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Philipp Metsch

About Philipp Metsch

Philipp Metsch, With an exceptional h-index of 12 and a recent h-index of 11 (since 2020), a distinguished researcher at Technische Universität Dresden, specializes in the field of coupled problems, magneto-active materials, finite element method.

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

Multiscale modeling and simulation of magneto-active elastomers based on experimental data

Automated constitutive modeling of isotropic hyperelasticity based on artificial neural networks

A macroscopic model for magneto‐active elastomers based on microscopic simulations

Particle Interactions in Magneto‐Active Elastomers: Experiments and Simulations

Thermodynamically consistent constitutive modeling of isotropic hyperelasticity based on artificial neural networks

Benchmark for the coupled magneto-mechanical boundary value problem in magneto-active elastomers

Magneto-mechanical coupling in magneto-active elastomers

Field-induced interactions in magneto-active elastomers-A comparison of experiments and simulations

Philipp Metsch Information

University

Position

___

Citations(all)

590

Citations(since 2020)

495

Cited By

320

hIndex(all)

12

hIndex(since 2020)

11

i10Index(all)

12

i10Index(since 2020)

11

Email

University Profile Page

Google Scholar

Philipp Metsch Skills & Research Interests

coupled problems

magneto-active materials

finite element method

Top articles of Philipp Metsch

Title

Journal

Author(s)

Publication Date

Multiscale modeling and simulation of magneto-active elastomers based on experimental data

Karl A Kalina

Alexander Raβloff

Maximilian Wollner

Philipp Metsch

Jörg Brummund

...

2023/2/3

Automated constitutive modeling of isotropic hyperelasticity based on artificial neural networks

Computational Mechanics

Karl A Kalina

Lennart Linden

Jörg Brummund

Philipp Metsch

Markus Kästner

2022/1

A macroscopic model for magneto‐active elastomers based on microscopic simulations

PAMM

Karl A Kalina

Philipp Metsch

Jörg Brummund

Markus Kästner

2021/1

Particle Interactions in Magneto‐Active Elastomers: Experiments and Simulations

PAMM

Philipp Metsch

Henrik Schmidt

Karl A Kalina

Jörg Brummund

Günter K Auernhammer

...

2021/1

Thermodynamically consistent constitutive modeling of isotropic hyperelasticity based on artificial neural networks

International Journal of Solids and Structures

Debojyoti Panda

Subhajit Konar

Saumendra K Bajpai

A Arockiarajan

2018/5/1

Benchmark for the coupled magneto-mechanical boundary value problem in magneto-active elastomers

Materials

Philipp Metsch

Raphael Schiedung

Ingo Steinbach

Markus Kästner

2021/5/3

Magneto-mechanical coupling in magneto-active elastomers

Materials

Philipp Metsch

Dirk Romeis

Karl A Kalina

Alexander Raßloff

Marina Saphiannikova

...

2021/1/17

Field-induced interactions in magneto-active elastomers-A comparison of experiments and simulations

Smart Materials and Structures

Philipp Metsch

Henrik Schmidt

Dirk Sindersberger

Karl Alexander Kalina

Jörg Brummund

...

2020/7/7

A macroscopic model for magnetorheological elastomers based on microscopic simulations

International Journal of Solids and Structures

Karl A Kalina

Philipp Metsch

Jörg Brummund

Markus Kästner

2020/6/1

See List of Professors in Philipp Metsch University(Technische Universität Dresden)