Profs. Michael Shields and Lori Graham-Brady at Johns Hopkins University are seeking a postdoctoral scholar for a joint collaborative program on uncertainty quantification of mechanical property predictions based on data-driven and/or machine learning models. In the short term, the focus of this project will be on developing UQ tools for Deep Neural Network models that connect image data to material properties. In the longer term this is expected to expand to a spectrum of ML and other data-driven models.

The Max-Planck-Institut für Eisenforschung as part of the MatWerk consortium (https://nfdi-matwerk.de) 

Please see the MPIE website for the job description & online application

During the period of October 3 - 7, the course "MECHANICS OF STRONGLY INHOMOGENEOUS MULTI-COMPONENT AND MULTI-LAYERED STRUCTURES" will be held at CISM, Italy. The course is offered in a hybrid format giving the possibility to attend the course also by remote (on Microsoft Teams platform).

Dear members of iMechanica,

The first overlay diamond open access journal in Mechanics, the Journal of Theoretical, Computational and Applied Mechanics https://jtcam.episciences.org aims to select publications of the highest scientific caliber in the form of either original research or review in Solid Mechanics. 

We are searching for new handling editors, especially, in South East Asia, India, South America and Africa for a renewable position of 4 years

In linear elasticity, universal displacements for a given symmetry class are those displacements that can be maintained by only applying boundary tractions (no body forces) and for arbitrary elastic constants in the symmetry class. In a previous work, we showed that  the larger the symmetry group, the larger the space of universal displacements. Here, we generalize these ideas to the case of anelasticity. In linear anelasticity, the total strain is additively decomposed into elastic strain and anelastic strain, often referred to as an eigenstrain.

The LS2P laboratory (from its French name, Laboratoire des Systèmes Portés par la Personne ) develops non-invasive devices for measuring physiological parameters such as heart rate, oxygen saturation or blood pressure. A strong integration is a key factor from the design stage of the sensors. This allows them to be integrated into bracelets, patches or headbands to make them compatible with their daily use.

The NVH and Experimental Mechanics Laboratory (NVHEM) at Kettering University invites applications for an immediate visiting scholar position to help in developing a nonlinear model for multibody simulations. The project is sponsored by one of the major automakers in Michigan.

In this work, a new mixed finite element formulation is presented for the analysis of two-dimensional compressible solids in finite strain regime. A three-field Hu-Washizu functional, with displacement, displacement gradient and stress tensor considered as independent fields, is utilized to develop the formulation in spatial configuration. Certain constraints are imposed on displacement gradient and stress tensor so that they satisfy the required continuity conditions across the boundary of elements.

The objective of GISTEAMMM is to characterize the grain structure generated by laser powder bed fusion (L-PBF) process at track scale: one track or single wall with several tracks, in which the grain structures will be obtained by both experiment and thermo-metallurgical-mechanical modelling. The anisotropic elastic-viscoplastic material laws at grain levels are expected to be extracted by considering the influence of inherent residual stress generated during printing process.