Local Strength of Ship Structures

Dr. Piero Caridis received his education in Greece and attended the universities of Glasgow and London (UCL) where he studied naval architecture at an undergraduate and a postgraduate level. After his studies he was trained and subsequently assumed the responsibilities of a marine superintendent in a shipping company in Piraeus, Greece. He was subsequently employed by Glasgow University and carried out research which led to his PhD degree in nonlinear structural mechanics. Dr Caridis then joined the School of Naval Architecture and Marine Engineering of the National Technical University of Athens where he taught courses in ship strength and inspection, repair and maintenance of ship structures for thirty years. His research interests included nonlinear behaviour of ship structures, marine accident analysis and ship repair and maintenance. He has been a member of the International Ship and Offshore Structures Congress (ISSC) committees since 1991. Dr Caridis retired from NTUA in 2016 following which he taught a number of courses at the University of Strathclyde in Glasgow, Scotland during the period 2017-19. From 2022 onwards he has been contributing to online teaching courses on ship and submarine structures.

Preface

Part 1: General Considerations

Chapter 1 Local Strength Problems in Ship Structures

Chapter 2 Engineering Mechanics and Ship Structures

Chapter 3 Differential Equations in Ship Structures

Chapter 4 Marine Structural and Material Behaviour

Chapter 5 Finite Element Applications to Local Strength Problems

Part 2: Structural Members

Chapter 6 Lateral Loading of Rectangular Flat Plates

Chapter 7 Buckling Strength of Plating in Compression and in Shear

Chapter 8 Buckling Strength of Plating in Combined Loads

Chapter 9 Lateral Loading of Stiffened Plating Modelled as a Beam

Chapter 10 Compressive Strength of Columns and Beam-Columns

Chapter 11 Stiffened Plating under Predominantly Compressive Loads

Chapter 12 Torsional Behaviour of Stiffened Plating

Chapter 13 Design of Local Ship Structures for Strength

Chapter 14 Fatigue in Ship Structures

Chapter 15 Fatigue Design of Ship Structural Details

Part 3: Major Substructures

Chapter 16 Grillages

Chapter 17 Transverse Frames

Chapter 18 Transverse and Longitudinal Bulkheads

Chapter 19 Superstructures and Deckhouses

Part 4 – Appendices

A1 Quadratic Forms and Convexity

A2 Design Curves for Linear Elastic Bending of Orthotropic Plates

A3 Design Curves for Nonlinear Response of Orthotropic Plates

A4 Large Deflection Bending of Rectangular Plates Subjected to Lateral Pressure Loads

A5 Deckhouse Efficiency Factors

Index