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E-raamat: Adhesives in Marine Engineering

Edited by (DNV, Norway)
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Adhesives in Marine EngineeringSuurem pilt
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Composites and other lightweight structures are being considered for use on ships in order to make marine transport more sustainable and efficient. Renewable energy production, such as offshore wind turbines are experiencing tremendous growth with governments actively promoting and supporting investment into green energy production. One of the key success factors is the ability to join efficiently and reliably composites and other materials with adhesive bonding being the preferred joining method. This new book addresses the important aspects of design, testing, fabrication, inspection and repair of bonded structural joints. The book is divided into three main parts. Part 1 "Design and analysis" encompasses adhesive selection, designing for ships, offshore and for wind turbines and predicting failure. Part 2 "Testing and characterization" addresses testing mechanical, thermal and chemical properties, assessing the moisture resistance and durability for marine environment and fatigue testing. Part 3 "Quality and fabrication" deals with fabrication, NDT and repair of adhesively-bonded joints and structural health monitoring of bonded joints.

Composites and other lightweight structures are being considered for use on ships in order to make marine transport more sustainable and efficient. Renewable energy production, such as offshore wind turbines are experiencing tremendous growth with governments actively promoting and supporting investment into green energy production. One of the key success factors is the ability to join efficiently and reliably composites and other materials with adhesive bonding being the preferred joining method. This new book addresses the important aspects of design, testing, fabrication, inspection and repair of bonded structural joints.
Contributor contact details ix
Preface xi
1 Introduction to using adhesives in marine and offshore engineering
1(16)
J. R. Weitzenbock
1.2 The need for adhesive bonding in the maritime and offshore industries
2(1)
1.3 Potential uses of adhesives in the maritime and offshore industries
2(7)
1.4 Industry specific regulations and how to deal with them
9(4)
1.5 Future trends
13(1)
1.6 References
14(3)
Part I Design and analysis
17(80)
2 Selecting adhesives for marine environments and pre-design
19(15)
J. R. Weitzenbock
2.1 Introduction: the rationale for adhesive selection
19(3)
2.2 Material and process selection
22(2)
2.3 Adhesive selection step 1: translate design requirements
24(3)
2.4 Adhesive selection step 2: screen using constraints
27(1)
2.5 Adhesive selection step 3: rank using objective
28(2)
2.6 Adhesive selection step 4: seek supporting information
30(1)
2.7 Future trends
30(1)
2.8 Sources of further information
31(1)
2.9 Acknowledgements
32(1)
2.10 References
33(1)
3 Designing adhesively bonded joints for ship applications
34(12)
H. J. Phillips
3.1 Introduction
34(2)
3.2 Requirements for adhesively bonded joints for ship applications
36(5)
3.3 Design and evaluation methods
41(2)
3.4 Future trends and conclusions
43(1)
3.5 References
44(2)
4 Designing adhesively bonded joints for wind turbines
46(26)
C. Nagel
A. Sondag
M. Brede
4.1 Introduction
46(1)
4.2 Requirements for adhesively bonded joints for wind rotor blades
47(1)
4.3 Design and modelling methods
48(13)
4.4 Applications of adhesively bonded joints
61(8)
4.5 Future trends and conclusions
69(2)
4.6 References
71(1)
5 Predicting the failure of bonded structural joints in marine engineering
72(25)
D. McGeorge
5.1 Introduction
72(2)
5.2 Design recommendations for bonded structural joints
74(3)
5.3 The influence of the marine environment on the capacity of bonded joints
77(2)
5.4 The response of bonded overlap joints to mechanical loads
79(3)
5.5 Approaches to failure prediction
82(6)
5.6 Predicting the fracture load level of bonded joints
88(2)
5.7 Damage tolerance and resistance to accidental, cyclic and sustained loads
90(2)
5.8 Conclusions
92(1)
5.9 Acknowledgements
93(1)
5.10 References
94(3)
Part II Testing and characterisation
97(112)
6 Testing the mechanical, thermal and chemical properties of adhesives for marine environments
99(56)
W. Broughton
6.1 Introduction
99(1)
6.2 Mechanical testing of adhesives
100(26)
6.3 Thermal properties of adhesives
126(2)
6.4 The effect of creep, fatigue and impact on adhesives
128(5)
6.5 Accelerated environmental testing
133(5)
6.6 Monitoring and assessing degradation
138(7)
6.7 Future trends
145(2)
6.8 Sources of further information
147(1)
6.9 Acknowledgements
147(1)
6.10 References
147(2)
6.11 Appendix: standards
149(6)
7 Assessing the moisture resistance of adhesives for marine environments
155(32)
W. Broughton
7.1 Introduction
155(1)
7.2 Moisture degradation of adhesives
156(5)
7.3 Moisture degradation of adhesive joints
161(12)
7.4 Environmental conditioning and testing
173(5)
7.5 Optimising moisture resistance of adhesive joints
178(2)
7.6 Future trends
180(1)
7.7 Sources of further information
181(1)
7.8 Acknowledgements
181(1)
7.9 References
181(2)
7.10 Appendix: standards
183(4)
8 Durability of adhesives in wet conditions
187(22)
J. Comyn
8.1 Introduction
187(1)
8.2 The effect of water on adhesive joints
187(3)
8.3 The rate of water uptake by adhesives
190(3)
8.4 The effect of salt water on adhesive joints
193(1)
8.5 The effect of humidity on adhesive joints
194(2)
8.6 Other factors affecting durability of adhesives
196(4)
8.7 Preventing loss of joint strength
200(1)
8.8 Sources of further information
201(1)
8.9 References
202(2)
8.10 Appendix: mathematics of diffusion
204(5)
Index 209
Jan R. Weitzenböck is a Principal Engineer at Det Norske Veritas (DNV), Norway.
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