Achieving minimum length scale in topology optimization using nodal design variables and projection functions

Guest, James K.; Prévost, Jean H.; Belytschko, Ted

doi:10.1002/nme.1064

articleInternational Journal for Numerical Methods in EngineeringJul 15, 2004Closed access

Achieving minimum length scale in topology optimization using nodal design variables and projection functions

JKJames K. Guest JHJean H. Prévost TBTed Belytschko

Princeton University · Northwestern University

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Abstract

Abstract A methodology for imposing a minimum length scale on structural members in discretized topology optimization problems is described. Nodal variables are implemented as the design variables and are projected onto element space to determine the element volume fractions that traditionally define topology. The projection is made via mesh independent functions that are based upon the minimum length scale. A simple linear projection scheme and a non‐linear scheme using a regularized Heaviside step function to achieve nearly 0–1 solutions are examined. The new approach is demonstrated on the minimum compliance problem and the popular SIMP method is used to penalize the stiffness of intermediate volume…

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Topics & keywords

Topics

Keywords

Topology optimization
Heaviside step function
Mathematics
Topology (electrical circuits)
Mathematical optimization
Discretization
Projection (relational algebra)
Scale (ratio)

UN Sustainable Development Goals

Peace, Justice and strong institutions

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National Aeronautics and Space Administration