Concurrent Engineering: Tools and Technologies for Mechanical System DesignE. J. (ed.) Haug |
Contents
WorldClass Concurrent Engineering | 3 |
Virtual Team Framework and Support Technology | 41 |
Integrated Tools and Technologies for Concurrent Engineering | 75 |
Copyright | |
37 other sections not shown
Other editions - View all
Concurrent Engineering: Tools and Technologies for Mechanical System Design Edward J. Haug No preview available - 1993 |
Common terms and phrases
adjoint algorithm application approach assembly automated beam behavior boundary capability complex components Concurrent Engineering Concurrent Engineering environment configuration constraints coordinates data model database defined deformation design optimization design parameters design process Design Sensitivity Analysis design variables differential displacement DSblock dynamic analysis elastic entities equations of motion evaluation finite element analysis finite element model formulation function geometric global graphics Haug human implementation input integration interaction interface iteration Jacobian Jendo joint kinematic linear load machine manufacturing material matrix method module multibody system nodal nodes nonlinear object obtained operator parameterization PATRAN PDES/STEP problem pseudoinverse real-time runstream shape design shape optimization shown in Figure simulation solution specific stiffness strain strain energy stress Structural Optimization subsystems task truss University of Iowa variation vector vehicle velocity viscoelastic visual von Mises stress workspace workstation