Abstract

Summary

Introduction

1.1 Complex loading- 1.2 Constitutive modelling- 1.3 Experimental investigation of constitutive behaviour and material characterisation

Project details

2.1 Objectives- 2.2 Activities- 2.3 Partner resources and interactions- 2.4 Structure of project

Summary of progress

3.1 WP1 Review of Constitutive Equations- 3.2 WP2 Experimental Investigation of Constitutive Behaviour- 3.3 WP3: Material characterisation- 3.4 WP4 Formulation of Constitutive Laws- 3.5 WP5 Incorporation of Constitutive Laws into FE Models of Rolling- 3.6 WP6 Model Validation

Conclusions and recommendations

4.1 Modelling- 4.2 Experimental investigation and material characterisation

Detailed Technical Report by TU BERGAKADEMIE Freiberg A

A5.1 Introduction- A5.2 Experimental work- A5.3 Results, discussion and simulation- A5.4 Citations

References

Appendix

Detailed technical report by Corus UK Limited

A1.1 Introduction- A1.2 Assessment of constitutive models (Task WP1)- A1.3 Experimental investigation of complex loading (Task WP2)- A1.4 Material characterisation (Task WP3)- A1.5 Formulation of constitutive model (Task WP4)- A1.6 Incorporation of constitutive models into FE models for application to complex loading paths (Task WP5)- A1.7 Model validation (Task WP6)- A1.8 Summary- A1.9 Conclusions and recommendations- A1.10 References

Detailed Technical Report by CEIT

Summary- A2.1 Links with other partners and workpackages- A2.2 WP1: Evaluation of constitutive models- A2.3 WP2: Experimental investigation of constitutive behaviour- A2.4 WP3: Material characterisation- A2.5 WP4. Formulation of constitutive laws- A2.6 Conclusions- A2.7 References

Detailed Technical Report by Centro Sviluppo Materiali Spa

Nomenclature- Summary- A3.1 Introduction and evaluation of models (WP1)- A3.2 Materials, process-mechanical testing links, research procedures and partners interacting with CSM work (WP2)- A3.3 Formulation of constitutive laws (WP4), model implementation (WP5) and validation (WP6) against the mechanical testing of WP2- A3.4 Constitutive laws for complex loading (WP4) and application to rolling- A3.5 Investigation of constitutive behaviour by experimental (WP2) and simulation (WP6) rolling. va...

Detailed Technical Report by MEFOS

A4.1 Material of interest- A4.2 Constitutive models- A4.3 Optimisation- A4.4 Implementation- A4.5 FEM Simulation- A4.6 Discussions- A4.7 References

Detailed Report by the University of Oulu

Summary- A6.1 Introduction- A6.2 Experimental- A6.3 Results- A6. 4 Strain rate change tests for constitutive modelling at CSM- A6. 5 Modelling of the transient behaviour after the change in the strain rate- 6.6 Conclusions

Materials and processing conditions modelled or tested by the various partners

Technical Annex

1. Objectives -2. Work programme and distribution of tasks- 3. Ways and means- 4. Programme bar chart (see next page)- 5. The results of the project will be the subject of a publication in the “Technical Steel Research” series.