Fracture Behavior of Nanocomposites and Reinforced Laminate Structures / edited by Ashwani Kumar, Yogesh Kumar Singla, Michael R. Maughan.

Format:

Book

Contributor:

Ashwani Kumar, editor.

Singla, Yogesh Kumar, editor.

Maughan, Michael R., editor.

Language:

English

Subjects (All):

Composite materials.

Statics.

Nanotechnology.

Building materials.

Composites.

Mechanical Statics and Structures.

Nanoscale Design, Synthesis and Processing.

Structural Materials.

Local Subjects:

Composites.

Mechanical Statics and Structures.

Nanoscale Design, Synthesis and Processing.

Structural Materials.

Physical Description:

1 online resource (537 pages)

Edition:

1st ed. 2024.

Place of Publication:

Cham : Springer Nature Switzerland : Imprint: Springer, 2024.

Summary:

This contributed volume is designed for fundamental understanding of fracture behavior of composites applied in core industrial sectors such as mechanical, electronics, Automotive, civil structures, and aerospace research and fills the gap of knowledge on fracture analysis. The book is primarily written for senior undergraduates, graduate students, and academic researchers in above mentioned fields. Presents crack growth, RU life in structures and ensures laminate integrity; Explains NDT in composites, AI for RUL & fatigue life, and repair for extended life; Discusses Temporal Dependency Analysis in Predicting RUL of Aircraft Structures and study Aerospace-Grade Fiber/Epoxy.

Contents:

Chapter 1. Introduction to Mechanical and Fracture Behaviour Characterization of Nanocomposites and Reinforced Laminated Structures

Chapter 2. Theoretical and Computational Modeling of the Fracture Behavior of Composite Structures and Interfacial problems

Chapter 3. Fracture Mechanics of Nanocomposites and Reinforced Laminates: An In-Depth Exploration of Mode I, Mode II, and Mixed Mode I/II

Chapter 4. Prediction of mixed-mode I/II fracture load using practical and interpretable machine learning method

Chapter 5. Structural Integrity of Laminates: Fracture Modes I, II, and I/II Under Various Loads

Chapter 6. Mode 1, Mode II and Mixed Mode I/II Fracture Behavior of Laminated Structures

Chapter 7. Numerical Modelling of Crack Growth Path in Linear Elastic Materials

Chapter 8. Fatigue characterization of additively manufactured continuous fiber composites using traditional and non-traditional experimental techniques

Chapter 9. Crack growth behavior of 6082 Al alloys under mixed mode-I loading

Chapter 10. Fracture Behaviour of Aerospace-Grade Fiber/Epoxy Composites

Chapter 11. Mechanical Characterization and Fracture Analysis of Aerospace-Grade Fiber (NanoComposites): A Study on Structural Integrity and Damage Tolerance

Chapter 12. Analyzing Fractures in Nanomaterial-Enhanced Carbon Fiber Reinforced Polymer (CFRP) Composites

Chapter 13. Temporal Dependency Analysis in Predicting RUL of Aircraft Structures using Recurrent Neural Networks

Chapter 14. Experimental and XFEM evaluation of fatigue life of 6082 Al alloy

Chapter 15. Life Estimation of Carbon Fiber Reinforced Polymer (CFRP) With High-Density Polyethylene (HDPE) Under Thermal Loading Conditions

Chapter 16. AI & ML-based Models for Predicting Remaining Useful Life (RUL) of Nanocomposites and Reinforced Laminated Structures

Chapter 17. Resurrection Structure: New Generation of Bio-Inspired Nanocomposites and Laminates

Chapter 18. Laminated structures and fracture mechanics - A comprehensive study of Mode 1, Mode II, and Mixed Mode III Behavior

Chapter 19. Mixed Mode Fracture Behavior of 3D Printed Nanocomposites

Chapter 20. Insights into Aerospace Structural Integrity: A Study on Fiber/Epoxy Composites Fracture

Chapter 21. NON-DESTRUCTIVE TESTING METHODS IN COMPOSITE MATERIALS.

Notes:

Includes bibliographical references and index.

ISBN:

3-031-68694-2