New tailored inverse/iterative design procedures for planar elastic multi-body systems. System parameters synthesis. Thoery

Conventional formulations for describing the elastic deformations in multi-body systems involves the direct prediction of displacements and stresses that result from known or prescribed system parameters of the multi-body components which are introduced for the desing of multi-body components introduced parameters necessary to produce desired elastice procedures for the design of multi-body systems, tailorted elastic which are displacements and/or stresses are descirbed for initiation iterative design strategies. Part I of this paper seeks to illustrate the theoretical considerations and the stages involved in the feasibility of inverse/iterative design procedures starting from relatively simplex models for predicting well-educated selection of system parameters which are subsequently used in conjunction with detailed dynamic finite element model and design sensitivity formulations to yield converged solutions satisfying desired constraints. Part II presents the numerical simulations of the theoretical developments including a fully nonlinear dynamic analysis and design sensitivity formulations to yield satisfactory designs.