Blog posts
Laser manipulated wrinkling patterns
Smart soft materials, because of their mechanical flexibility and quick response to multi-physics stimuli, have drawn considerable attention over the past few years. Here, we present controllable wrinkling patterns of a liquid crystal polymer film attached on a soft substrate, controlled by laser illumination that holds unique optical characteristics of high coherence and irradiance.
NOSA-ITACA code now runs on UBUNTU 18.04
Running NOSA on Ubuntu 18.04 is not (yet) officially supported, but you may use the package for Ubuntu 16.04, as indicated at
http://www.nosaitaca.it/software/
See also the prevoius post about it ! Enjoy !
Random fiber networks with inclusions: The mechanism of reinforcement
The mechanical behavior of athermal random fiber networks embedding particulate inclusions is studied in this work. Composites in which the filler size is comparable with the mean segment length of the network are considered. Inclusions are randomly distributed in the network at various volume fractions, and cases in which fibers are rigidly bonded to fillers and in which no such bonding is imposed are studied separately. In the presence of inclusions, the small strain modulus increases, while the ability of the network to strain stiffen decreases relative to the unfilled network case.
Load Calculator
In our industry, equipment, including universal testing machines and grips and fixtures, are categorized by the maximum force capacity. We have generated an automatic load calculator to help calculate the required forces necessary to test a certain type of material. The calculator can be found here: https://www.admet.com/calculators/load-calculator/
To use the calculator:
1- Select the specimen geometry. Options include: rectangular, round, tubular, by area.
Continuum mechanics of moving defects in growing bodies
Amit Acharya Shankar Venkataramani
(In Materials Theory)
Growth processes in many living organisms create thin, soft materials with an intrinsically hyperbolic
geometry. These objects support novel types of mesoscopic defects - discontinuity lines
for the second derivative and branch points - terminating defects for these line discontinuities.
These higher-order defects move "easily", and thus confer a great degree of
flexibility to thin hyperbolic elastic sheets. We develop a general, higher-order, continuum mechanical framework
from which we can derive the dynamics of higher order defects in a thermodynamically consistent
manner. We illustrate our framework by obtaining the explicit equations for the dynamics
of branch points in an elastic body.
PhD Position (Embrittlement Cutting of Structural Steel and Alloys)
We are looking for a PhD student which is fully funded for EU/UK student.
Available PhD position at the Division of Mechanics at Lund University
The Division of Mechanics at Lund University, Sweden, invites highly motivated and creative applicants for a PhD position oriented towards multiscale modelling of yielding and failure of materials subjected to harsh conditions in energy applications (e.g. components in fusion reactors, battery components, etc.). The research program focuses on improving the understanding of the yielding and failure mechanisms, with the ultimate goal to develop atomistically-informed continuum-based theoretical and computational models to predict yielding and failure in energy materials.
10th Int.Conf. on Multiscale Materials Modeling (MMM 10) - Call for Symposium Proposals
Dear Colleagues,
The Organizing Committee are soliciting symposium proposals for the 10th International Conference on Multiscale Materials Modeling (MMM 10), to be held in Baltimore, MD, U.S.A on October 18-23, 2020. See attached PDF for futher details.