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Hybrid Ship Hulls
Engineering Design Rationales
1st Edition - July 15, 2014
Author: Vladimir M. Shkolnikov
Language: English
Paperback ISBN:9780128103050
9 7 8 - 0 - 1 2 - 8 1 0 3 0 5 - 0
Hardback ISBN:9780128008614
9 7 8 - 0 - 1 2 - 8 0 0 8 6 1 - 4
eBook ISBN:9780128010921
9 7 8 - 0 - 1 2 - 8 0 1 0 9 2 - 1
Hybrid Ship Hulls provides an overview of cutting-edge developments in hybrid composite-metal marine ship hulls, covering the critical differences in material processing and s…Read more
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Hybrid Ship Hulls provides an overview of cutting-edge developments in hybrid composite-metal marine ship hulls, covering the critical differences in material processing and structural behavior that must be taken into account to maximise benefits and performance.Supporting the design of effective hybrid hulls through proper consideration of the benefits and challenges inherent to heterogenic structures, the book covers specific details of quality control, manufacturing, mechanical and thermal stress, and other behavioral aspects that need to be treated differently when engineering hybrid ship hulls. With a particular focus on heavy-duty naval applications, the book includes guidance on the selection of composite part configurations, innovative design solutions, novel hybrid joining techniques, and serviceability characterization.
Addresses the engineering requirements specific to hybrid structure engineering that are essential for optimization of hybrid hull design and maximization of material benefits.
Covers methodology, techniques and data currently unavailable from other sources, providing the essential base knowledge to support robust design, reliable manufacturing, and proper serviceability evaluation.
Includes MATLAB codes, enabling engineers to easily apply the methods covered to their own engineering design challenges.
Naval architects, structural engineers, researchers, MSc and PhD students of naval architecture dealing with ship hull design within academia, private companies and government agencies.
Preface
Acknowledgments
Chapter 1: Premises of Hybrid Hull Implementation
Abstract
1.1 Trends in Demand for Composite and Hybrid Structures
1.2 Hybrid Hull Peculiarities
1.3 Inheritance of Composite Shipbuilding
1.4 Advanced Design-Technology Concepts
Chapter 2: Existing and Prospective Hybrid Hulls
Abstract
2.1 Composite Superstructures of Hybrid Surface Vessels
2.2 Composite Outboard Submarine Structures
Chapter 3: Material-Transition Structures
Abstract
3.1 Prerequisites of Rational Design
3.2 Benchmarking of Existing Hybrid Joining Technologies
3.3 Advantageous Joining Options
Chapter 4: Comeld-2 Development and Performance Evaluation
Abstract
4.1 Introductory Study
4.2 Impact Resistance
4.3 Reparability
4.4 Preliminary Analytical Optimization
4.5 Material Processing
4.6 Champion Selection
4.7 Moistening/Watertightness Examination
4.8 Champion Mechanical-Environmental Testing
4.9 Techno-Economic Appraisal
4.10 Comeld-2 Readiness
Chapter 5: Serviceability Characterization
Abstract
5.1 Existing Approach
5.2 Prerequisites of Methodology Advancement
5.3 Serviceability at Conventional Load Cases
5.4 Structural Performance at Complex Loading Profiles
5.5 Practical Applications
5.6 Experimental Verification of the Kinetic-Based Approach
5.7 Methodological Upgrade of Serviceability Evaluation
Chapter 6: Prospective Investigations
Abstract
6.1 Prevention of Galvanic Corrosion
6.2 Laser-Based Surfi-Sculpt
6.3 Comeld-2 Non-Naval Applications
Appendix: MatLab Codes on Serviceability Characterization
7.1 Ultimate Strength Versus Length of Loading and Temperature
7.2 Residual Strength
7.3 Cyclic Loading
7.4 DSV Diving
Glossary/Abbreviations
Index
No. of pages: 200
Language: English
Edition: 1
Published: July 15, 2014
Imprint: Butterworth-Heinemann
Paperback ISBN: 9780128103050
Hardback ISBN: 9780128008614
eBook ISBN: 9780128010921
VS
Vladimir M. Shkolnikov
Dr. Vladimir M. Shkolnikov has over 40 years of combined Russian-American experience in composite science and engineering, primarily relating to naval structural applications. Throughout the 70s, 80s and 90s he was involved in most R&D projects involving composites application for the Russian/Soviet Navy, being a Research Scientist/Sr. Research Scientist in the Krylov State Research Centre (1972-1991) and then a Sr. Research Scientist in the Institute of Transportation Problems of the Russian Academy of Sciences (1991-1995), both in St. Petersburg, Russia. Since moving to the U.S. in 1995 he has conducted a number of challenging projects for the U.S. Department of Defense and other federal agencies and private companies. His most recent investigation, sponsored by the Office of Naval Research, is dedicated to development of advanced hybrid (composite-to metal) joining technology for heavy-duty naval applications.
Affiliations and expertise
Principal Investigator, Beltran Inc., New York, USA.