This book is written based on a systematic and in-depth study on interface mechanics issues in marine engineering structures and equipment. It begins by establishing an accurate analysis model for the stress field at the interface crack tip, summarizing fundamental interface problems for any combination of two materials. It focuses on interface strength in defective marine metal composite and structures and proposes relevant strength analysis models and asymptotic damage mechanism of composite material pipelines and joint interfaces. An exploration for the mechanism of strength evolution and…mehr
This book is written based on a systematic and in-depth study on interface mechanics issues in marine engineering structures and equipment. It begins by establishing an accurate analysis model for the stress field at the interface crack tip, summarizing fundamental interface problems for any combination of two materials. It focuses on interface strength in defective marine metal composite and structures and proposes relevant strength analysis models and asymptotic damage mechanism of composite material pipelines and joint interfaces. An exploration for the mechanism of strength evolution and attenuation under complex ocean conditions is made, and the dynamic prediction for ultimate bearing capacity considering the strength attenuation of material and interface is given, and a detection method for interface damage of composite pipe cables is proposed. With combined method of theoretical analysis, numerical simulation and experimental verification, it provides valuable knowledge and practical techniques that can be applied in emerging marine engineering area. Researchers and engineers in the field of offshore engineering equipment can benefit from the book.
Artikelnr. des Verlages: 89545471, 978-981-95-3199-8
Seitenzahl: 187
Erscheinungstermin: 11. Dezember 2025
Englisch
Abmessung: 235mm x 155mm
ISBN-13: 9789819531998
ISBN-10: 9819531993
Artikelnr.: 75366433
Herstellerkennzeichnung
Springer-Verlag GmbH
Tiergartenstr. 17
69121 Heidelberg
ProductSafety@springernature.com
Autorenporträt
Yu Zhang is a Professor and Doctoral Supervisor at China University of Petroleum (Beijing), serving as the Vice Dean of the College of Safety and Ocean Engineering. She is a recipient of the National Excellent Young Scientists Fund and holds key positions including Chair of the China Branch of the Society for Underwater Technology (SUT), Director of the Subsea Production Systems Division at the National Energy R&D Center, Deputy Director of the Women Scientists Committee of the China Shipbuilding Society, Council Member of the Beijing Society of Theoretical and Applied Mechanics, Technical Program Committee (TPC) Member of the International Society of Offshore and Polar Engineers (ISOPE), and Key Member of the Taishan Industrial Leading Talent Team in Shandong Province. With extensive expertise in the design, operation, maintenance, and safety assessment of offshore engineering structures and equipment, she has led over 20 major research projects, including National Science and Technology Major Projects, Ministry of Industry and Information Technology (MIIT) initiatives, and National Natural Science Foundation of China (NSFC) programs. Her academic achievements include more than 80 high-impact journal publications, over 20 authorized invention patents, one authored textbook, contributions to three additional compilations, and eight prestigious awards such as the Special Prize of the China Steel Construction Society and the First Prize of Marine Science and Technology. She also serves as Associate Editor of Marine Systems & Ocean Technology, Editorial Board Member of Ocean and Coastal Management and Sustainable Horizons, and Vice Chairman of China Offshore Platform.
Inhaltsangabe
Application and challenges of carbon fiber reinforced polymers in marine structures and equipments.- Key Technologies and Challenges in Marine Composite Pipe and Cable Design.- Stress intensity factors of a central interface crack in a bonded finite plate and periodic interface cracks under arbitrary material combinations.- Effect of Adhesive Thickness on the Intensity of Singular Stress at the Adhesive Dissimilar Joint.- A mesh-independent technique to evaluate stress singularities in adhesive joints.- Analytical study of the strength of adhesive joints of riser pipes.- Research on interface viscoelastic mechanical modedl based on modified cohesive zone and generalized Maxwell models.- Stress analysis of adhesive in a cracked steel plate repaired with CFRP.- Rigorous SIF-Based Prediction of Fatigue Life Improvement for Prestressed-CFRP-Repaired Cracked Steel Plates.- The debonding failure analysis of corroded pipes repaired with CFRP under tension and the bending moment.- The Attenuation mechanism of CFRP repaired corroded marine pipelines based on experiments and FEM.- The research of strength degradation characteristics of CFRP-repaired pipes under fatigue loads based on experimental and numerical analysis.- Research on the Damage Mechanisms of Interface in Offshore Floating LCO2 Cryogenic Hose under LCO2 Corrosion.- The signal analysis of Lamb wave in steel plates strengthened by CFRP with interface debonding.
Application and challenges of carbon fiber reinforced polymers in marine structures and equipments.- Key Technologies and Challenges in Marine Composite Pipe and Cable Design.- Stress intensity factors of a central interface crack in a bonded finite plate and periodic interface cracks under arbitrary material combinations.- Effect of Adhesive Thickness on the Intensity of Singular Stress at the Adhesive Dissimilar Joint.- A mesh-independent technique to evaluate stress singularities in adhesive joints.- Analytical study of the strength of adhesive joints of riser pipes.- Research on interface viscoelastic mechanical modedl based on modified cohesive zone and generalized Maxwell models.- Stress analysis of adhesive in a cracked steel plate repaired with CFRP.- Rigorous SIF-Based Prediction of Fatigue Life Improvement for Prestressed-CFRP-Repaired Cracked Steel Plates.- The debonding failure analysis of corroded pipes repaired with CFRP under tension and the bending moment.- The Attenuation mechanism of CFRP repaired corroded marine pipelines based on experiments and FEM.- The research of strength degradation characteristics of CFRP-repaired pipes under fatigue loads based on experimental and numerical analysis.- Research on the Damage Mechanisms of Interface in Offshore Floating LCO2 Cryogenic Hose under LCO2 Corrosion.- The signal analysis of Lamb wave in steel plates strengthened by CFRP with interface debonding.
Es gelten unsere Allgemeinen Geschäftsbedingungen: www.buecher.de/agb
Impressum
www.buecher.de ist ein Internetauftritt der buecher.de internetstores GmbH
Geschäftsführung: Monica Sawhney | Roland Kölbl | Günter Hilger
Sitz der Gesellschaft: Batheyer Straße 115 - 117, 58099 Hagen
Postanschrift: Bürgermeister-Wegele-Str. 12, 86167 Augsburg
Amtsgericht Hagen HRB 13257
Steuernummer: 321/5800/1497
USt-IdNr: DE450055826