E-Book, Englisch, 107 Seiten, eBook
Awang The Advances in Joining Technology
1. Auflage 2018
ISBN: 978-981-10-9041-7
Verlag: Springer Singapore
Format: PDF
Kopierschutz: 1 - PDF Watermark
E-Book, Englisch, 107 Seiten, eBook
Reihe: Lecture Notes in Mechanical Engineering
ISBN: 978-981-10-9041-7
Verlag: Springer Singapore
Format: PDF
Kopierschutz: 1 - PDF Watermark
Zielgruppe
Professional/practitioner
Autoren/Hrsg.
Weitere Infos & Material
1;Contents;6
2;Thermal Modelling of Friction Stir Welding (FSW) Using Calculated Young’s Modulus Values;7
2.1;1 Introduction;7
2.2;2 Methodology;11
2.2.1;2.1 Mathematical Model;11
2.2.2;2.2 Finite Element Modelling and Geometry;13
2.3;3 Results and Discussions;14
2.3.1;3.1 Mathematical Formulation Results;14
2.3.2;3.2 Finite Element Results;15
2.3.3;3.3 Error Percentage Results;15
2.3.4;3.4 Temperature Results;17
2.4;4 Conclusions;18
2.5;References;18
3;The Effect of Pin Profiles and Process Parameters on Temperature and Tensile Strength in Friction Stir Welding of AL6061 Alloy;20
3.1;1 Introduction;20
3.2;2 Methodology;22
3.2.1;2.1 Experimental Set up;22
3.2.2;2.2 Microstructure Analysis;25
3.2.3;2.3 Tensile Test;25
3.2.4;2.4 Design of Experiment (DOE);26
3.3;3 Results and Discussion;27
3.3.1;3.1 Heat Generation;27
3.3.2;3.2 Microstructure Analysis;30
3.3.3;3.3 Tensile Strength Analysis;31
3.3.4;3.4 Design of Experiments Analyzes;33
3.4;4 Conclusion;40
3.5;References;40
4;The Effect of Argon Shielding Gas Flow Rate on Welded 22MnB5 Boron Steel Using Low Power Fiber Laser;43
4.1;1 Introduction;43
4.2;2 Experimental Setup;44
4.3;3 Results and Discussion;45
4.3.1;3.1 Surface Observation;45
4.3.2;3.2 Width and Depth Observation;47
4.3.3;3.3 Microstructure and Mechanical Properties;49
4.4;4 Conclusions;51
4.5;References;51
5;Effect of Bevel Angle and Welding Current on T-Joint Using Gas Metal Arc Welding (GMAW);53
5.1;1 Introduction;54
5.2;2 Literature Review;54
5.2.1;2.1 Welding Parameters;54
5.2.2;2.2 The Effect of Welding Current;54
5.2.3;2.3 The Effect of Bevel Angle;55
5.3;3 Experimental Works;55
5.4;4 Testing;56
5.4.1;4.1 Tensile Test;56
5.4.2;4.2 Brinell Hardness Test;56
5.5;5 Result and Discussion;57
5.5.1;5.1 Ultimate Tensile Strength;57
5.5.2;5.2 Average Young Modulus;58
5.5.3;5.3 Heat Input;58
5.5.4;5.4 Brinell Hardness;59
5.5.5;5.5 Discussion;60
5.6;6 Conclusions;61
5.7;7 Recommendations;61
5.8;References;61
6;Laser Brazing Between Sapphire and Inconel 600;62
6.1;1 Introduction;62
6.2;2 Experimental Procedures;64
6.2.1;2.1 Materials and Sample Preparation;64
6.2.2;2.2 Laser Brazing;64
6.2.3;2.3 Microstructural Characterization;66
6.3;3 Results and Discussion;67
6.3.1;3.1 Metallographic and Microstructural Characterizations;67
6.3.2;3.2 XRD Elemental Composition Analysis;69
6.4;4 Conclusions;71
6.5;References;71
7;A Review on Underwater Friction Stir Welding (UFSW);73
7.1;1 Introduction;73
7.2;2 Studies on Underwater Friction Stir Welding (UFSW);74
7.2.1;2.1 Joint Strength Analysis;74
7.2.2;2.2 Thermal Distribution Analysis;75
7.2.3;2.3 Microstructural Analysis;76
7.2.4;2.4 Process Modelling and Computing Techniques;77
7.2.5;2.5 Effect of Thermal Boundary Condition in UFSW;78
7.2.6;2.6 Effect of Process Parameters;79
7.2.7;2.7 Defects in UFSW;80
7.2.8;2.8 Dissimilar Weld Joints by UFSW;81
7.3;3 Applications, Advantages and Limitations of UFSW;82
7.3.1;3.1 Applications of UFSW;82
7.3.2;3.2 Advantages of UFSW;82
7.3.3;3.3 Limitations of UFSW;82
7.4;4 Future Scope of UFSW;82
7.5;5 Conclusions;83
7.6;References;83
8;Three Response Optimization of Spot-Welded Joint Using Taguchi Design and Response Surface Methodology Techniques;86
8.1;1 Introduction;87
8.2;2 Methodology;88
8.2.1;2.1 RSW Samples Preparation and Equipment;88
8.2.2;2.2 RSW Parameters Selection;88
8.2.3;2.3 Measurement of FZ and HAZ Sizes;90
8.2.4;2.4 Evaluation of Tensile-Shear Load;90
8.3;3 Results and Discussion;90
8.3.1;3.1 Three-Response Taguchi;91
8.3.2;3.2 Response Surface Methodology;92
8.3.3;3.3 Confirmation Tests;93
8.4;4 Conclusions;94
8.5;References;95
9;A Review on Mechanical Properties of SnAgCu/Cu Joint Using Laser Soldering;97
9.1;1 Introduction;97
9.2;2 Process of Laser Joining;98
9.2.1;2.1 Mechanical Properties of Solder Joint When Exposed to Laser Joining;100
9.3;3 Conclusions;105
9.4;References;105