Advanced Marine Structures

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Introduction and scope – Fixed type structures – Compliant type structures – New generation marine structures – Environmental loads – Ultimate load design principles – Ultimate limit state – Partial safety factor – Plastic design – Plastic analysis- example problems – Theories of failure – Shear centre – Plastic capacity of sections under combined loads – Impact analysis – Ultimate capacity of tubular joints

Fluid-structure interaction – Flow through perforated members – flow-induced vibration – Introduction to Reliability of marine structures – Reliability framework in marine structures – Ultimate limit state and reliability approach – Levels of reliability – Methods of reliability estimates and limitations – FOSM and AFSOM methods of reliability – Fatigue and fracture – fatigue failure – Fatigue loading and fatigue damage assessment – Stress concentration and fatigue analysis

Course Curriculum

Introduction and Scope Details 30:3
Fluid structure interaction-I Details 40:16
Introduction to Reliability I Details 51:59
Fracture and Fatigue Details 48:39
Fixed type structures Details 40:17
Fluid structure interaction-II Details 26:52
Introduction to Reliability II Details 56:50
Fatigue failure Details 51:13
Compliant type structures Details 45:28
Fluid induced vibration-I Details 40:15
Introduction to Reliability III Details 46:48
Fatigue loading and fatigue analysis Details 35:36
New generation marine structures Details 0:32
Fluid induced vibration-II Details 56:28
Reliability framework in Marine structures Details 37:37
Deterministic fatigue analysis Details 49:47
Environmental loads-I Details 51:52
Flow through perforated members-I Details 41:26
Ultimate Limit state and Reliability approach I Details 44:32
Spectral fatigue analysis Details 54:18
Environmental loads-II Details 53:10
Flow through perforated members- numerical studies-II Details 56:6
Ultimate limit state and Reliability approach II Details 50:13
Stress concentration and fatigue analysis Details 45:47
Environmental loads-III Details 51:20
Flow through perforated members- III- Analytical studies Details 49:8
Levels of Reliability Details 58:37
Environmental loads-IV Details 53:59
FOSM and AFOSM methods of Reliability Details 53:4
Other loads-I Details 35:53
Other loads-II Details 1:3:58
Ultimate load design principles-I Details 54:29
Ultimate Limit State-I Details 43:54
Ultimate Limit State-II Details 50:44
Ultimate Limit State-III Details 54:40
Partial safety factor Details 1:17
Plastic design-I Details 53:23
Plastic design-II Details 57:6
Plastic design-III Details 42:24
Plastic design-IV- Example problems-I Details 55:14
Plastic analysis- Example problems-II Details 45:38
Plastic analysis- Example problems-III Details 46:14
Theories of failure-I Details 48:5
Theories of failure-II Details 53:6
Theories of failure-III Details 47:27
Theories of failure-IV Details 52:22
Shear centre-I Details 58:45
Shear centre-II- Examples Details 46:38
Plastic capacity of sections under combined loads-I Details 47:20
Plastic capacity of sections under combined loads-II Details 50:51

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