Composite Materials and Structures in Aerospace Engineering
Composite structures are massively exploited in many engineering fields. For instance, the state-of-the-art civil aircraft (B787 and A350) are mostly made of composite materials. The design of composites leads to challenging tasks since those competencies that stemmed from the adoption of metallic materials are often inadequate for composites. Insights on many different disciplines and tight academic/industrial cooperation are required to fully exploit composite structure capabilities.
Published on 1. April 2016
Book
Paperback/Softback
248 pages
978-3-03835-746-9 (ISBN)
Description
Composite structures are massively exploited in many engineering fields. For instance, the state-of-the-art civil aircraft (B787 and A350) are mostly made of composite materials. The design of composites leads to challenging tasks since those competencies that stemmed from the adoption of metallic materials are often inadequate for composites. Insights on many different disciplines and tight academic/industrial cooperation are required to fully exploit composite structure capabilities.
More details
Series
Language
English
Place of publication
Zurich
Switzerland
Target group
Professional and scholarly
Illustrations
Illustrations
Dimensions
Height: 240 mm
Width: 170 mm
Thickness: 12 mm
Weight
560 gr
ISBN-13
978-3-03835-746-9 (9783038357469)
DOI
10.4028/b-Im56e2
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Other editions
Additional editions
Erasmo Carrera
Composite Materials and Structures in Aerospace Engineering
Composite structures are massively exploited in many engineering fields. For instance, the state-of-the-art civil aircraft (B787 and A350) are mostly made of composite materials. The design of composites leads to challenging tasks since those competencies that stemmed from the adoption of metallic materials are often inadequate for composites. Insights on many different disciplines and tight academic/industrial cooperation are required to fully exploit composite structure capabilities.
Software
04/2016
Trans Tech Publications Ltd
€178.99
Shipment within 10-20 days
Erasmo Carrera
Composite Materials and Structures in Aerospace Engineering
Composite structures are massively exploited in many engineering fields. For instance, the state-of-the-art civil aircraft (B787 and A350) are mostly made of composite materials. The design of composites leads to challenging tasks since those competencies that stemmed from the adoption of metallic materials are often inadequate for composites. Insights on many different disciplines and tight academic/industrial cooperation are required to fully exploit composite structure capabilities.
E-Book
03/2016
Trans Tech Publications Ltd
€188.32
Available for download
Content
Preface
Chapter 1
An Introduction to Micromechanics
Chapter 2
Optimisation of Variable Stiffness Plates
Chapter 3
Selected Aspects of Current Challenges in Composite Product Development for Automotive and Aerospace Industry
Chapter 4
Fatigue Properties of Aerospace Z-Pinned Composites
Chapter 5
Some Examples of "Multi-Physical" Fatigue of Organic Matrix Composites for Aircraft Applications
Chapter 6
Post-Buckling Analysis of Damaged Multilayered Composite Stiffened Plates by Rayleigh-Ritz Method
Chapter 7
A Promising Way to Model Damage in Composite and Dry Fabrics Using a Discrete Element Method (DEM)
Chapter 8
A Thermal Stress Analysis of Three-Dimensional Beams by Refined One-Dimensional Models and Strong Form Solutions
Chapter 9
High-Fidelity and Computationally Efficient Component-Wise Structural Models: An Overview of Applications and Perspectives
Chapter 10
Reduced Order Models for Static and Dynamic Analysis of Composite Panels Based on a Perturbation Approach
Chapter 11
Shell Finite Elements for the Analysis of Multifield Problems in Multilayered Composite Structures
Chapter 1
An Introduction to Micromechanics
Chapter 2
Optimisation of Variable Stiffness Plates
Chapter 3
Selected Aspects of Current Challenges in Composite Product Development for Automotive and Aerospace Industry
Chapter 4
Fatigue Properties of Aerospace Z-Pinned Composites
Chapter 5
Some Examples of "Multi-Physical" Fatigue of Organic Matrix Composites for Aircraft Applications
Chapter 6
Post-Buckling Analysis of Damaged Multilayered Composite Stiffened Plates by Rayleigh-Ritz Method
Chapter 7
A Promising Way to Model Damage in Composite and Dry Fabrics Using a Discrete Element Method (DEM)
Chapter 8
A Thermal Stress Analysis of Three-Dimensional Beams by Refined One-Dimensional Models and Strong Form Solutions
Chapter 9
High-Fidelity and Computationally Efficient Component-Wise Structural Models: An Overview of Applications and Perspectives
Chapter 10
Reduced Order Models for Static and Dynamic Analysis of Composite Panels Based on a Perturbation Approach
Chapter 11
Shell Finite Elements for the Analysis of Multifield Problems in Multilayered Composite Structures