Dear colleagues,

I'm happy to share a new article with you Polymer networks which locally rotate to acommodate stresses, torques, and deformations to be published in JMPS.

Title: Polymer networks which locally rotate to acommodate stresses, torques, and deformations

Author: Matthew Grasinger

Fully funded PhD positions are available in my group in the Mechanical Engineering department at University of Maryland, Baltimore County (UMBC). Successful applicants are expected to work on the development of innovative high performance computational methods, including reduced order modeling and scientific machine learning, for multi-scale modeling of additive manufacturing process and materials. Interested candidates that meet at least two of following requirements are encouraged to apply:

Deadline: 5th April 2023 !

I am looking to admit at least two PhD students in the broad area of Fracture Mechanics at the Department of Applied Mechanics, Indian Institute of Technology Delhi.

The problems we work on are fundamental in nature and utilize mathematics, atomistic simulations and experiments. More details may be found at https://web.iitd.ac.in/~gsingh/

Application deadline is 5^th April 2023. A background in solid mechanics is essential.

Dear Colleagues,

The PMDM/LERMPS group at the University of Technology of Belfort-MontBéliard in France is looking for a Ph.D. student to work in the field of experimental characterization and thermomechanical modeling of ferromagnetic materials. Candidate must have good writing skills and strong background on solid mechanics. Please refer to the attached file for more information.

Candidates will go through several recruitment processes and expected to provide further documents.

Thank you

S. MSOLLI

SES 2023 : Symposium 5.2 - Advances in Multiscale Modeling and Machine Learning in Nanomechanics 

ABSTRACT SUBMISSION (Click Here)

Description:

Authors - Prashant K. Jha, Timothy Breitzman, and Kaushik Dayal 

Journal - Archive for Rational Mechanics and Analysis 

Abstract

Dear friends, I want to share our recent work on the shape characteristics of 2D crystal blisters. Micro- and nano-sized blisters can form spontaneously when two-dimensional (2D) crystals are transferred onto substrates because liquid molecules that are initially adsorbed on 2D material and substrate surfaces can be squeezed and trapped by interfacial forces. On the one hand, blisters are undesirable in 2D material devices as they impede charge/photon/phonon transport across the interface, so various means were developed to eliminate interfacial blisters. On the other hand, m

We invite applications for post-doctoral and Ph.D. positions in machine learning, multi-physics simulation and uncertainty qualification for additive manufacturing processes. 

For additional information, please contact Prof. Xiaoping Qian (qian [at] engr.wisc.edu (qian[at]engr[dot]wisc[dot]edu)). To apply, email your application files (CV, 1-page summary of research accomplishments and research interests, and 3 references).

Dear Colleagues,