The Axial-Infeed Incremental Warm Rolling Process of Spline Shaft and 
Its Equipment

The Axial-Infeed Incremental Warm Rolling Process of Spline Shaft and Its Equipment

The contents of the book are divided into 6 chapters. Chapter 1 introduces spline shafts, classification of spline shafts and production process of spline shafts; Chapter 2 introduces warm forming temperature plastic deformation behavior of materials, new TDFM process and microstructure evolution; Chapter 3 introduces deformation mechanism and performance improvement of spline shaft with 42CrMo steel by axial-infeed incremental rolling process; Chapter 4 introduces process parameter determination of the axial-pushed incremental rolling process of spline shaft; Chapter 5 introducesfinite element modeling and analysis for the integration-rolling- extrusion process of spline shaft; Chapter 6 introduces experimental study on the axial-infeed incremental warm rolling process for spline shaft production.

Sample Chapter(s)
Introduction (104 KB)

Components of the Book:

Introduction

Chapter 1 Spline shaft

1.1. What is a spline shaft?
1.2. Classification of spline shafts
1.3. Analysis of the current status of the production process of spline shafts
1.4. Chapter summary
References

Chapter 2 Warm forming temperature plastic deformation behavior of materials, new TDFM process and microstructure evolution

2.1. Determination of the warm forming temperature region
2.2. Relations between true stress and true strain at warm forming temperature
2.3. Constitutive equations of 42CrMo steel during warm forming process
2.4. Effect of die angle of the entrance section
2.5. Effect of deformation temperature
2.6. Relevant improvement by Tooth Divided Flow Method (TDFM)
2.7. Microstructure evolution
2.8. Effects of warm forming temperature on rolling forces
2.9. Chapter summary
References

Chapter 3 Deformation mechanism and performance improvement of spline shaft with 42CrMo steel by axial-infeed incremental rolling process

Chapter 4 Process parameter determination of the axial-pushed incremental rolling process of spline shaft

4.1. The determination of the die angle αe
4.2. The determination of the feed speed ν
4.3. The determination of the speed of rolling dies nd
4.4. Experimental verification of the determined process parameters
4.5. Chapter summary
References

Chapter 5 Finite element modeling and analysis for the integration-rolling-extrusion process of spline shaft

5.1. Geometrical structure of the spline shaft and rolling die
5.2. Material model
5.3. Motion features conversion
5.4. Finite element models
5.5. Process parameters and assumptions
5.6. Simplified finite element model estimation
5.7. Effective stress distribution
5.8. Effective strain distribution
5.9. Material flow characteristic
5.10. Experimental results
5.11. Chapter summary
References

Chapter 6 Experimental study on the axial-infeed incremental warm rolling process for spline shaft production

Readership: Students, academics, teachers and other people attending or interested in splined shaft.

1		Introduction Minchao Cui, Changfeng Yao, Shengdun Zhao PDF (104 KB)

10		Chapter 1 Spline shaft Minchao Cui, Changfeng Yao, Shengdun Zhao PDF (1460 KB)

11		Chapter 2 Warm forming temperature plastic deformation behavior of materials, new TDFM process and microstructure evolution Minchao Cui, Changfeng Yao, Shengdun Zhao PDF (3800 KB)

33		Chapter 3 Deformation mechanism and performance improvement of spline shaft with 42CrMo steel by axial-infeed incremental rolling process Minchao Cui, Changfeng Yao, Shengdun Zhao PDF (2582 KB)

49		Chapter 4 Process parameter determination of the axial-pushed incremental rolling process of spline shaft Minchao Cui, Changfeng Yao, Shengdun Zhao PDF (2142 KB)

65		Chapter 5 Finite element modeling and analysis for the integration-rolling-extrusion process of spline shaft Minchao Cui, Changfeng Yao, Shengdun Zhao PDF (2240 KB)

85		Chapter 6 Experimental study on the axial-infeed incremental warm rolling process for spline shaft production Minchao Cui, Changfeng Yao, Shengdun Zhao PDF (5738 KB)

Add To Cart

Minchao Cui
Male, 32 years old, Professor, Key Laboratory of High Performance Manufacturing for Aero Engine (Ministry of Industry and Information Technology), School of Mechanical Engineering, Northwestern Polytechnical University.

Changfeng Yao
Male, 48 years old, Professor, Key Laboratory of High Performance Manufacturing for Aero Engine (Ministry of Industry and Information Technology), School of Mechanical Engineering, Northwestern Polytechnical University.

Shengdun Zhao
Male, 61 years old, Professor, School of Mechanical Engineering, Xi'an Jiaotong University.

This Book