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Geometrically nonlinear arc length sparse finite element analysis and optimal design of truss structures.

Author Glenn A Hrinda
Publisher ProQuest, UMI Dissertation Publishing
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Book Details
ISBN / ASIN1244068446
ISBN-139781244068445
AvailabilityUsually ships in 24 hours
MarketplaceUnited States 🇺🇸

Description

A technique for the optimization of stability-constrained geometrically nonlinear shallow trusses with snap-through behavior is demonstrated using the arc length method and a strain energy density approach within a discrete finite element formulation. The optimization method uses an iterative scheme that evaluates the performance of the design variables and then updates them according to a recursive formula that is controlled by the arc length method. A minimum weight design is achieved when a uniform nonlinear strain energy density is found in all members. This minimal condition places the design load just below the critical-limit load that causes snap-through of the structure. The optimization scheme is programmed into a nonlinear finite element algorithm to find the large strain energy at critical-limit loads. Examples of highly nonlinear trusses that are found in the literature are presented to verify the method.