Department

Home Selected publications Bending-Free Lattices as Underlying Optimal Isotropic Microstructures of the Least-Compliant 2D Elastic Bodies
Bending-Free Lattices as Underlying Optimal Isotropic Microstructures of the Least-Compliant 2D Elastic Bodies PDF Print E-mail
Sławomir Czarnecki, Tomasz Łukasiak; Bending-Free Lattices as Underlying Optimal Isotropic Microstructures of the Least-Compliant 2D Elastic Bodies, Physica Status Solidi 2021
https://doi.org/10.1002/pssb.202100344
Abstract
This study puts forward a method of reconstruction of the suboptimal isotropic truss microstructures for the known distribution of Young's modulus and Poisson's ratio predicted by the Isotropic Material Design (IMD) method of minimizing the compliance (maximizing the stiffness) of a 2D elastic body. The varying underlying microstructures corresponding to the optimal designs are recovered by matching the values of the optimal elastic moduli with the values of the effective moduli of the representative volume elements (RVE) computed by the asymptotic homogenization method. ...
 

Department seminars

No current events.

<<  September 2022  >>
 Mo  Tu  We  Th  Fr  Sa  Su 
     1  2  3  4
  5  6  7  8  91011
12131415161718
19202122232425
2627282930  

Conferences

No current events.

Books

algorytmy.png

Z galerii Katedry

Home Selected publications Bending-Free Lattices as Underlying Optimal Isotropic Microstructures of the Least-Compliant 2D Elastic Bodies
We have 130 guests online

Statistics

Content View Hits : 2828757