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Gradient microstructure in laser sho...

Zhou, Liucheng.

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Gradient microstructure in laser shock peened materials = fundamentals and applications /

Record Type:	Electronic resources : Monograph/item
Title/Author:	Gradient microstructure in laser shock peened materials/ by Liucheng Zhou, Weifeng He.
Reminder of title:	fundamentals and applications /
Author:	Zhou, Liucheng.
other author:	He, Weifeng.
Published:	Singapore :Springer Singapore : : 2021.,
Description:	xvii, 227 p. :ill. (some col.), digital ;24 cm.
[NT 15003449]:	General Introduction -- Characteristics of Laser-induced Plasma Shock Wave in Metal Materials -- Gradient Microstructure Characteristics and Formation Mechanism of Laser Shock Peening in Titanium Alloy -- Improvement of High Cycle Fatigue Performance in the Titanium Alloy by LSP-induced Gradient Microstructure -- Improvement of High Temperature Fatigue Performance in Nickel-based Alloy by LSP-induced Gradient Microstructure -- Mechanical Behavior and Strengthening Mechanism of LSP-induced Gradient Microstructure in Metal Materials -- Study on the Compound Process of Laser Shock Peening and the Strengthening Mechanism on the Aero-engine Blades.
Contained By:	Springer Nature eBook
Subject:	Laser peening. -
Online resource:	https://doi.org/10.1007/978-981-16-1747-8
ISBN:	9789811617478

Gradient microstructure in laser shock peened materials = fundamentals and applications /
Zhou, Liucheng.

Gradient microstructure in laser shock peened materialsfundamentals and applications /[electronic resource] :by Liucheng Zhou, Weifeng He. - Singapore :Springer Singapore :2021. - xvii, 227 p. :ill. (some col.), digital ;24 cm. - Springer series in materials science,v.3140933-033X ;. - Springer series in materials science ;v.314..

General Introduction -- Characteristics of Laser-induced Plasma Shock Wave in Metal Materials -- Gradient Microstructure Characteristics and Formation Mechanism of Laser Shock Peening in Titanium Alloy -- Improvement of High Cycle Fatigue Performance in the Titanium Alloy by LSP-induced Gradient Microstructure -- Improvement of High Temperature Fatigue Performance in Nickel-based Alloy by LSP-induced Gradient Microstructure -- Mechanical Behavior and Strengthening Mechanism of LSP-induced Gradient Microstructure in Metal Materials -- Study on the Compound Process of Laser Shock Peening and the Strengthening Mechanism on the Aero-engine Blades.

This book introduces the fundamentals and principles of laser shock peening (LSP) for aeronautical materials. It focuses on the innovation in both theory and method related to LSP-induced gradient structures in titanium alloys and Ni-based alloys which have been commonly used in aircraft industries. The main contents of the book include: the characteristics of laser shock wave, the formation mechanism of gradient structures and the strengthening-toughing mechanism by gradient structures. The research has accumulated a large amount of experimental data, which has proven the significant effectiveness of LSP on the improvement of the fatigue performance of metal parts, and related findings have been successfully applied in aerospace field. This book could be used by the researchers who work in the field of LSP, mechanical strength, machine manufacturing and surface engineering, as well as who major in laser shock wave and materials science.

ISBN: 9789811617478

Standard No.: 10.1007/978-981-16-1747-8doiSubjects--Topical Terms:

2139149
Laser peening.

LC Class. No.: TS207.3.P44 / Z56 2021

Dewey Class. No.: 671.36

Gradient microstructure in laser shock peened materials = fundamentals and applications /
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100 1 $a Zhou, Liucheng. $3 3504950
245 1 0 $a Gradient microstructure in laser shock peened materials $h [electronic resource] : $b fundamentals and applications / $c by Liucheng Zhou, Weifeng He.
260 $a Singapore : $b Springer Singapore : $b Imprint: Springer, $c 2021.
300 $a xvii, 227 p. : $b ill. (some col.), digital ; $c 24 cm.
490 1 $a Springer series in materials science, $x 0933-033X ; $v v.314
505 0 $a General Introduction -- Characteristics of Laser-induced Plasma Shock Wave in Metal Materials -- Gradient Microstructure Characteristics and Formation Mechanism of Laser Shock Peening in Titanium Alloy -- Improvement of High Cycle Fatigue Performance in the Titanium Alloy by LSP-induced Gradient Microstructure -- Improvement of High Temperature Fatigue Performance in Nickel-based Alloy by LSP-induced Gradient Microstructure -- Mechanical Behavior and Strengthening Mechanism of LSP-induced Gradient Microstructure in Metal Materials -- Study on the Compound Process of Laser Shock Peening and the Strengthening Mechanism on the Aero-engine Blades.
520 $a This book introduces the fundamentals and principles of laser shock peening (LSP) for aeronautical materials. It focuses on the innovation in both theory and method related to LSP-induced gradient structures in titanium alloys and Ni-based alloys which have been commonly used in aircraft industries. The main contents of the book include: the characteristics of laser shock wave, the formation mechanism of gradient structures and the strengthening-toughing mechanism by gradient structures. The research has accumulated a large amount of experimental data, which has proven the significant effectiveness of LSP on the improvement of the fatigue performance of metal parts, and related findings have been successfully applied in aerospace field. This book could be used by the researchers who work in the field of LSP, mechanical strength, machine manufacturing and surface engineering, as well as who major in laser shock wave and materials science.
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650 0 $a Airplanes $x Materials. $3 667929
650 0 $a Titanium alloys. $3 1374956
650 0 $a Nickel alloys. $3 827278
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650 2 4 $a Industrial Chemistry/Chemical Engineering. $3 890826
650 2 4 $a Optics, Lasers, Photonics, Optical Devices. $3 2209850
650 2 4 $a Aerospace Technology and Astronautics. $3 928116
700 1 $a He, Weifeng. $3 1256936
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830 0 $a Springer series in materials science ; $v v.314. $3 3504951
856 4 0 $u https://doi.org/10.1007/978-981-16-1747-8
950 $a Chemistry and Materials Science (SpringerNature-11644)