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Composite Structures
Safety Management
1st Edition - May 19, 2008
Author: Dr. Bjorn F. Backman
Language: English
Hardback ISBN:9780080548098
9 7 8 - 0 - 0 8 - 0 5 4 8 0 9 - 8
eBook ISBN:9780080564975
9 7 8 - 0 - 0 8 - 0 5 6 4 9 7 - 5
Composite Structures extends the focus to all the entities that participate in the successful quest for safety and demonstrates how design, manufacturing, maintenance, (inspecti…Read more
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Composite Structures extends the focus to all the entities that participate in the successful quest for safety and demonstrates how design, manufacturing, maintenance, (inspection), operation, and requirements (regulations) all are part of successful, safe innovation and necessary to assure safe flight through the life of the vehicle. It addresses the notion that safety is a function of time and that vigilant risk management is only successful if it includes all participating entities.
It is a companion to the author's first volume, Composite Structure: Design, Safety and Innovation, published by Elsevier in June 2005.
Eliminates an unacceptable 'gap' in the world of safety
Represents a 'new' approach to designing, manufacturing, maintaining, operating and regulating composite airplane structures
Written for professionals in the aerospace structural development arena whether in indusrty, academia or government
Composite Safety specialists in industry, government and academia, aeronautical and aerospace engineers, engineers and scientists in structures, materials science, safety, quality control, testing, design, development and applied research, and advanced graduate students.
Index
PART 1 SAFETY MANAGEMENT Chapter 1 Introduction
1.1. Elements of Structural Safety
1.2. Interaction between Elements
1.3. Effects on Safety and the Influence of Residual Strength
1.4. Essential Conclusions of Chapter 1 Chapter 2 Structural Integrity and Safety Threats
2.1. Integrity and Manufacturing
2.2. Integrity and Maintenance
2.3. Integrity and Operation
2.4. Integrity and Rerquirements
2.5. Integrity Summary
2.6. Essential Conclusions of Chapter 2
2.7. The Process Quality of the Elements of Safety Chapter 3 Elements of Safety and Design Data
3.1. Mishaps in Manufacturing
3.2. Quality Assurance
3.3. Quality Control
3.4. Errors in Maintenance
3.5. Failures in Operation
3.6. Requirement Transgressions
3.7. Effects of Different Elements of Safety
3.8. Essential Conclusions of Chapter 3 Chapter 4 Effects on the Safe State
4.1. Manufacturing and Processing Discrepancies
4.2. Mechanical Flaws and Damage
4.3. “Added”, Spurious, Internal Loads
4.4. Summary of Effects
4.5. Installation and Assembly Problems
4.6. Maintenance Defects
4.7. Operational Mishaps
4.8. Requirement Formulation
4.9. Monitoring, Interpreting, Reporting and Updating
4.10. Essential Conclusions of Chapter 4 Chapter 5 Process Defects Affecting Quality of Structures
5.1. Defects of Manufacturing
5.2. Defects in Maintenance
5.3. Operational Defects
5.4. Defects in Requirements Formulation
5.5. Targets for Monitoring
5.6. Essential Conclusions for Chapter 5 Chapter 6 Design Criteria Development
6.1. Foundation of Safety-based Criteria
6.2. Fail-Safety, Structural Design and Safe Manufacturing
6.3. Reduced Structural Properties and Unsafe Manufacturing
6.4. Essential Conclusions of Chapter 6 Chapter 7 Scenarios and Structural Integrity
7.1 Critical Scenarios
7.2 Essential Conclusion in Chapter 7 Chapter 8 Safety and Structural Integrity
8.1. Ultimate Integrity; the basic Corner Stone
8.2. Process Quality and Monitoring
8.3. Defect Targets and Relations
8.4. Purpose and Approach of Structural Integrity and Process Quality Chapter 9 Structural Service Monitoring
