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Postdoctoral position in Multiscale Modeling

Submitted by marisolkoslowski on
job
micromechanics
Plasticity
dislocations

The Computational Solid Mechanics group under the direction of Prof. Marisol Koslowski in the School of Mechanical Engineering at Purdue has an opening for a postdoctoral position in the area of multiscale modeling as part of the project “Plasticity in ultrafine grained materials” funded by DOE. A successful candidate is expected to have a strong background in computational solid mechanics and programming experience. While experience in plasticity using dislocation dynamics or phase field methods is a plus, all outstanding candidates will be considered.

Coupling meshfree and Finite element methods

Submitted by Rajathachal.MK on
research
meshfree methods

I just wanted to know if i can consider one part of a FE model as a meshless part and form the global stiffness matrix just by assembling the meshfree stiffness matrix corresponding to the meshfree zone and the FE stiffness matrix of the rest. And then apply the boundary conditions to the model and solve. I would use RKPM to generate the meshfree stiffness matrix. 

Problem is using static/riks option

Submitted by sushil on
education
displacement control model using riks solver

I have some problem in defining the material properties using UMAT. I want to simulate the cubic stress-strain traction-sepration law. Solution doesn't converge after max load is applied (i.e zero slope of stress-strain plot). I am using riks solver. I have written my stress -strain relationship as below in UMAT file. Please tell me how to converge the solution even after zero slope of stress-strain relationship. Can i make my load factor(lambda) negative in riks option.

 

constraint on surface

Submitted by Anonymous (not verified) on
software
constraint on surface

Hi everyone,

Do you know how to impose in abaqus that all the nodes of a specified surface have the same displacement on U1 for example without specifying a value. think about a traction test of a non homogeneous shell in which we want the edges to remain vertical.

I tried constraint, coupling, U1 but it fixes U1=0

thanks a lot,

Hichem

Ph.D. Research Assistantship in Multi-Scale/Multi-Physics Material Modeling at the University of Colorado, Boulder

Submitted by Franck Vernerey on
computational mechanics
multiscale mechanics
biological materials
Ph.D. position

A graduate student researcher is sought to work on a theoretical and computational aspect of multiscale/ multi-physics material modeling (with an emphasis on biological materials and structures). The project’s envisioned outcome is to a better understanding of the relationship between the small scale physics and structures and the overall macroscopic properties of a material. This research has application in the design of new, smart material, or in the development of treatment for injuries and disease of biological tissues.

Large deformation elasticity and damping of individual carbon nanotubes in radial direction

Submitted by Majid Minary on
research
carbon nanotubes
Damping
CNT/composites

Carbon nanotubes as strong fibers in CNT-composites are subjected to large deformations in radial direction. They provide strength as well as structural damping in the composite. Despite being strong in the axial direction, CNTs are rather soft in the radial direction.

Challenges in modeling of CNT/polymer composites

Submitted by Kazem Yazdchi on
research

Many researchers have already used micromechanical modeling techniques such as Mori-Tanaka (M-T), Self-consistent methods and dilute inclusion models depending on volume fraction and shape of the inclusions, etc., to predict the overall mechanical properties of CNT/polymer composites.  However, we know that at nano scales the phenomenological behavior of material is different in comparison with micro or macro scales. Although the effects of waviness, interactions, agglomeration, etc.

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