Students often have a tough time understanding the crack driving force in an elementary course on fracture mechanics.
A recent free access article has been published on a fluid analogy to the crack driving force and the Riabouchinsky free streamline problem for ideal fluid flow around two plates. Hopefully this analogy can aid in the visualization.
The URL where this article can be downloaded is found at 10.1515/jmbm-2019-0011
The Materials Theory Group at the School of Materials Engineering of Purdue University has a post-doctoral opening in the area of modeling of thermal transport in crystalline solids. The postdoc will use Boltzmann Transport Equation approach to investigate the phonon and electron thermal transport in crystalline solids with defects. Applicants with closely related theory background in physics, materials science, mechanical engineering, or other majors are encouraged to apply. The ideal candidate is one who is strongly interested in the fundamental concepts of thermal transport and related computational modeling, and must have excellent programming skills. To apply, please send a curriculum vita with list of publications and the names and contact information of two references to Professor Anter El-Azab (aelazab [at] purdue.edu). The cover letter should explain the relevance of the applicant background to the postdoc research topic above. This position is part of the DOE funded Energy Frontiers Research Center for Thermal Energy Transport under Irradiation (TETI), and the postdoc is expected to collaborate with a large team of theorists and experimentalists. The position is available now and will remain open until filled.
The Materials Theory Group at the School of Materials Engineering of Purdue University has a post-doctoral opening in the area of modeling of thermal transport in crystalline solids. The postdoc will use Boltzmann Transport Equation approach to investigate the phonon and electron thermal transport in crystalline solids with defects. Applicants with closely related theory background in physics, materials science, mechanical engineering, or other majors are encouraged to apply. The ideal candidate is one who is strongly interested in the fundamental concepts of thermal transport and related computational modeling, and must have excellent programming skills. To apply, please send a curriculum vita with list of publications and the names and contact information of two references to Professor Anter El-Azab (aelazab [at] purdue.edu). The cover letter should explain the relevance of the applicant background to the postdoc research topic above. This position is part of the DOE funded Energy Frontiers Research Center for Thermal Energy Transport under Irradiation (TETI), and the postdoc is expected to collaborate with a large team of theorists and experimentalists. The position is available now and will remain open until filled.
I attach the slides of my talks at last week’s MRS meeting in Boston on two topics:
Fatigue-resistant stretchable materials
Integrated soft materials
Advances on these topics made by several groups break grounds and likely reach far. The available time limited my talks to recent works of my own group and collaborators. The slides may serve as a graphical reminder of papers to check out. Several recent reviews may help to connect to broad literature.
The Executive Committee of the ASME Applied Mechanics Division is pleased to announce and congratulate Professor Pol D. Spanos, Lewis B. Ryon Professor in Mechanical & Civil Engineering, Professor of Materials Science and NanoEngineering, Rice University, as the recipient of the 2020 Thomas K. Caughey Dynamics Award. This award includes a medal, a certificate, and an honorarium.
The Executive Committee of the ASME Applied Mechanics Division is pleased to announce and congratulate Professor Narayana R. Aluru, Richard W. Kritzer Distinguished Professor of Mechanical Science and Engineering, University of Illinois at Urbana-Champaign, as recipient of the 2020 Ted Belytschko Applied Mechanics Division Award. This award includes a medal, a certificate, and an honorarium.
The Executive Committee of the ASME Applied Mechanics Division is pleased to announce and congratulate Professor Xuanhe Zhao, Associate Professor of Mechanical Engineering, Massachusetts Institute of Technology, as the recipient of the 2020 Thomas J. R. Hughes Young Investigator Award. This award includes a medal, a certificate, and an honorarium.
Dear Colleagues,
We would like to cordially invite you to the Computational Geomechanics mini-symposium at the ASCE EMI 2020 Conference, which will take place on May 26–29, 2020 at Columbia University in NYC. The abstract submission is now open until January 15, 2020 (Link: https://submissions.emi2020.org). The mini-symposium description is given below:
Position description: Four postdoctoral research fellows and two PhD positions are now open for ERC Starting Grant wth focus on nano energy harvester. The project is financially supported by ERC Starting Grant from Horizon2020.
Topic
Machine learning-based approaches for modeling and numerical simulation of advanced materials.
Preferred background
Bachelor and/or Master Degrees in Mechanics and/or Material Science.
Strong multidisciplinary background with interest and experience in:
Machine learning, Artificial intelligence, Deep learning;
Material characterization, Microstructure analysis, Mechanics of materials;
Computer programming, Parallel and/or distributed computing.
To apply
