Sarthok. K. Baruah       Sabyasachi Chatterjee          Amit Acharya           Gerald J. Wang

The application of molecular dynamics (MD) simulations to quasi-static loading is severely limited by the large separation between atomic vibration timescales and experimentally relevant deformation rates. In this work, we employ the Practical Time Averaging (PTA) framework to overcome this limitation and enable atomistic simulations of crystalline solids under quasi-static loading conditions. PTA exploits the intrinsic separation of time scales by defining slow variables as time-averaged observables of the fast atomistic dynamics and their evolution in the slow loading timescale, thereby avoiding explicit integration of the fast dynamics. Using this approach, we simulate uniaxial deformation, in both tension and compression, of (4 to 20) nanometer sized cubic specimens of face-centered cubic Aluminum nanocrystals and applied strain rates approaching quasi-static conditions (10^−4 s−1 − 10^−3 s−1).

GJR PUBLICATION & ICON PUBLISHERS - Journals for Publication 

All related journal information about both the GJR Publication & ICON Publishers are available on the attached poster. 

Please kindly see the attached poster for making publications in the journals of GJR Publication & ICON Publishers

The James T. Willerson Center for Cardiovascular Modeling and Simulation, Oden Institute, the University of Texas, has an immediate opening for highly motivated graduate research assistants to conduct novel studies on a novel family of gel-coated electrospun meshes for replacement heart valves.

I have an open position for a PhD student to start in the fall of 2026 to work on extending the Enriched Multiple Scales method (https://link.springer.com/article/10.1007/s11071-014-1508-9) to partial differential equations (PDEs).  Preference will go to students who already have an MS degree in either engineering, mathematics, or physics.

2 x PhD positions (36 months each) within the DN Marie Curie project Met2Adapt, funded by European Union, are available at the University of Trento (Italy) under my supervision. Secondment periods are planned at the project's partner institutions.

Starting date and duration: November 2026, 36 months duration

Application deadline: March 26, Italian noon, 2026

Please read the below description and, if interested,  apply online at the corresponding link.

There is an immediate opening for a self-motivated PhD student (Fall 2026/Spring 2027) in the Aerospace Structures Reliability Laboratory at Auburn University, working with Dr. Wen Luo on modeling the stochastic nonlinear behaviors of aerospace structures and materials. Prospective students are welcome to contact Dr. Wen Luo at w-luo [at] auburn.edu (w-luo[at]auburn[dot]edu).

Are you - or someone you know - interested in applying Video-Based 3D Human Kinematics Extraction/Pose Esitimation for Accident Reconstruction? We’re currently seeking motivated researchers to join us through the DigitalFuture Postdoctoral Fellowship Program in Stockholm to improve human safety!

https://www.digitalfutures.kth.se/call/up-to-ten-postdoc-fellows-in-technologies-for-digital-transformation-3/
 

Title: FEA Intern

Category: Internship in Industry

Employer: SLB

Location: Sugar Land, TX, USA

Opening Date: 3/1/2026

Intro 

On behalf of the organizing team for the “Injury and Damage Biomechanics” symposium that will take place at the 2026 ASME International Mechanical Engineering Congress and Exposition (IMECE) on November 8-12, 2026 in Vancouver Convention Centre, Vancouver, British Columbia, Canada, we invite you to consider submitting a full conference paper or a technical presentation.