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Mechanical Processing of Sintered Materials
Part-2: Finite Element Analysis Of Sinter-Forging Processes
Saranjit Singh, Polymersetty Chandrasekhar
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eBook - ePub
Mechanical Processing of Sintered Materials
Part-2: Finite Element Analysis Of Sinter-Forging Processes
Saranjit Singh, Polymersetty Chandrasekhar
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Ă propos de ce livre
Mechanical processing of sintered materials in the form of metal powder preforms includes techniques such as sinter-forging, sinter-extrusion, sinter-rolling etc. One technique, which has aroused interest globally for producing high performance components economically, is sinterforging, which combines the advantages associated with powder metallurgy and conventional forging techniques. The process is attractive because it avoids large number of operations, high scrap losses and energy consumption associated with conventional manufacturing processes. The technology, though have been extensively applied throughout the world for manufacture of numerous components, still requires to be explored from several perspectives. The objective of the present book is to study, explore and investigate the deformation characteristics during mechanical processing of the sintered materials.
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Informations
Chapter 1:
Introduction. 1
Chapter 2: Literature
Survey. 19
Chapter 3:
Basic Experimental Work.
32
Chapter 4:
Plasticity Model & Finite Element Formulation for Sintered Materials.
66
Chapter 5:
FEM Analysis of Open-Die Sinter-Forging of different Generic Shaped Preforms.
80
Chapter 6:
FEM Analysis of Closed-Die Sinter-Forging of Double-Hub Flange Preform.
115
Chapter 7:
FEM of Rotary Sinter-Forging of Cylindrical Preforms.
128
Chapter 8:
Conclusions and Scope for Future Work.
145
References
151
vii
LIST OF FIGURES
Figure
Page
Description
No.
No.
1.1
Flow diagram of sinter-forging process.
4
1.2
Sinter-Forging of Connecting Rod.
5
1.3
Illustration of Sinter Forged Components.
8
3.1
(a) & (b): Closed Circular Cavity Powder Compaction Die-Sets.
33
3.2
Closed Square Cavity Powder Compaction Die Set.
34
3.3
Die Set for Closed-Die Sinter-Forging.
34
3.4
Design of Upper Conical Rotary Forging Die and Die Tool Holder.
34
3.5
Illustration of Conical Front End of Rotary Die & Assembled Rotary Forging Die.
35
3.6 (a) UTM for Powder Compaction.
37
3.6 (b) Muffle Furnace.
37
3.7
(a) & (b): Cylindrical Metal Powder Preforms.
39
3.8
Hollow Aluminium Metal Powder Preforms.
39
3.9
Truncated Conical Aluminium Metal Powder Preforms.
39
3.1
Irregular Polygonal Aluminium Metal Powder Preforms.
39
3.11
Trapezoidal Preform with Symmetrical Regions.
40
3.12
Variation of Relative Density with Compaction Pressure.
42
3.13
Variation of Relative Density with Sintering Temperature.
42
3.14
Formation of Cracks on Cylindrical Aluminium Preform.
44
3.15
Variation of Relative Density with Height Reduction during Sinter-Forging of Cylindrical Preforms.
46
3.16
Variation of Radial & Axial Strains with Height Reduction during Sinter-Forging of Cylindrical Preforms.
46
3.17
Variation of Poissonâs Ratio with Height Reduction during Sinter-Forging of Cylindrical Preforms.
47
3.18
Variation of Poissonâs Ratio with Relative Density during Sinter-Forging of Cylindrical Preforms.
47
3.19 Variation of Forgeability with Initial Relative Density during Sinter-Forging of Cylindrical Preforms.
48
3.2
Variation of Densification Rate with Relative Density during Sinter-Forging of Cylindrical Preforms.
48
3.21
Variation of Axial Strain with Forging Load during Sinter-Forging of Cylindrical Preforms.
49
3.22
Photomicrographs of Sinter-Forged Preforms.
50
3.23
Formation of Cracks on Hollow Disc Preform.
52
3.24
Variation of Outer Diameter with Height Reduction during Open-
(a)
Die Sinter-Forging of Hollow Preforms.
52
3.24
Variation of Inner Diameter with Height Reduction during Open-
(b)
Die Sinter-Forging of Hollow Preforms.
53
viii
3.25
Variation Relative Density with Height Reduction during Open-Die Sinter-Forging of Hollow Preforms.
53
3.26
Variation of Die Load with Die Velocity during Open-Die Sinter-Forging of Hollow Preforms.
54
3.27
Formation of Cracks on Truncated Conical Preforms.
55
3.28 Variation of Forging Load with Die Velocity during Open-Die Sinter-Forging of Truncated Conical Preforms.
55
3.29 Variation of Radial & Axial Strain Rates with Height Reduction during Open-Die Sinter-Forging of Truncated Conical Preforms.
56
3.3
Contour Plot of Radial & Axial Strain Rates during Open-Die Sinter-Forging of Truncated Conical Preforms.
