1.

Record Nr.

UNINA9910830654703321

Autore

Schulze Volker

Titolo

Modern mechanical surface treatment [[electronic resource] ] : states, stability, effects / / Volker Schulze ; [translation, J. K. Schwing

Pubbl/distr/stampa

Weinheim, : Wiley-VCH, 2006

ISBN

1-280-85424-3

9786610854240

3-527-60781-1

3-527-60716-1

Descrizione fisica

1 online resource (378 p.)

Altri autori (Persone)

SchwingJ. K

Disciplina

620.44

Soggetti

Surface preparation

Surfaces (Technology) - Analysis

Lingua di pubblicazione

Inglese

Formato

Materiale a stampa

Livello bibliografico

Monografia

Note generali

Description based upon print version of record.

Nota di bibliografia

Includes bibliographical references and index.

Nota di contenuto

Modern Mechanical SurfaceTreatment; Contents; 1 Introduction; 2 Procedures of Mechanical Surface Treatments; 2.1 Shot Peening; 2.1.1 Definition and Delimitation of Procedure; 2.1.2 Application Examples; 2.1.3 Devices, Tools and Important Parameters; 2.2 Stress Peening; 2.2.1 Definition and Delimitation of Procedure; 2.2.2 Application Examples; 2.2.3 Devices, Tools and Important Parameters; 2.3 Warm Peening; 2.3.1 Definition and Delimitation of Procedure; 2.3.2 Application Examples; 2.3.3 Devices, Tools and Important Parameters; 2.4 Stress Peening at Elevated Temperature; 2.5 Deep Rolling

2.5.1 Definition and Delimitation of Procedure2.5.2 Application Examples; 2.5.3 Devices, Tools and Important Parameters; 2.6 Laser Peening; 2.6.1 Definition and Delimitation of Procedure; 2.6.2 Application Examples; 2.6.3 Devices, Tools and Important Parameters; 3 Surface Layer States after Mechanical Surface Treatments; 3.1 Shot Peening; 3.1.1 Process Models; 3.1.2 Changes in the Surface State; 3.2 Stress Peening; 3.2.1 Process Models; 3.2.2 Changes in the Surface State; 3.3 Warm Peening; 3.3.1 Process Models; 3.3.2 Changes in the Surface State; 3.4 Stress Peening at elevated Temperature

3.5 Deep Rolling3.5.1 Process Models; 3.5.2 Changes in the Surface



State; 3.6 Laser Peening; 3.6.1 Process Models; 3.6.2 Changes in the Surface State; 4 Changes of Surface States due to Thermal Loading; 4.1 Process Models; 4.1.1 Elementary Processes; 4.1.2 Quantitative Description of Processes; 4.2 Experimental Results and their Descriptions; 4.2.1 Influences on Shape and Topography; 4.2.2 Influences on Residual Stress State; 4.2.3 Influences on Workhardening State; 4.2.4 Influences on Microstructure; 5 Changes of Surface Layer States due to Quasi-static Loading; 5.1 Process Models

5.1.1 Elementary Processes5.1.2 Quantitative Description of Processes; 5.2 Experimental Results and their Descriptions; 5.2.1 Influences on Shape and Deformation Behavior; 5.2.2 Influences on Residual Stress State; 5.2.3 Influences on Workhardening State; 5.2.4 Influences on Microstructure; 6 Changes of Surface States during Cyclic Loading; 6.1 Process Models; 6.1.1 Elementary Processes; 6.1.2 Quantitative Description of Processes; 6.2 Experimental Results and their Descriptions; 6.2.1 Influences on Residual Stress State; 6.2.2 Influences on Worhardening State

6.2.3 Influences on Microstructure6.3 Effects of Surface Layer Stability on Behavior during Cyclic Loading; 6.3.1 Basic Results; 6.3.2 Effects on Cyclic Deformation Behavior; 6.3.3 Effects on Crack Initiation Behavior; 6.3.4 Effects on Crack Propagation Behavior; 6.3.5 Effects on Fatigue Behavior; 7 Summary; Acknowledgments; Index

Sommario/riassunto

The only comprehensive, systematic comparison of major mechanical surface treatments, their effects, and the resulting material properties. The result is an up-to-date, full review of this topic, collating the knowledge hitherto spread throughout many original papers. The book begins with a description of elementary processes and mechanisms to give readers an easy introduction, before proceeding to offer systematic, detailed descriptions of the various techniques and three very important types of loading: thermal, quasistatic, and cyclic loading. It combines and correlates experimental and