9.1. Monitoring Example
9.2. Priority Targets for Monitoring
9.3, Structural Defects
9.4. Essential Conclusions of Chapter 9 Chapter 10 Structural Integrity, Safety and Design
10.1. Structural Safety and Criteria
10.2. Essential Conclusions of Chapter 10 Chapter 11 Design Mission, Criticality and Integrity
11.1. Damage Tolerance Integrity and Criticality
11.2. Criticality and Process Defects
11.3. Criticality and Repair Processes
11.4. Criticality and Damage Tolerance Related Processes
11.5. Mechanical Damage Threats
11.6. Essential Conclusions of Chapter 11 Chapter 12 Risk and Uncertainty
12.1 Markers for Monitoring Action
12.2 Situations after Scheduled Inspection
12.3 Wide-spread Defects
12.4 Initial Damage Regions and Process Definition
12.5 Essential Conclusions of Chapter 12 Chapter 13 Elements of Safety and their Characteristics
13.1. Element of Structural Design
13.2. Element of Manufacturing
13.3. Element of Maintenance
13.4. Element of Requirement Formulation
13.5. Safety Targets Chapter 14 Generalized Safe States
14.1. Fail-Safe Integrity
14.2. Integrity Description
14.3 Safety Management Strategy
14.4 Uncertainty and Monitoring
14.5 Essential Conclusions of Chapter 14 Chapter 15 Scenarios and Safety
15.1. Manufacturing Process Defects
15.2. Increase in Internal loads due to Manufacturing Defects
15.3. Maintenance Defects
15.4. Defects in Operation
15.5. Defects in Requirements Formulation Chapter 16 Design Mission and Philosophy
16.1. Maneuver Critical Designs
16.2. Gust Critical Design
16.3. Wide-spread Defects
16.4. Structural Integrity and Composites
16.5. Safety Strategy and Objectives
16.6. Design Data and Integrity
16.7. Essential Conclusions in Chapter 16 Chapter 17 Strategy and Objectives for Design
17.1. Ultimate Integrity
17.2. State of Damage for Ultimate Conditions
17.3. Fail-Safe Integrity
17.4. Discrete Source Damage Integrity
17.5. Essential Conclusions in Chapter 17 PART 2 SAFETY MANAGEMENT SUMMATION Chapter 18 Elements of Safety and Engineering Practices
18.1. Safety Background
18.2. Initial Formulation and Updating
18.3. The “World of Composites” PART 3: IMPROVED STRUCTURAL SAFETY OF COMPOSITES Chapter 19 Improvement in Structural Safety of Composites
19.1. Wide-spread Defects
19.2. Discrete Source Damage Integrity
19.3. Unsafe States and Safety Improvements
19.4. Essential Conclusions in Chapter 19 Chapter 20 Process Quality and Integrity of Requirements Formulation
20.1. Process for Regulations Chapter 21 Safety Management and Process Quality
21.1. Manufacturing Process Safety Management Requirements
21.2. General Process Defects and Effects
21.3. Maintenance Defects in Safety Management
21.4. Operational Defects
21.5. Defective Requirements
21.6. Defect and Effect Review
21.7. Structural Safety Chapter 22 Unsafe State
22.1. Unsafe Elements of Safety
22.2. Total Probability of an Unsafe State Chapter 23 Summary of Safety Management
23.1. Design Process and Practices
23.2. Discrete Source Damage Design
23.3. Tire-Burst
23.4. Fail-Safe Back-up to Reduced Damage Tolerance due to Manufacturing Defects
23.5. Hail-stone Impact in Flight
23.6. Process Development Chapter 24 Philosophy: Design to Explicit Safety Constraints
24.1. Probability of Failure
24.2. Design Process
24.3. Requirements Formulation
24.4. In-Service Monitoring
24.5. Process Development Appendix 1: Failure due to Lost Limit Integrity Appendix 2: Sizing to Safety Considerations - Damage Tolerance Critical Structure
No. of pages: 306
Language: English
Edition: 1
Published: May 19, 2008
Imprint: Elsevier Science
Hardback ISBN: 9780080548098
eBook ISBN: 9780080564975
DB
Dr. Bjorn F. Backman
Affiliations and expertise
Structure and Materials Structured Research, Camano Island, WA, USA