Advanced Adhesives in Electronics
Materials, Properties and Applications
Published on 19. August 2016
Book
Paperback/Softback
280 pages
978-0-08-101732-6 (ISBN)
Description
Adhesives for electronic applications serve important functional and structural purposes in electronic components and packaging, and have developed significantly over the last few decades. Advanced adhesives in electronics reviews recent developments in adhesive joining technology, processing and properties.
The book opens with an introduction to adhesive joining technology for electronics. Part one goes on to cover different types of adhesive used in electronic systems, including thermally conductive adhesives, isotropic and anisotropic conductive adhesives and underfill adhesives for flip-chip applications. Part two focuses on the properties and processing of electronic adhesives, with chapters covering the structural integrity of metal-polymer adhesive interfaces, modelling techniques used to assess adhesive properties and adhesive technology for photonics.
With its distinguished editors and international team of contributors, Advanced adhesives in electronics is a standard reference for materials scientists, engineers and chemists using adhesives in electronics, as well as those with an academic research interest in the field.
The book opens with an introduction to adhesive joining technology for electronics. Part one goes on to cover different types of adhesive used in electronic systems, including thermally conductive adhesives, isotropic and anisotropic conductive adhesives and underfill adhesives for flip-chip applications. Part two focuses on the properties and processing of electronic adhesives, with chapters covering the structural integrity of metal-polymer adhesive interfaces, modelling techniques used to assess adhesive properties and adhesive technology for photonics.
With its distinguished editors and international team of contributors, Advanced adhesives in electronics is a standard reference for materials scientists, engineers and chemists using adhesives in electronics, as well as those with an academic research interest in the field.
More details
Series
Language
English
Place of publication
Cambridge
United Kingdom
Publishing group
Elsevier Science & Technology
Target group
Professional and scholarly
Product notice
Paperback (trade)
Dimensions
Height: 234 mm
Width: 156 mm
Thickness: 15 mm
Weight
397 gr
ISBN-13
978-0-08-101732-6 (9780081017326)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Other editions
Additional editions
Advanced Adhesives in Electronics
Materials, Properties and Applications
E-Book
05/2011
Woodhead Publishing Ltd
€170.00
Available for download
Book
05/2011
Woodhead Publishing Ltd
€236.21
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Persons
M. O. Alam is a Researcher in the School of Computing and Mathematical Sciences at the University of Greenwich, UK. Christopher Bailey is a Professor in the School of Computing and Mathematical Sciences at the University of Greenwich, UK.
Content
Contributor contact details
Chapter 1: Introduction to adhesives joining technology for electronics
Abstract:
1.1 Introduction
1.2 Classification of adhesives used in electronic packaging
1.3 A brief overview of electronic assemblies
1.4 Typical uses of advanced adhesives in electronics
Chapter 2: Thermally conductive adhesives in electronics
Abstract:
2.1 Introduction
2.2 Model of heat conductance
2.3 Heat transport in thermally conductive adhesives
2.4 Thermally conductive fillers
2.5 Role of polymer base materials
2.6 Thermal conductivity of adhesives and methods for its measurement
2.7 Conclusions
Chapter 3: Anisotropic conductive adhesives in electronics
Abstract:
3.1 Introduction
3.2 Nature of adhesive bond
3.3 Materials and processing
3.4 Critical loading
3.5 Evaluation methods
3.6 Case studies
3.7 Conclusions
3.8 Acknowledgments
3.10 Appendix: List of abbreviations
Chapter 4: Isotropic conductive adhesives in electronics
Abstract:
4.1 Introduction
4.2 General isotropic conductive adhesive (ICA) properties
4.3 Reliability
4.4 Modeling
4.5 Nanotechnologies in isotropic conductive adhesives
4.6 Conclusions
Chapter 5: Underfill adhesive materials for flip chip applications
Abstract:
5.1 Introduction: flip chip and direct chip attachment technology
