Research Associate in Dislocation Modelling (Fixed-term for 48 months)
Modelling of Dislocation-Microstructure Interaction at a Short Crack Tip
This project aims to model dislocation-microstructure interaction at a crack tip and associated short crack growth for nickel alloys.
You will join the vibrant Mechanics of Advanced Materials group at Loughborough (www.lboro.ac.uk/moam) which has gained significant experience in the study of mechanical behaviour of advanced materials.
Perturbation method for the second-order nonlinear effect of focused acoustic field around a scatterer in an ideal fluid
By: Liu, Gang; Jayathilake, Pahala Gedara; Khoo, Boo Cheong
A postdoctoral position available at Nanyang Techn Univ (Singapore) in computational mechanics and multiphysics modelling of relevant areas, e.g. soft matter, cell in microfluidics, numerical methods, micromechanics or others.Pls email to lihua@ntu.edu.sg
A postdoctoral position available at Nanyang Technological University (Singapore) in computational mechanics and/or multiphysics modelling in relevant areas, for example, soft matter, cell in microfluidics, numerical methods, micromechanics or others.
Please drop your CV to lihua [at] ntu.edu.sg (lihua[at]ntu[dot]edu[dot]sg), if you are interested in it. Thank you.
critical stress for delamination in multilayers
could someone tell me some equation to get the critical stress for delamination in multilayers?
Thanks,
Question on Fatigue crack growth C and m Paris Law
Are m and C in the paris law equation dependant on the material property or geometry?
For example if using the same material with different thickness, do the C and m values change? For clarity assume centre notched plates, with different plate thicknesses but same material (steel or aluminium).
I appreciate your time.
One of the Most Productive Collaborations in Physicals Sciences of All Time
Written by Kent McDill
posted in Illinois, Northwestern, LiveBIG (Big Ten Network July 20, 2014)
"Illinois, NU Create Self-Charging Heart"
http://btn.com/2014/07/20/btn-livebig-illinois-northwestern-create-self…
Ultra-Strong Collagen-Mimic Carbon Nanotube Bundles
In spite of worldwide research, carbon nanotubes (CNTs) still have not fully realized their
original promise as ideal reinforcements for composite materials due to a number of
challenging issues such as weak interface, poor dispersion, misalignment and lack of optimized
design. Here we propose a bio-inspired structure of CNT bundles with controllable
crosslink density and staggered pattern of organization that mimic the architecture of
Elastic Bounds of Bioinspired Nanocomposites
Biological materials in nature serve as a valuable source of inspiration for developing
novel synthetic materials with extraordinary properties or functions. Much effort to date
has been directed toward fabricating and understanding bio-inspired nanocomposites
with internal architectures mimicking those of nacre and collagen fibril. Here we establish
simple and explicit analytical solutions for both upper and lower bounds of the elastic
Thomson Reuters has released a new list of highly cited researchers!
Thomson Reuters has released a new list of highly cited researchers for 2002-2012. You can find more at http://highlycited.com/index.htm#table
The following solid mechanicians have been selected in the category of engineering, materials science, or computer science.
Satya Atluri (UC Irvine);
Yuri Bazilevs (UCSD);
Ted Belytschko (Northwestern University);
Yonggang Huang (Northwestern University);
Tom Hughes (University of Texas at Austin);