One postdoc position within the field of biomechanical modeling/biomedical engineering for the cardiovascular system is available at Department of Structural Engineering at NTNU, Trondheim, Norway. The position will be organized under the cardiovascular modeling project headed by professor Leif Rune Hellevik in the Biomechanics group.
EML Vol 19 is out, with 7 papers. It is quite fascinating just to read the titles! There are papers on mech behaviors due to interactions within complex structures such as nanofibers in vesicles (cover), novel structures with hierarchically synchronized deformations, and mechanochemically augmented composites. There are studies of cool materials from twinning phosphorene to single layer borophene. And there are papers on methods (full-volume displacement mapping with dualMRI) and device (triboelectric generator). Can’t wait to read the content!
We are pleased to announce the invited speakers for the 4th International Conference on BioTribology (ICoBT 2018), which will take place 26-29 September 2018 in Montreal, Canada.
The aim of the ICoBT meetings is to bring together researchers from across the scientific, clinical and engineering spectrum, to promote communication across the different disciplines and to provide a platform for the presentation of new work in one meeting focused solely on Biotribology.
National Physical Laboratory, Teddington, UK
The interaction between electromagnetic fields (EM) and the human body are being exploited in clinical and biomedical applications. Electromagnetic medical devices are used for diagnosis as well therapy. This NAFEMS seminar brings together EM software communities to discuss the topic of bio electromagnetics; current trends in EM simulation, exposure to EM fields, and applications of EM field for both therapy and detection.
Simpleware at BioEM - attend the Simpleware Presentation
Dear all,
Our group at TU Delft has recently published two articles dealing with use of numerical fracture models for design of capsule carriers for their use in self healing concrete.
For design of tubular capsules: https://www.researchgate.net/publication/311861983_Simulation-Aided_Des…
The Institute for General Material Properties of the Friedrich-Alexander Universität Erlangen-Nürnberg (FAU) is inviting applications for a group leader in the area of Computational Materials Science. The Materials Modeling Group conducts research into the elementary defects of the crystalline lattice and on how their organization and interaction influence the mechanical properties and failure of metallic materials.
We have a permanent position (equiv. Associate/Full Professor) opening in the field of Computational Mechanics of Materials and Structures.
Location: Centre des Materiaux, MINES ParisTech, Paris/Evry, France. All details are in the attached file.
Applications are invited for three PhD and two postdoc positions in the area of computational mechanics of materials at the University of Padova, Italy.
The successful candidates will work at building a multiscale model for the study of contact, friction and solid lubrication between metal surfaces, sponsored by an ERC consolidator grant.
This video gives a basic overview of the most fundamental hardening models of plasticity, which are the isotropic and kinematic hardening
Hope this helps!
- Prithivi
Structural hierarchy through self-assembly
Architected materials with nano and microscale features can have extraordinarily high strength, stiffness, and toughness per weight. Two well-known biological materials with these characteristics are nacre (mother of pearl)1 and the claw of the mantis shrimp.2 These materials are made of up periodic arrangements of hard domains interspersed with soft matter (Fig. 1). Structural hierarchy exists at different length scales, and varies spatially across the material.
