Product details:
ISBN13: | 9789811978401 |
ISBN10: | 9811978409 |
Binding: | Paperback |
No. of pages: | 124 pages |
Size: | 235x155 mm |
Weight: | 219 g |
Language: | English |
Illustrations: | 63 Illustrations, black & white; 3 Illustrations, color |
655 |
Category:
Vibration Behavior in Ceramic-Matrix Composites
Series:
Advanced Ceramics and Composites;
5;
Edition number: 1st ed. 2023
Publisher: Springer
Date of Publication: 18 November 2023
Number of Volumes: 1 pieces, Book
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EUR 181.89
EUR 181.89
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60 045 (57 186 HUF + 5% VAT )
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Short description:
This book focuses on the vibration behavior of ceramic-matrix composites (CMCs), including (1) vibration natural frequency of intact and damaged CMCs; (2) vibration damping of CMCs considering fibers debonding and fracture; (3) temperature-dependent vibration damping of CMCs; (4) time-dependent vibration damping of CMCs; and (5) cyclic-dependent vibration damping of CMCs. Ceramic-matrix composites (CMCs) possess low material density (i.e., only 1/4 or 1/3 of high-temperature alloy) and high-temperature resistance, which can reduce cooling air and improve structure efficiency. Understanding the failure mechanisms and internal damage evolution represents an important step to ensure reliability and safety of CMCs. Relationships between microstructure, damage mechanisms, vibration natural frequency, and vibration damping of CMCs are established. This book helps the material scientists and engineering designers to understand and master the vibration behavior of CMCs at room and elevated temperatures.
Long description:
This book focuses on the vibration behavior of ceramic-matrix composites (CMCs), including (1) vibration natural frequency of intact and damaged CMCs; (2) vibration damping of CMCs considering fibers debonding and fracture; (3) temperature-dependent vibration damping of CMCs; (4) time-dependent vibration damping of CMCs; and (5) cyclic-dependent vibration damping of CMCs. Ceramic-matrix composites (CMCs) possess low material density (i.e., only 1/4 or 1/3 of high-temperature alloy) and high-temperature resistance, which can reduce cooling air and improve structure efficiency. Understanding the failure mechanisms and internal damage evolution represents an important step to ensure reliability and safety of CMCs. Relationships between microstructure, damage mechanisms, vibration natural frequency, and vibration damping of CMCs are established. This book helps the material scientists and engineering designers to understand and master the vibration behavior of CMCs at room and elevated temperatures.
Table of Contents:
Introduction.- First matrix cracking behavior in CMCs at room temperature.- First matrix cracking behavior in CMCs at elevated temperature.- Multiple matrix cracking behavior in CMCs at room temperature.- Multiple matrix cracking behavior in CMCs at elevated temperature.- Matrix crack opening behavior in CMCs at room temperature.- Matrix crack opening behavior in CMCs at elevated temperature.- Matrix crack closure behavior in CMCs.