi Arunachala Christian Linder	2023/3/1
A better understanding of the mechanics of borehole breakout utilizing a finite strain gradient-enhanced micropolar continuum model	Computers and Geotechnics	M Neuner S Abrari Vajari PK Arunachala C Linder	2023/1/1
Highly stretchable polymer semiconductor thin films with multi-modal energy dissipation and high relative stretchability	Nature Communications	Hung-Chin Wu Shayla Nikzad Chenxin Zhu Hongping Yan Yang Li ...	2023/12/16
Investigation of driving forces in a phase field approach to mixed mode fracture of concrete	Computer Methods in Applied Mechanics and Engineering	Sina Abrari Vajari Matthias Neuner Prajwal Kammardi Arunachala Christian Linder	2023/12/1
Understanding thermal and mechanical effects on lithium plating in lithium-ion batteries	Journal of Power Sources	Yitao Qiu Xiaoxuan Zhang Camille Usubelli Daniel Mayer Christian Linder ...	2022/9/1
A unified finite strain gradient-enhanced micropolar continuum approach for modeling quasi-brittle failure of cohesive-frictional materials	International Journal of Solids and Structures	Matthias Neuner Richard A Regueiro Christian Linder	2022/11/1
A thermodynamically consistent finite strain phase field approach to ductile fracture considering multi-axial stress states	Computer Methods in Applied Mechanics and Engineering	Sina Abrari Vajari Matthias Neuner Prajwal Kammardi Arunachala Andy Ziccarelli Gregory Deierlein ...	2022/10/1
Modeling biological materials with peridynamics		Emma Lejeune Christian Linder	2021/1/1
Energy based fracture initiation criterion for strain-crystallizing rubber-like materials with pre-existing cracks	Journal of the Mechanics and Physics of Solids	Prajwal Kammardi Arunachala Reza Rastak Christian Linder	2021/12/1
A modified electrochemical model to account for mechanical effects due to lithium intercalation and external pressure	Journal of The Electrochemical Society	Xiaoxuan Zhang Markus Klinsmann Sergei Chumakov Xiaobai Li Sun Ung Kim ...	2021/2/19
Strain-insensitive intrinsically stretchable transistors and circuits	Nature Electronics	Weichen Wang Sihong Wang Reza Rastak Yuto Ochiai Simiao Niu ...	2021/2
Swelling-Induced Interface Crease Instabilities at Hydrogel Bilayers	Journal of Elasticity	Berkin Dortdivanlioglu Nil Ezgi Dincer Yilmaz KB Goh Xiaolin Zheng Christian Linder	2021/1/20
An electro-chemo-thermo-mechanical coupled three-dimensional computational framework for lithium-ion batteries	Journal of The Electrochemical Society	Xiaoxuan Zhang Sergei Chumakov Xiaobai Li Markus Klinsmann Sun Ung Kim ...	2020/12/23
Interpreting stochastic agent-based models of cell death	Computer Methods in Applied Mechanics and Engineering	Emma Lejeune Christian Linder	2020/3

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