Prediction of temperature distribution and required energy in hot forging process by coupling neural networks and finite element analysis
Author:
Publisher
Elsevier BV
Subject
Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics,General Materials Science
Reference16 articles.
1. A formulation for rigid-plastic finite element method considering work-hardening effect
2. On numerical modelling of hot rolling of metals
3. An upper-bound analysis of metal forming processes by nodal velocity fields using a shape function
4. Development of an Adaptive Directional Reduced Integration Technique and its Application to Rigid-Plastic Finite-Element Analysis of Heading and Backward Extrusion
5. Investigation of the influence of various process parameters on the radial forging processes by the finite element method (FEM)
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1. Determination of temperature distribution in cold forging with the support of inverse analysis;Measurement;2022-01
2. Two flow stress models for describing hot deformation behavior of AISI-1045 medium carbon steel at elevated temperatures;Heliyon;2019-04
3. Phenomenological Models to Predict the Flow Stress up to the Peak of as-Extruded 7050 Aluminum Alloy;High Temperature Materials and Processes;2017-10-26
4. Prediction of the Hot Compressive Deformation Behavior for Superalloy Nimonic 80A by BP-ANN Model;Applied Sciences;2016-02-25
5. Artificial Neural Network Modeling to Evaluate the Dynamic Flow Stress of 7050 Aluminum Alloy;Journal of Materials Engineering and Performance;2016-01-13
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