3 Abrasive waterjet machining of dissimilar materials stacked in a hybrid structure
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Fermin Bañon
Abstract
The industry is using strategic materials of different nature in the form of stacked or hybrid structure. Combinations of carbon fiber-reinforced composites (CFRP) with light metallic alloys are widely used in recent years. Nevertheless, due to the different mechanical properties between the two materials, nonconventional machining technologies are required to obtain a correct final geometry. The wear generated in cutting tools, change of cutting parameters in the interface, and the use of lubricants worsen the final performance of the process. For these reasons, abrasive waterjet machining (AWJM) is an appropriate and sustainable technology for the simultaneous machining of dissimilar materials. Research focused on the optimization of cutting parameters, machining strategies, predictive models, or geometrical defects has been developed in recent years. This book chapter focuses on AWJM of hybrid structures and the progress achieved in recent years in order to show the current trends.
Abstract
The industry is using strategic materials of different nature in the form of stacked or hybrid structure. Combinations of carbon fiber-reinforced composites (CFRP) with light metallic alloys are widely used in recent years. Nevertheless, due to the different mechanical properties between the two materials, nonconventional machining technologies are required to obtain a correct final geometry. The wear generated in cutting tools, change of cutting parameters in the interface, and the use of lubricants worsen the final performance of the process. For these reasons, abrasive waterjet machining (AWJM) is an appropriate and sustainable technology for the simultaneous machining of dissimilar materials. Research focused on the optimization of cutting parameters, machining strategies, predictive models, or geometrical defects has been developed in recent years. This book chapter focuses on AWJM of hybrid structures and the progress achieved in recent years in order to show the current trends.
Kapitel in diesem Buch
- Frontmatter I
- Preface V
- Contents VII
- 1 Environmental aspects related to nonconventional machining processes 1
- 2 Vibration assisted machining: turning, drilling, cutting, and laser polishing 25
- 3 Abrasive waterjet machining of dissimilar materials stacked in a hybrid structure 91
- 4 Magnetic abrasive finishing process 119
- 5 Electrical discharge machining of silicon: current progress and future trends 139
- 6 Parametric optimization of machining characteristics of titanium alloy in WEDM 171
- About the editor 189
- Index 191
Kapitel in diesem Buch
- Frontmatter I
- Preface V
- Contents VII
- 1 Environmental aspects related to nonconventional machining processes 1
- 2 Vibration assisted machining: turning, drilling, cutting, and laser polishing 25
- 3 Abrasive waterjet machining of dissimilar materials stacked in a hybrid structure 91
- 4 Magnetic abrasive finishing process 119
- 5 Electrical discharge machining of silicon: current progress and future trends 139
- 6 Parametric optimization of machining characteristics of titanium alloy in WEDM 171
- About the editor 189
- Index 191
