Creation of high-strength structures and joints by setting up local material properties
著者
書誌事項
Creation of high-strength structures and joints by setting up local material properties
(Advanced materials research, v. 22,
Trans Tech Publications, c2007-c2010
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注記
Includes bibliographical references and indexes
内容説明・目次
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2 ISBN 9780878492343
内容説明
Volume is indexed by Thomson Reuters BCI (WoS).
This work presents the results of the initial stage of research of some sub-projects of the Collaborative Research Centre SFB 675, "Creation of High-Strength Structures and Joints by Setting up Local Material Properties", set up in 2006 by the German Research Foundation (DFG). This Collaborative Research Centre is the result of cooperation between the research institutes of Clausthal University of Technology and Leibniz Universitat, Hanover. The purpose of SFB 675 is to develop materials and manufacturing processes for high-strength structures, having graduated and locally engineered properties, by exploiting material, physical and/or geometrical effects. The incorporation of locally altered material properties, tailored to handle the strains expected to be encountered during use, lead to increases in the efficiency of the whole structure. This book offers an interesting overview of this intriguing topic.
目次
Preface
Local Strain Hardening of Metal Components by Means of Martensite Generation
Use of the Aging Effect to Change the Local Properties of Structure Components
Production of Customized High-Strength Hybrid Sandwich Structures
Investigations into Manufacturing Composite Profiles Having Local Magnesium-Foam Reinforcements
Laser Bead-on-Plate Welding and Overlap Seams for Increasing the Strength and Rigidity of High Strength Steel
Forging of Aluminium Components under a Superimposed Hydrostatic Pressure to Induce Local Strain Hardening
Development of Combined Manufacturing Technologies for High-Strength Structural Components
Investigation of the Process- and System-Induced Activation of Material Reactions during Discontinuous High-Frequency Welding
Optical Quality Control of High-Strength Structures
Fatigue Life Calculation Concepts for Structures with Locally Modified Properties
Low Heat Joining - Manufacturing and Fatigue Strength of Brazed, Locally Hardened Structures
Setting of Gradient Material Properties and Quality Control of High Tension 3D NVEB-Weld Joints
Systematic Design Approach to the Development of High-Strength, Locally Adapted Structures with the Aid of the Finite Element Design (FED) Method
Acoustic Measurements to Proof High-Strength Structures and Joints
- 巻冊次
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[1] ISBN 9780878494552
内容説明
Volume is indexed by Thomson Reuters BCI (WoS).
The demands now being made on metallic structures are increasingly complex, since the strains and application loading-profiles which occur are locally limited and inhomogeneous. Therefore, high-strength structures having optimised material properties have to be developed.
目次
Research for Creation of High-Strength Structures and Joints by Setting up Local Material Properties
Local Strain Hardening of Sheet and Solid Forming Components during Formation of Martensite in Metastable Austenitic Steels
Use of Bake Hardening Effects to Change Local Properties of Constructional Elements
Creation of Tailored High-Strength, Hybrid Sandwich Structures
Developments for the Production of Local Foamed Hollow Sections
Local Effects of Welding Seams with Laser-Based Joining Concepts for High-Strength Load-Transferring Structure Modules
Selective Strain Hardening of Structure Components by Action Media Based Cold Massive Forming
Development of Combined Manufacturing Technologies for High-Strength Structure Components
Material Aligned Process Control for the Welding Technology of Locally Hardened Materials
Three-Dimensional Optical Measurement with Locally Adapted Projection
Fatigue Life Calculation Concepts for Structures with Inhomogenous Strength Properties
Low Heat Joining - Manufacture and Fatigue of Soldered Locally Strengthened Structures
Setting of Gradient Material Properties and Quality Control of High Tension 3D-Weld Joints
Design Strategies for the Development of High Strength Coupling Elements from Requirement Optimized Composite Materials
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