Language:
English
繁體中文
Help
Login
Back
Switch To:
Labeled
|
MARC Mode
|
ISBD
Fatigue of Materials at Very High Nu...
~
Christ, Hans-Jürgen.
Fatigue of Materials at Very High Numbers of Loading Cycles = Experimental Techniques, Mechanisms, Modeling and Fatigue Life Assessment /
Record Type:
Language materials, printed : Monograph/item
Title/Author:
Fatigue of Materials at Very High Numbers of Loading Cycles/ edited by Hans-Jürgen Christ.
Reminder of title:
Experimental Techniques, Mechanisms, Modeling and Fatigue Life Assessment /
other author:
Christ, Hans-Jürgen.
Description:
IX, 628 p. 1 illus.online resource. :
Contained By:
Springer Nature eBook
Subject:
Structural materials. -
Online resource:
https://doi.org/10.1007/978-3-658-24531-3
ISBN:
9783658245313
Fatigue of Materials at Very High Numbers of Loading Cycles = Experimental Techniques, Mechanisms, Modeling and Fatigue Life Assessment /
Fatigue of Materials at Very High Numbers of Loading Cycles
Experimental Techniques, Mechanisms, Modeling and Fatigue Life Assessment /[electronic resource] :edited by Hans-Jürgen Christ. - 1st ed. 2018. - IX, 628 p. 1 illus.online resource.
New Experimental Techniques for VHCF Testing and Monitoring -- Mechanisms of Damage Evolution under VHCF Conditions -- Mechanism-based Assessment of VHCF Life of Materials.
This book represents the final reports of the scientific projects funded within the DFG-SPP1466 and, hence, provides the reader with the possibility to familiarize with the leading edge of VHCF research. It draws a balance on the existing knowledge and its enhancement by the joint research action of the priority program. Three different material classes are dealt with: structural metallic materials, long-fiber-reinforced polymers and materials used in micro-electro-mechanical systems. The project topics address the development of suitable experimental techniques for high-frequency testing and damage monitoring, the characterization of damage mechanisms and damage evolution, the development of mechanism-based models and the transfer of the obtained knowledge and understanding into engineering regulations and applications. Contents New Experimental Techniques for VHCF Testing and Monitoring Mechanisms of Damage Evolution under VHCF Conditions Mechanism-based Assessment of VHCF Life of Materials Target Groups Ph.D. students and researchers in the subject of Materials Engineering Professionals and executives in the field of Mechanical Engineering, Solid State Physics and Solid Mechanics The Editor Hans-Jürgen Christ is Full Professor of Materials Engineering at the University of Siegen, Germany. The main objective of his research is a detailed understanding of the behavior of metals and alloys under complex conditions representing those in technical service of engineering materials. The correlation of microscopic processes with the resulting macroscopic changes in properties is used to reveal the relevant mechanisms and damage processes, in order to develop a better prediction of the application limits and the expected lifetime of materials under service conditions.
ISBN: 9783658245313
Standard No.: 10.1007/978-3-658-24531-3doiSubjects--Topical Terms:
1253576
Structural materials.
LC Class. No.: TA401-492
Dewey Class. No.: 620.11
Fatigue of Materials at Very High Numbers of Loading Cycles = Experimental Techniques, Mechanisms, Modeling and Fatigue Life Assessment /
LDR
:03424nam a22004095i 4500
001
986859
003
DE-He213
005
20200705145721.0
007
cr nn 008mamaa
008
201225s2018 gw | s |||| 0|eng d
020
$a
9783658245313
$9
978-3-658-24531-3
024
7
$a
10.1007/978-3-658-24531-3
$2
doi
035
$a
978-3-658-24531-3
050
4
$a
TA401-492
050
4
$a
TA418.9.C57
072
7
$a
TGM
$2
bicssc
072
7
$a
TEC021000
$2
bisacsh
072
7
$a
TGM
$2
thema
072
7
$a
TNC
$2
thema
082
0 4
$a
620.11
$2
23
245
1 0
$a
Fatigue of Materials at Very High Numbers of Loading Cycles
$h
[electronic resource] :
$b
Experimental Techniques, Mechanisms, Modeling and Fatigue Life Assessment /
$c
edited by Hans-Jürgen Christ.
250
$a
1st ed. 2018.
264
1
$a
Wiesbaden :
$b
Springer Fachmedien Wiesbaden :
$b
Imprint: Springer Spektrum,
$c
2018.
300
$a
IX, 628 p. 1 illus.
$b
online resource.
336
$a
text
$b
txt
$2
rdacontent
337
$a
computer
$b
c
$2
rdamedia
338
$a
online resource
$b
cr
$2
rdacarrier
347
$a
text file
$b
PDF
$2
rda
505
0
$a
New Experimental Techniques for VHCF Testing and Monitoring -- Mechanisms of Damage Evolution under VHCF Conditions -- Mechanism-based Assessment of VHCF Life of Materials.
520
$a
This book represents the final reports of the scientific projects funded within the DFG-SPP1466 and, hence, provides the reader with the possibility to familiarize with the leading edge of VHCF research. It draws a balance on the existing knowledge and its enhancement by the joint research action of the priority program. Three different material classes are dealt with: structural metallic materials, long-fiber-reinforced polymers and materials used in micro-electro-mechanical systems. The project topics address the development of suitable experimental techniques for high-frequency testing and damage monitoring, the characterization of damage mechanisms and damage evolution, the development of mechanism-based models and the transfer of the obtained knowledge and understanding into engineering regulations and applications. Contents New Experimental Techniques for VHCF Testing and Monitoring Mechanisms of Damage Evolution under VHCF Conditions Mechanism-based Assessment of VHCF Life of Materials Target Groups Ph.D. students and researchers in the subject of Materials Engineering Professionals and executives in the field of Mechanical Engineering, Solid State Physics and Solid Mechanics The Editor Hans-Jürgen Christ is Full Professor of Materials Engineering at the University of Siegen, Germany. The main objective of his research is a detailed understanding of the behavior of metals and alloys under complex conditions representing those in technical service of engineering materials. The correlation of microscopic processes with the resulting macroscopic changes in properties is used to reveal the relevant mechanisms and damage processes, in order to develop a better prediction of the application limits and the expected lifetime of materials under service conditions.
650
0
$a
Structural materials.
$3
1253576
650
0
$a
Metals.
$3
563369
650
0
$a
Materials science.
$3
557839
650
0
$a
Force and energy.
$3
671403
650
1 4
$a
Structural Materials.
$3
677176
650
2 4
$a
Metallic Materials.
$3
671028
650
2 4
$a
Energy Materials.
$3
1139404
700
1
$a
Christ, Hans-Jürgen.
$e
editor.
$4
edt
$4
http://id.loc.gov/vocabulary/relators/edt
$3
1279388
710
2
$a
SpringerLink (Online service)
$3
593884
773
0
$t
Springer Nature eBook
776
0 8
$i
Printed edition:
$z
9783658245306
776
0 8
$i
Printed edition:
$z
9783658245320
856
4 0
$u
https://doi.org/10.1007/978-3-658-24531-3
912
$a
ZDB-2-CMS
912
$a
ZDB-2-SXC
950
$a
Chemistry and Materials Science (SpringerNature-11644)
950
$a
Chemistry and Material Science (R0) (SpringerNature-43709)
based on 0 review(s)
Multimedia
Reviews
Add a review
and share your thoughts with other readers
Export
pickup library
Processing
...
Change password
Login