Ido Meshi
PhD Student
Ido’s research focused on composite materials included experimental work and computational micromechanics. In his master’s thesis on soft polymeric laminated composites, non-standard experiments were developed and validated to characterize non-linear mechanical behavior and interlaminar damage. In his Ph.D. research, the PHFGMC model framework was extended to address non-linear elastic materials as well as the formulation and implementation of advanced damage models, i.e., traction-separation cohesive laws, and phase-field.
List of publications:
• Meshi I., Breiman U., Aboudi J., Haj-Ali R.: The cohesive parametric high-fidelity-generalized-method-of-cells micromechanical model. International Journal of Solids and Structures, 2020
• Meshi I., Levi-Sasson A., Breiman U., Haj-Ali R.: The Parametric HFGMC Micromechanical Model for Soft UHMWPE Laminated Composites, Mechanics of Materials, 2020
• Meshi I., Breiman U., Aboudi J., Haj-Ali R.: Cohesive Parametric High-Fidelity-Generalized-Method-of-Cells Micromechanical Model, Proceedings of the American Society for Composites—Thirty-fourth Technical Conference, 2019
• Meshi I., Amarilio I., Benes D., Haj-Ali R.: Delamination Behavior of UHMWPE Soft Layered Composites, Composites Part B: Engineering, 2016
• Hochster H., Bernikov Y., Meshi I., Lin S., Ranatunga V., Waas A. M., Shemesh N.: Refined Nonlinear Micromechanical Models using Artificial Neural Networks for Multiscale Analysis of Laminated Composites Subject to Low-Velocity Impact, IJSS 2023
• Breiman, U., Meshi, I., Aboudi, J. et al. Finite strain PHFGMC micromechanics with damage and failure. Acta Mech 2022.
• Faupel, A., Meshi, I., & Oskay, C.: Reduced order multiscale model for compression kink-band failure in composites. Journal of Composite Materials, 2022
• Breiman, U., Meshi, I., Aboudi, J., Haj-Ali, R.: Finite strain parametric HFGMC micromechanics of soft tissues. Biomechanics and Modeling in Mechanobiology, 2020
• Breiman U., Meshi I., Grimberg M., Aboudi J., Haj-Ali R.:Strength Reduction of Unidirectional Composites Using Micromechanical Damage Analysis of Scanned Microstructure, Proceedings of the American Society for Composites—Thirty-fourth Technical Conference, 2019
• Massarwa E., Meshi I., Aboudi J., Haj-Ali R.: Multiscale Progressive Damage Analyses for Fiber Reinforced Composites Subjected to Biaxial Loading, Proceedings of the American Society for Composites—Thirty-Third Technical Conference on Composite Materials. Seattle, WA, 2018.
• Atrash, F., Meshi, I., Krokhmal, A., Ryan, P., Wormington, M., & Sherman, D.: Crystalline Damage in Silicon Wafers And 'Rare Event' Failure Introduced by Low-Energy Mechanical Impact, Materials Science in Semiconductor Processing, 2017
• Levi-Sasson, A., Meshi, I., Mustacchi, S., Amarilio, I., Benes, D., Favorsky, V., Eliasy, R., Aboudi, J. and Haj-Ali, R.: Experimental Determination of Linear and Nonlinear Mechanical Properties of Laminated Soft Composite Material System, Composites Part B: Engineering, 2014
Education
03/2018 – (expected 06/2024): Ph.D. Tel Aviv University, Tel Aviv, Israel
Tel Aviv University, School of Mechanical Engineering, Tel Aviv, Israel
Thesis: "Advanced Damage Modeling with the Parametric-High-Fidelity-Generalized-Method-of-Cells (PHFGMC) Micromechanical Model for Fiber-Reinforced-Composites"
09/2011 – 11/2013: M.Sc. Tel Aviv University, Tel Aviv, Israel
Tel Aviv University, School of Mechanical Engineering, Tel Aviv, Israel
Thesis: "Mechanical Behavior and Delamination of Layered Composite Materials"
Related Coursework: Finite Element Analysis, Numerical Engineering Mechanical Metallurgy, Modern Materials, Continuum Mechanics, Composite Materials
Teaching Assistant 2011-2012 for Intro Statistics and Mechanical Behavior of Material
10/2009 – 06/2012: B.Sc. Tel Aviv University, Tel Aviv, Israel
Tel Aviv University, School of Mechanical Engineering, Tel Aviv, Israel
Advanced Coursework: Finite Elements, Structures Analysis, Elasticity, Composites, Robotics, Material Science
Accelerated M.Sc. program
Awards and Scholarships
Accelerated Master's program, Tel Aviv University, 2011-2013
Conferences
Oral Presentations:
Meshi I., Breiman U., Haj-Ali R.: The Parametric High-Fidelity-Generalized-Method-of-Cells (PHFGMC) Micromechanical Model for Compression Failure of FRP Composites, WCCM-ECCOMAS 2020
Meshi I., Faupel A., Oskay C.: A Multiscale Nonlocal Fiber Kinking Model for Carbon-Fiber Composites Under Compression Based on The Symmetric Eigendeformation-Based Homogenization Method, International Mechanical Engineering Congress & Exposition (IMECE), Salt Lake City, Utah, 2019
Meshi I., Breiman U., Haj-Ali R.: Refined Cohesive Micromechanics for Multi-Site Progressive Damage and Crack Growth, International Mechanical Engineering Congress & Exposition (IMECE), Salt Lake City, Utah, 2019
Meshi I., Breiman U., Haj-Ali R.: Cohesive Parametric HFGMC Micromechanical Modeling of Damage Evolution in Composites, American Society for Composites—Thirty-fourth Technical Conference, Atlanta, Georgia, 2019