How to merging two contour plots in a single contour plot in ABAQUS?
Can anyone please help me in mergring contour plots of two variables in a single contour plot in ABAQUS.
Thanks in advance.
Rajwinder Singh
Can anyone please help me in mergring contour plots of two variables in a single contour plot in ABAQUS.
Thanks in advance.
Rajwinder Singh
Shengqiang Cai, of the University of California at San Diego, will be the new editor of the iMechanica Journal Club. He is an active researcher in the field of soft materials, and has made contributions to the development of theory, experiment, and computation. He will be principally responsible for selecting the discussion leaders for themes in 2017.
A postdoctoral researcher position is open in the Integrated Design Automation Laboratoryat Northwestern University under the guidance of Prof. Wei Chen. The postdoctoral researcher will work on systematic computational design methods that provide a seamless integration of design optimization, predictive materials modeling, processing/manufacturing, and data/informatics to enable the accelerated design and development of multiscale materials systems.
Prescribing Surface Strains to change Gauss curvature
To change Gauss curvature K of a surface we need to strain each differential shell element by virtue of Egregium theorem ( K is invariant if strain is zero in isometry mappings).
Can someone help with a geometrical problem where imposed strains are to be defined (at differential shell element level of a right circular cylinder) to obtain a surface of revolution with Gauss curvature +1 or -1 (sphere or pseudosphere) ? Or their isometric equivalents? Cylindrical coordinates may be used.
Description: Postdoc position in growth and remodeling in the Nguyen Lab, Department of Mechanical Engineering, The Johns Hopkins University
These notes are a part of the notes on linear algebra.
Wei Cai and Bill Nix, of Stanford University, have just published a new textbook Imperfections in Crystalline Solids. You can look at the first chapter at the website of the Cambridge University Press.
A wide range of engineered and natural composites exhibit a layered architecture whereby individual building blocks are assembled layer by layer using cohesive interfaces. We present a novel mechanism for evolving acoustic band gap structure in a model system of these composites through patterning the microstructure in a way that triggers non-planar interfacial deformations between the layers as they are stretched.