Alejandro Mota's blog

Extension: Call for abstracts, USNCCM 2023: Recent Advances in discretization techniques, element technology, and mesh adaptivity for inelasticity, localization, and failure

Submitted by Alejandro Mota on Tue, 01/24/2023 - 23:01

Dear colleagues and friends,

On the occasion of the 17th US National Congress on Computational Mechanics (USNCCM 2023, https://17.usnccm.org/) to be held in Albuquerque, New Mexico, USA on July 23-27, 2023, we are organizing the mini symposium

Recent Advances in discretization techniques, element technology, and mesh adaptivity for inelasticity, localization, and failure (MS 324)

Call for abstracts, USNCM 2023: Recent Advances in discretization techniques, element technology, and mesh adaptivity for inelasticity, localization, and failure

Submitted by Alejandro Mota on Fri, 01/06/2023 - 22:07

Dear colleagues and friends,

Recent Advances in discretization techniques, element technology, and mesh adaptivity for inelasticity, localization, and failure (MS 324)

Open Position: Applied Mechanics R&D Engineer at Sandia National Laboratories in Livermore, California

Submitted by Alejandro Mota on Thu, 06/11/2020 - 23:45

job

What Your Job Will Be Like

Call for abstracts, WCCM 2018 MS411: Concurrent multiscale modeling in solids and structures: coupling methods from micro to macro scales.

Submitted by Alejandro Mota on Wed, 12/20/2017 - 18:27

Dear colleagues and friends,

On the occasion of the 13th World Congress on Computational Mechanics (WCCM 2018, http://www.wccm2018.org) to be held in New York City on July 22-27, 2018, we are organizing the mini symposium

Concurrent multiscale modeling in solids and structures: coupling methods from micro to macro scales (MS 411).

Call for abstracts, WCCM 2018 MS411: Concurrent multiscale modeling in solids and structures: coupling methods from micro to macro scales.

Submitted by Alejandro Mota on Mon, 10/16/2017 - 20:54

Materials such as metals, metal alloys, ceramics, glass, sands, soils, and others develop very fine regions of concentrated strain or stress when subject to certain loading conditions. These regions are manifested at the micro scale and may lead to the eventual fracture and failure of systems and structures. The ability to model these phenomena is of critical significance in engineering applications.

2nd Call for Abstracts: USNCCM13 Minisymposium 414 on Recent Advances in Mesh Adaptivity for Inelasticity, Damage, Crack Propagation and Failure.

Submitted by Alejandro Mota on Tue, 02/03/2015 - 23:38

In this minisymposium we seek to highlight challenging problems in computational solid mechanics that require mesh adaptation methods for their solution. We focus on the finite element method and works that address large deformations and the accompanying inelasticity, damage, crack propagation and failure. Discussion will center on Lagrangian descriptions and determining the necessary computational components to resolve, preserve, and evolve the fields that govern these processes. Prototypical material systems may include, but are not limited to, ductile metals and biomaterials.

Postdoctoral Appointee – Computational Mechanics - Sandia National Laboratories – Livermore, CA

Submitted by Alejandro Mota on Tue, 01/13/2015 - 21:42

About Sandia

Sandia National Laboratories is the nation's premier science and engineering lab for national security and technology innovation. We are a world-class team of scientists, engineers, technologists, post docs, and visiting researchers all focused on cutting-edge technology, ranging from homeland defense, global security, biotechnology, and environmental preservation to energy and combustion research, computer security, and nuclear defense.

To learn more, visit http://www.sandia.gov.