Creep and Fatigue in Polymer Matrix Composites: Woodhead Publishing Series in Composites Science and Engineering
Editat de Rui Miranda Guedesen Limba Engleză Paperback – 18 mar 2019
- Reviews the latest research in modeling and predicting creep and fatigue in polymer matrix composites
- Puts a specific focus on viscoelastic and viscoplastic modeling
- Features the time-temperature-age superposition principle for predicting long-term response
- Examines the creep rupture and damage interaction, with a particular focus on time-dependent failure criteria for the lifetime prediction of polymer matrix composite structures that are illustrated using experimental cases
| Toate formatele și edițiile | Preț | Express |
|---|---|---|
| Paperback (2) | 1019.80 lei 5-7 săpt. | |
| ELSEVIER SCIENCE – 19 aug 2016 | 1019.80 lei 5-7 săpt. | |
| ELSEVIER SCIENCE – 18 mar 2019 | 1418.35 lei 5-7 săpt. |
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Specificații
ISBN-13: 9780081026014
ISBN-10: 0081026013
Pagini: 586
Dimensiuni: 152 x 229 mm
Greutate: 0.78 kg
Ediția:2
Editura: ELSEVIER SCIENCE
Seria Woodhead Publishing Series in Composites Science and Engineering
ISBN-10: 0081026013
Pagini: 586
Dimensiuni: 152 x 229 mm
Greutate: 0.78 kg
Ediția:2
Editura: ELSEVIER SCIENCE
Seria Woodhead Publishing Series in Composites Science and Engineering
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Cuprins
Part One Viscoelastic and viscoplastic modelling
1. Viscoelastic constitutive modeling of creep and stress relaxation in polymers and polymer matrix composites
G.C. Papanicolaou and S.P. Zaoutsos
2. Time-temperature-age superposition principle for predicting long-term response of linear viscoelastic materials
E.J. Barbero
3. Effect of moisture on elastic and viscoelastic properties of fiber reinforced plastics: Retrospective and current trends
Andrey Aniskevich and Tatjana Glaskova-Kuzmina
4. Micromechanics Modeling of Hysteretic Responses of Piezoelectric Composites
Chien-hong Lin and Anastasia Muliana
5. Predicting the viscoelastic behavior of polymer composites and nanocomposites
A. Beyle
6. Creep analysis of polymer matrix composites using viscoplastic models
E. Kontou
Part Two Creep rupture
8. Time and temperature dependence of transverse tensile failure of unidirectional carbon fiber-reinforced polymer matrix composites
Jun Koyanagi and Mio Sato
9. Lifetime prediction of polymers and polymer matrix composite structures: Failure criteria and accelerated characterization
Rui Miranda Guedes
10. Time-dependent damage evolution in unidirectional and multidirectional polymer composite laminates
Raghavan Jayaraman
Part Three Fatigue modeling, characterization, and monitoring
11 Accelerated testing methodology for long-term creep and fatigue strengths of polymer composites
Masayuki Nakada
12 A combined creep and fatigue prediction methodology for fiber-reinforced polymer composites based on the kinetic theory of fracture
Faisal H. Bhuiyan and Ray S. Fertig, III
13 Fatigue testing for polymer matrix composites
Ruben Dirk Bram Sevenois and Wim Van Paepegem
14 S–N curve and fatigue damage for practicality
Ho Sung Kim
15 Modeling, analysis, and testing of viscoelastic properties of shape memory polymer composites and a brief review of their space engineering applications
Wessam Al Azzawi, Madhubhashitha Herath and Jayantha Epaarachchi
16 Characterization of viscoelasticity, viscoplasticity, and damage in composites
Janis Varna and Liva Pupure
17 Structural health monitoring of composite structures for durability
Sreenivas Alampalli
1. Viscoelastic constitutive modeling of creep and stress relaxation in polymers and polymer matrix composites
G.C. Papanicolaou and S.P. Zaoutsos
2. Time-temperature-age superposition principle for predicting long-term response of linear viscoelastic materials
E.J. Barbero
3. Effect of moisture on elastic and viscoelastic properties of fiber reinforced plastics: Retrospective and current trends
Andrey Aniskevich and Tatjana Glaskova-Kuzmina
4. Micromechanics Modeling of Hysteretic Responses of Piezoelectric Composites
Chien-hong Lin and Anastasia Muliana
5. Predicting the viscoelastic behavior of polymer composites and nanocomposites
A. Beyle
6. Creep analysis of polymer matrix composites using viscoplastic models
E. Kontou
Part Two Creep rupture
8. Time and temperature dependence of transverse tensile failure of unidirectional carbon fiber-reinforced polymer matrix composites
Jun Koyanagi and Mio Sato
9. Lifetime prediction of polymers and polymer matrix composite structures: Failure criteria and accelerated characterization
Rui Miranda Guedes
10. Time-dependent damage evolution in unidirectional and multidirectional polymer composite laminates
Raghavan Jayaraman
Part Three Fatigue modeling, characterization, and monitoring
11 Accelerated testing methodology for long-term creep and fatigue strengths of polymer composites
Masayuki Nakada
12 A combined creep and fatigue prediction methodology for fiber-reinforced polymer composites based on the kinetic theory of fracture
Faisal H. Bhuiyan and Ray S. Fertig, III
13 Fatigue testing for polymer matrix composites
Ruben Dirk Bram Sevenois and Wim Van Paepegem
14 S–N curve and fatigue damage for practicality
Ho Sung Kim
15 Modeling, analysis, and testing of viscoelastic properties of shape memory polymer composites and a brief review of their space engineering applications
Wessam Al Azzawi, Madhubhashitha Herath and Jayantha Epaarachchi
16 Characterization of viscoelasticity, viscoplasticity, and damage in composites
Janis Varna and Liva Pupure
17 Structural health monitoring of composite structures for durability
Sreenivas Alampalli
Recenzii
"This book would appeal to the material scientist, polymer chemist, and structural engineers who want to learn about the latest information for testing and modeling the creep and fatigue properties of various composite polymeric materials used for structural applications. It contains background on fundamentals to orient a beginner in this area and advanced modeling information with theory and experimental results to satisfy in-depth detail desired by more experienced readers in this area of research.
This book would be useful for material scientists, polymer engineers, and anyone interested in learning about adhesive joining technology. The book would be a good primer for learning about adhesive joining technology and the critical factors that determine good adhesive joints." --IEEE Electrical Insulation Magazine
This book would be useful for material scientists, polymer engineers, and anyone interested in learning about adhesive joining technology. The book would be a good primer for learning about adhesive joining technology and the critical factors that determine good adhesive joints." --IEEE Electrical Insulation Magazine