scientific article
From MaRDI portal
Publication:2709582
DOI<681::AID-NME45>3.0.CO;2-M 10.1002/1097-0207(20010130)50:3<681::AID-NME45>3.0.CO;2-MzbMath1011.74074MaRDI QIDQ2709582
Publication date: 16 April 2001
Title: zbMATH Open Web Interface contents unavailable due to conflicting licenses.
bendingaxisymmetric shell elementsheet metalblank designdeep drawing processesmulti-step inverse analysis
Related Items (5)
One-step inverse isogeometric analysis for the simulation of sheet metal forming ⋮ Initial solution estimation of one-step inverse isogeometric analysis for sheet metal forming with complex topologies ⋮ Shape optimization of the initial blank in the sheet metal forming process using equivalent static loads ⋮ Finite element modelling and simulation of bulk material forming ⋮ Some improvements on the one-step inverse isogeometric analysis by proposing a multi-step inverse isogeometric methodology in sheet metal stamping processes
Uses Software
Cites Work
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Ideal forming. I: Homogeneous deformation with minimum plastic work
- Ideal forming. II: Sheet forming with optimum deformation
- Shape and non-shape structural sensitivity analysis for problems with any material and kinematic nonlinearity
- Sensitivity of forming processes to shape parameters
- Blank shape design for a planar anisotropic sheet based on ideal forming design theory and FEM analysis
- A viscous shell formulation for the analysis of thin sheet metal forming
- A sensitivity analysis for the optimal design of metal-forming processes
- Inverse problems in finite element simulation of metal forming processes
- Finite element procedures for strain estimations of sheet metal forming parts
- Plastic and viscoplastic flow of void‐containing metals. Applications to axisymmetric sheet forming problems
- A simple and efficient finite element for plate bending
- Die shape optimal design in three-dimensional shape metal extrusion by the finite element method
- OPTIMAL DESIGN FOR NON-STEADY-STATE METAL FORMING PROCESSES—I. SHAPE OPTIMIZATION METHOD
This page was built for publication:
