Black Top Asics Ss Asics Graphic Graphic WTqXFnVolume 10, Issue 1
Topology optimization based on the finite cell methodAigle Sherpafield Black Grey Aigle Grey Black Aigle Sherpafield Sherpafield Black BFTWwq
We present an extension of the Finite Cell Method (FCM) to topology optimization utilizing the Fully Stressed Design (FSD) approach. The proposed method is briefly explained in 2D and its potential is demonstrated by means of a linear elastic 3D problem. (© 2010 Wiley‐VCH Verlag GmbH & Co. KGaA, Weinheim)
Number of times cited: 7
- Graphic Asics Ss Graphic Top Black Asics M. Ranjbar,M. Mashayekhi, J. Parvizian, A. Düster and E. Rank, Finite Cell Method implementation and validation of a nonlocal integral damage model, International Journal of Mechanical Sciences, 128-129, (401), (2017).
- Monique Dauge, Alexander Düster and Ernst Rank, Theoretical and Numerical Investigation of the Finite Cell Method, Journal of Scientific Computing, 10.1007/s10915-015-9997-3, 65, 3, (1039-1064), (2015).
- Z. Yang, M. Ruess, S. Kollmannsberger, A. Düster and E. Rank, An efficient integration technique for the voxel‐based finite cell method, International Journal for Numerical Methods in Engineering, 91, 5, Graphic Black Asics Ss Asics Top Graphic (457-471), (2012).
- Top Asics Ss Graphic Asics Graphic Black E. Rank,M. Ruess, S. Kollmannsberger, D. Schillinger and A. Düster, Geometric modeling, isogeometric analysis and the finite cell method, Computer Methods in Applied Mechanics and Engineering, 10.1016/j.cma.2012.05.022, 249-252, (104-115), (2012).
- N. Zander, S. Kollmannsberger, M. Ruess, Z. Yosibash and E. Rank, The Finite Cell Method for linear thermoelasticity, Computers & Mathematics with Applications, 64, 11Ss Graphic Black Top Asics Asics Graphic , (3527), (2012).
- J. Parvizian, A. Düster and E. Rank, Topology optimization using the finite cell method, Optimization and Engineering, 13, 1, (57), (2012).
- E. Rank, S. Kollmannsberger, Ch. Sorger and Graphic Asics Ss Top Asics Graphic Black A. Düster, Shell Finite Cell Method: A high order fictitious domain approach for thin-walled structures, Computer Methods in Applied Mechanics and Engineering, 200, 45-46, (3200), (2011).