NOSA-ITACA code 1.1c is now available
The new version of the code presents an improved and more intuitive
management of the subroutine and an easier use of Job monitor dialogue.
Enjoy it
http://www.nosaitaca.it/software/
finite element modeling
NOSA-ITACA code version 1.1b is now available
The improved version of NOSA-ITACA is now available at www.nosaitaca.it/software/. A more friendly monitor analysis has been implemented. Bugs related to card creation are now fixed. At www.nosaitaca.it/software/ you can find also some tutorials that will guide you through the use of the code. Enjoy !
Academic Associate: Fully-Funded PhD Position in Engineering (Smart Materials)
We are seeking to appoint an enthusiastic and talented Academic Associate to contribute to research and teaching in the Department of Engineering at Nottingham Trent University. Most of the teaching will be in the format of seminars, laboratory classes and tutorials. The academic associate post is part-time (0.5 FTE) and in addition, you will be required to register for a PhD part-time for the duration of the 5-year post.
PhD Title: 3D Printing of Smart Shape Memory Materials for Advanced Sensors and Actuators
Director of Studies: Dr. Mahdi Bodaghi
NOSA-ITACA: a free finite element software for structural analysis
NOSA-ITACA is a software product of the Mechanics of Materials and Structures Laboratory of ISTI-CNR, distributed via the http://www.nosaitaca.it/software/ website.
The package includes SALOME v8.3.0, and is available for Ubuntu 14.04 and 16.04.
NOSA-ITACA enables you to conduct both linear and nonlinear static analyses and modal analyses.
NOSA-ITACA can be used to study the static behavior of masonry buildings of historic and architectural interest and model the effectiveness of strengthening operations.
Two PhD Positions in Multiscale Modeling of Materials Under Extreme Conditions
Two PhD positions are open for Spring 2019 in Advanced Hierarchical Materials by Design Labat Louisiana Tech Universityon multiscale modeling of materials under extreme conditions. The candidates must have earned a degree in Mechanical Engineering or related fields (applicants with a MSc will be given priority) and have a solid background in theoretical and computational mechanics. Having knowledge of continuum mechanics, finite element modeling, and a programming language (preferably C++) is a plus.
PhD position:Fluid-Structure Interactions in Hydraulic Turbine - Montreal Canada
A fully funded PhD thesis project is available at Polytechnique Montreal on Fluid-Structure Interactions in hydraulic turbines.
This project is to be done in collaboration with Université Laval in Québec city where a fully instrumented test turbine is available. The thesis is part of a large research consortium involving two universities and the major industrial players in the design and operation of large hydraulic turbines in the province of Quebec (Andritz Hydro, EDF, General Electric, Hydro Québec, Voith Hydro).
Lead Modeling Scientist @ Novelis Global Research and Technology Center, Kennesaw, GA, USA
Job Description
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Requisition Title:Lead Modeling Scientist Job Number::180108JL
Schedule:Full-time Primary Location:USA-GA-Kennesaw Organization:Global R&T |
PhD position at Technical University of Denmark (DTU) in Damage Tolerant Composite Materials
A new PhD position is vacant at the Section of Composites and Materials Mechanics of the Department of Wind Energy at the Technical University of Denmark (DTU). The PhD project will concern damage tolerance of composite materials subjected to static and cyclic loading. The objective is to creacte enhanced fracture resistance by facilitating the formation of multiple cracks with large-scale fiber bridging along the interfaces in a layered composite by controlled mechanical properties by surface treatments.
PhD Position in Multiscale Modeling of Hierarchical Materials
A PhD position is open for summer or fall 2018 in Advanced Hierarchical Materials by Design Lab at Louisiana Tech University on multiscale modeling of hierarchical materials with an emphasis on printed materials. The candidates must have earned a B.Sc. (M.Sc. is preferred) degree in Mechanical Engineering or closely related fields and have a solid background in theoretical and computational mechanics, specifically continuum mechanics and finite element modeling, and need to have the basic knowledge of writing computer code (preferably using C/C++).
PhD Position in Multiscale Modeling of metamaterials
A PhD position is open for Spring 2018 in Advanced Hierarchical Materials by Design Lab at Louisiana Tech University on multiscale modeling of metamaterials. The candidates must have earned a degree in Mechanical Engineering or related fields (applicants with a MSc will be given priority) and have a solid background in theoretical and computational mechanics. Having knowledge of continuum mechanics, finite element modeling, and a programming language is a plus.