Computational and experimental simulations in engineering :: Proceedings of ICCES 2020.: Volume 1 /: Satya N. Atluri, Igor Vušanović, editors.

Atluri, Satya N.,; Vušanović, Igor,

doi:10.1007/978-3-030-64690-5

Computational and experimental simulations in engineering : Proceedings of ICCES 2020. Volume 1 / Satya N. Atluri, Igor Vušanović, editors.

International Conference on Computational and Experimental Engineering and Sciences (26th : 2021 : Phuket, Thailand); Atluri, Satya N., editor.; Vušanović, Igor, editor

2021

TA329

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Title Computational and experimental simulations in engineering : Proceedings of ICCES 2020. Volume 1 / Satya N. Atluri, Igor Vušanović, editors.

Meeting Name International Conference on Computational and Experimental Engineering and Sciences (26th : 2021 : Phuket, Thailand)

ISBN 9783030646905 (electronic bk.)
3030646904 (electronic bk.)
3030646890
9783030646899
9783030646912 (print)
3030646912
9783030646929 (print)
3030646920
9783030646899 (print)

DOI https://doi.org/10.1007/978-3-030-64690-5

Published Cham : Springer, 2021.

Language English

Description 1 online resource

Item Number 10.1007/978-3-030-64690-5 doi

Call Number TA329

Dewey Decimal Classification 620.001/51
621

Summary This book gathers the latest advances, innovations, and applications in the field of computational engineering, as presented by leading international researchers and engineers at the 26th International Conference on Computational & Experimental Engineering and Sciences (ICCES), held in Phuket, Thailand on January 6-10, 2021. ICCES covers all aspects of applied sciences and engineering: theoretical, analytical, computational, and experimental studies and solutions of problems in the physical, chemical, biological, mechanical, electrical, and mathematical sciences. As such, the book discusses highly diverse topics, including composites; bioengineering & biomechanics; geotechnical engineering; offshore & arctic engineering; multi-scale & multi-physics fluid engineering; structural integrity & longevity; materials design & simulation; and computer modeling methods in engineering. The contributions, which were selected by means of a rigorous international peer-review process, highlight numerous exciting ideas that will spur novel research directions and foster multidisciplinary collaborations.

Note International conference proceedings.
Includes author index.

Access Note Access limited to authorized users.

Digital File Characteristics text file
PDF

Added Author Atluri, Satya N., editor.
Vušanović, Igor, editor

Series Mechanisms and machine science ; v. 97. 2211-0984

Available in Other Form Print version: 9783030646899
Print version: 9783030646912
Print version: 9783030646929

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Intro
Preface
Contents
Influence of Ballast Track on Vertical Response of Multi-span Simply-Supported Bridges Under Railway Traffic
1 Introduction
2 Bridge Description and Numerical Model
2.1 Bridge Description
2.2 Numerical Model
3 Sensitivity Analysis over Track Parameters
4 Experimental Validation
4.1 Experimental Campaign Description
4.2 Structure Response Under Railway Traffic
5 Conclusions
References
Data-Driven Fluid Flow Simulations by Using Convolutional Neural Network
1 Introduction
2 Statement of Problem
3 SPH Formulation

4 CNN Architectures
5 Numerical Example
5.1 Dam-Breaking Fluid Flow Simulation
6 Conclusions
References
Ultralight Metallic/Composite Materials with Architected Cellular Structures
1 Introduction
2 Computational Approach
3 Ultralight Architected Cellular Metallic/Composite Materials
3.1 Metallic Octahedral Micro-architecture
3.2 Flexible Cuboct Carbon Fiber-Reinforced Polymer Composite
4 Conclusion
References
Spectroscopic Characterization and Molecular Dynamics Simulation of Tin Dioxide, Pristine and Functionalized Graphene Nanoplatelets
1 Introduction

1.1 Tin Dioxide (SnO2)
1.2 Graphene Nanoplatelets (GnPs)
2 Materials and Methods
2.1 Experimental
2.2 Computational and Simulation Method
3 Results and Discussion
3.1 Tin Dioxide (SnO2)
3.2 Graphene Nanoplatelets (GnPs)
4 Summary
References
Determination of Strength and Fracture Toughness from Indentation Tests in the Framework of Finite Fracture Mechanics
1 Introduction
2 Modelling Approach
3 Coupled Stress and Energy Criterion
4 Stress Criterion
5 Energy Criterion
6 Numerical Determination of the Energy Release Rate

3.2 Nonreflecting Outlet Boundary Condition
4 Test Cases
4.1 Viscous Open-Channel Flow with Prescribed Boundary Condition
4.2 Viscous Open-Channel Flow with Non-prescribed Boundary Condition
5 Conclusions
References
Study on Material Point Method with Different Influence Factors of Temperature
1 Introduction
2 The Material Point Method
2.1 Governing Equations
2.2 Discretization
2.3 The Steps of MPM Algorithm
3 Improved MPM
3.1 Material Softening Effect
3.2 Work of Plastic Deformations
3.3 Shock Temperature
3.4 Melting Point Affected by High Pressure

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