In this paper, we formulate a geometric theory of the mechanics of arterial growth. An artery is modeled as a finite-length thick shell that is made of an incompressible nonlinear anisotropic solid. An initial radially-symmetric distribution of finite radial and circumferential eigenstrains is also considered. Bulk growth is assumed to be isotropic. A novel framework is proposed to describe the time evolution of growth, governed by a competition between the elastic energy and a growth energy.

NOSA-ITACA is a finite element software designed to study the static and dynamic behavior of masonry buildings with historical and architectural significance, as well as to model the effectiveness of strengthening interventions. 

You can use NOSA-ITACA by downloading the pre-configured virtual machine at www.nosaitaca.it/software/ and importing it into Oracle VirtualBox.

In this paper we study universal deformations in anisotropic Cauchy elasticity. We show that the universality constraints of hyperelasticity and Cauchy elasticity  for transversely isotropic, orthotropic, and monoclinic solids are equivalent. This implies that for each of these symmetry classes the universal deformations and the corresponding universal material preferred directions of hyperelastic and Cauchy elastic solids are identical. This is consistent with previous findings for isotropic solids.

As part of an ongoing MURI we are seeking a Postdoc in the computational continuum mechanics of fracture. The postdoc will interact with experimentalists doing impact testing of composite samples.  A computational knowledge of peridynamics is desired. The position is renewable for up to three years. The position would start August 1, 2026. 

Contact R. Lipton at lipton [at] lsu.edu

We currently have a postdoctoral research position available in the Injury Biomechanics Laboratory at Robert Morris University in Pittsburgh, PA. This position involves the development of high-fidelity finite element head models and the design of computational studies to advance our understanding of blast and impact-induced traumatic brain injury (TBI). 

Start Date: Spring, Summer, or Fall 2026
School of Packaging, Michigan State University
https://www.canr.msu.edu/packaging/about_the_school/

📢 Call for Abstracts 📢
Mini symposium Applications of Advanced Numerical Analyses in Oil and Gas Industry, WCCM-ECCOMAS 2026 
 
Organizers: Allan Zhong (Halliburton), Amandine Battentier (SLB), Haitao Zhang (SLB)
 
I’m excited to announce that our mini symposium proposal has been accepted for the upcoming WCCM-ECCOMAS 2026 Congress that will be held in Munich, Germany from 19-24 July 2026! 🎉