57
3.31 Variation of Preform Relative Density with Height Reduction during Open-Die Sinter-Forging of Truncated Conical Preforms.
57
3.32
Symmetrical Regions on the Irregular Trapezoidal Preforms after Open-Die Sinter-Forging Process.
58
3.33
Variation of Relative Density with Height Reduction during Open-Die Sinter-Forging of Irregular Trapezoidal Preforms.
59
3.34
Variation of Die Load with Die Velocity during Open-die Sinter-Forging of Irregular Trapezoidal Preforms.
59
3.35
Sinter-Forged Double-Hub Flange Components.
61
3.36
Variation of Height Reduction with Die Velocity during Closed-Die Sinter-Forging of Double-Hub Flange Component. 62
3.37
Variation of Relative Density with Forging Load during Closed-Die Sinter-Forging of Double-Hub Flange Component.
62
3.38
Variation of Forging Load with Ratio of Unfilled Die Volume to Components' Actual Volume during Closed-Die Sinter-Forging of Double-Hub Flange Component.
63
3.39 Variation of height reduction with upper surface disc diameter during the rotary sinter-forging of cylindrical preforms. 64
3.4
Variation of Relative Density with height reduction during the rotary sinter-forging of cylindrical preforms.
64
4.1
Flow chart of FEM Process.
73
4.2
Quadrilateral element and natural coordinate system.
74
4.3
Tetrahedral element.
76
5.1
Flow Stress Curve of Sintered Aluminium Preform.
83
5.2 Schematic Diagram of Open-Die Sinter-Forging of Hollow Preform. 85
5.3 Models of Meshed 2D Axi-Symmetric and 3D Hollow Preform.ollow disc preformH
85
5.4
Sinter-Forging Stages of Hollow Preform with Smaller Inner Diameter. 87
5.5 Sinter-Forging Stages of Hollow Preform with Larger Inner Diameter. 87
5.6
(a) & (b): Displacement Profiles during Open-Die Sinter-Forging of Hollow Preform with Smaller and Larger Inner Diameter respectivley. 88
ix
5.7
(a) & (b): Effective Strain Distribution during Open-Die Sinter-Forging of Hollow Preform with Smaller and Larger Inner Diameter respectivley. 89
5.8
(a) & (b) : Effective Stress Distribution during Open-Die Sinter-Forging of Hollow Preform with Smaller and Larger Inner Diameter respectivley. 90
5.9
(a) & (b) : Velocity Vector Distribution during Open-Die Sinter-Forging of Hollow Preform with Smaller and Larger Inner Diameter respectivley. 91
5.1
Variation of Effective Strain with Height Reduction during Open-Die Sinter-Forging of Hollow Preform.
92
5.11
Variation of Effective Stress with Height Reduction during Open-Die Sinter-Forging of Hollow Preform.
93
5.12
Variation of Internal Energy with Reduction in Height during Open-Die Sinter-Forging of Hollow Preform.
93
5.13
Variation of Forging Load with Height Reduction during Open-Die Sinter-Forging of Hollow Preform.
94
5.14 Schematic Diagram of Open-Die Sinter-Forging of Truncated Conical Preform.
95
5.15 Models
of Meshed Truncated Conical Preform with Tetrahedral Mesh. 96
5.16 Preform Profiles during Open-Die Sinter-Forging of Truncated Conical Preform.
97
5.17
Distribution of Total Displacement ...
Table des matiĂšres
- Chapter 1:
- Chapter 3:
- Chapter 4:
- Chapter 5:
- Chapter 6:
- Chapter 7:
- Chapter 8:
- CHAPTER 2
- CHAPTER 3
- CHAPTER 4
- CHAPTER 5
- CHAPTER 6
- CHAPTER 7
- CHAPTER 8
Normes de citation pour Mechanical Processing of Sintered Materials
APA 6 Citation
Singh, S., & Chandrasekhar, P. (2020). Mechanical Processing of Sintered Materials (1st ed.). De Gruyter Poland. Retrieved from https://www.perlego.com/book/3290791/mechanical-processing-of-sintered-materials-part2-finite-element-analysis-of-sinterforging-processes-pdf (Original work published 2020)
Chicago Citation
Singh, Saranjit, and Polymersetty Chandrasekhar. (2020) 2020. Mechanical Processing of Sintered Materials. 1st ed. De Gruyter Poland. https://www.perlego.com/book/3290791/mechanical-processing-of-sintered-materials-part2-finite-element-analysis-of-sinterforging-processes-pdf.
Harvard Citation
Singh, S. and Chandrasekhar, P. (2020) Mechanical Processing of Sintered Materials. 1st edn. De Gruyter Poland. Available at: https://www.perlego.com/book/3290791/mechanical-processing-of-sintered-materials-part2-finite-element-analysis-of-sinterforging-processes-pdf (Accessed: 15 October 2022).
MLA 7 Citation
Singh, Saranjit, and Polymersetty Chandrasekhar. Mechanical Processing of Sintered Materials. 1st ed. De Gruyter Poland, 2020. Web. 15 Oct. 2022.