Adhesive joining of structural components : new insights and technologies
This book introduces the reader to some recent progress involved in adhesive joining of structural components. The chapters, seminal SAE International technical papers, cover the most recent advances in adhesive materials, surface preparation and controls, innovative bonding technologies, hybrid bon...
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| Other Authors | |
|---|---|
| Format | Electronic eBook |
| Language | English |
| Published |
Warrendale, Pa. (400 Commonwealth Dr., Warrendale PA USA) :
Society of Automotive Engineers,
2018.
|
| Series | Society of Automotive Engineers. Electronic publications.
|
| Subjects | |
| Online Access | Full text |
| ISBN | 9780768095371 0768095379 9780768092899 0768092892 9780768092882 0768092884 9780768092905 0768092906 9781523124145 1523124148 9780768092875 |
| Physical Description | 1 online resource (1 PDF (144 pages)) |
Cover
Table of Contents:
- Chapter 1. Influence of ductility ingredients of structural adhesives on fracture energy under static mixed-mode loading
- Chapter 2. Surface pretreatment effect on the adhesively single lap joint of 6061-T6 aluminum alloy and carbon fiber T-700/epoxy composites
- Chapter 3. Emerging technologies for use in aerospace bonded assemblies
- Chapter 4. Innovative production technologies for large components
- Chapter 5. Numerical investigation of the rivet installation in an adhesively bonded joint and the load transfer in a bolted/bonded hybrid joint
- Chapter 6. Cracking stopping in the bondline of adhesively bonded composite adherents by means of a mechanical fastener: numerical and experimental investigation
- Chapter 7. Testing of adhesive bonds on large industrial components made of CFRP with a robot inspection system using active thermography, leading to reduced cycle times
- Extended non-destructive testing of composite bonds
- Chapter 9. Failure modeling of adhesive bonded joints with cohesive elements
- Chapter 10. Prediction of the behaviors of adhesively bonded steel hat section components under axial impact loading.