5.2 Advantages of direct chip attachment technology
5.3 Reliability challenge of flip chip technology
5.4 Advances in the flip chip underfill process and encapsulant materials
5.5 New material challenges to lead-free solder
5.6 The 'no-flow' pre-applied underfill process
5.7 The wafer level pre-applied underfill process
5.8 The wafer level dual encapsulation process
5.9 Conclusions
Chapter 6: Structural integrity of metalaEUR"polymer adhesive interfaces in microelectronics
Abstract:
6.1 Introduction
6.2 Theoretical considerations of work of fracture and bonding strength of adhesive joints
6.3 Chemical and physical intermolecular interactions at interfaces
6.4 Other influential factors determining bond strength of real adhesive joints
6.5 Effect of environmental factors
6.6 Interconnections using electrically conductive adhesives
6.7 Conclusions
Chapter 7: Modelling techniques used to assess conductive adhesive properties
Abstract:
7.1 Introduction
7.2 Numerical modelling technologies
7.3 Modelling applied to packaging processes
7.4 Modelling the thermal, electrical and mechanical performance of adhesives
7.5 Future trends
7.6 Conclusions
Chapter 8: Adhesive technology for photonics
Abstract:
8.1 Introduction
8.2 The major characteristics of adhesives for photonic applications
8.3 Types of adhesive used in photonics
8.4 Major applications of adhesives in photonics
8.5 Adhesives for photonic packaging
8.6 Adhesives used in photonic devices
8.7 Typical challenges for reliable fabrication of photonic devices
8.8 Conclusions
Index
Chapter 1: Introduction to adhesives joining technology for electronics
Abstract:
1.1 Introduction
1.2 Classification of adhesives used in electronic packaging
1.3 A brief overview of electronic assemblies
1.4 Typical uses of advanced adhesives in electronics
Chapter 2: Thermally conductive adhesives in electronics
Abstract:
2.1 Introduction
2.2 Model of heat conductance
2.3 Heat transport in thermally conductive adhesives
2.4 Thermally conductive fillers
2.5 Role of polymer base materials
2.6 Thermal conductivity of adhesives and methods for its measurement
2.7 Conclusions
Chapter 3: Anisotropic conductive adhesives in electronics
Abstract:
3.1 Introduction
3.2 Nature of adhesive bond
3.3 Materials and processing
3.4 Critical loading
3.5 Evaluation methods
3.6 Case studies
3.7 Conclusions
3.8 Acknowledgments
3.10 Appendix: List of abbreviations
Chapter 4: Isotropic conductive adhesives in electronics
Abstract:
4.1 Introduction
4.2 General isotropic conductive adhesive (ICA) properties
4.3 Reliability
4.4 Modeling
4.5 Nanotechnologies in isotropic conductive adhesives
4.6 Conclusions
Chapter 5: Underfill adhesive materials for flip chip applications
Abstract:
5.1 Introduction: flip chip and direct chip attachment technology
5.2 Advantages of direct chip attachment technology
5.3 Reliability challenge of flip chip technology
5.4 Advances in the flip chip underfill process and encapsulant materials
5.5 New material challenges to lead-free solder
5.6 The 'no-flow' pre-applied underfill process
5.7 The wafer level pre-applied underfill process
5.8 The wafer level dual encapsulation process
5.9 Conclusions
Chapter 6: Structural integrity of metalaEUR"polymer adhesive interfaces in microelectronics
Abstract:
6.1 Introduction
6.2 Theoretical considerations of work of fracture and bonding strength of adhesive joints
6.3 Chemical and physical intermolecular interactions at interfaces
6.4 Other influential factors determining bond strength of real adhesive joints
6.5 Effect of environmental factors
6.6 Interconnections using electrically conductive adhesives
6.7 Conclusions
Chapter 7: Modelling techniques used to assess conductive adhesive properties
Abstract:
7.1 Introduction
7.2 Numerical modelling technologies
7.3 Modelling applied to packaging processes
7.4 Modelling the thermal, electrical and mechanical performance of adhesives
7.5 Future trends
7.6 Conclusions
Chapter 8: Adhesive technology for photonics
Abstract:
8.1 Introduction
8.2 The major characteristics of adhesives for photonic applications
8.3 Types of adhesive used in photonics
8.4 Major applications of adhesives in photonics
8.5 Adhesives for photonic packaging
8.6 Adhesives used in photonic devices
8.7 Typical challenges for reliable fabrication of photonic devices
8.8 Conclusions
Index