UID:
edocfu_9959241986202883
Umfang:
1 online resource (281 p.)
Ausgabe:
1st ed.
ISBN:
3-03826-443-1
Serie:
Key Engineering Materials ; v.606
Inhalt:
The book brings recent results of research and development in the field of materials engineering, experimental methods, modeling, etc., with the aim to characterize mechanical properties of materials from nano to micro/meso-scale. Contributions focus on indentation and other methods for hardness as well as other mechanical properties assessment, measurement of deformations and stresses, time-dependent properties with related microstructure analyses (TEM/SEM, AFM, etc.) regardless of material type (metals, ceramics, polymers, biomaterials, concrete, etc.). The 63 papers cover metals and alloys;
Anmerkung:
Description based upon print version of record.
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Local Mechanical Properties X; Preface, Organizing Committee and Sponsors; Table of Contents; I. Metals and Alloys; Local Characteristics of Ductile Fracture Surface in Spheroidized Steels; Characterization of Local Stress-Strain Behavior in WWER 440 Weld and Base Metal by Instrumented Indentation Technique; Identification of Stress-Strain Relation of Aluminium Foam Cell Wall by Spherical Nanoindentation; Characterisation of Mechanical Properties by Small Punch Test; Microstructure and Mechanical Properties of Al-Mn Sheets with Zr Addition
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Local Strain Hardening and Non-Uniformity of Plastic Strain of Tinplate Effect of Boriding Time on Microstructure and Residual Stresses in Borided Highly Alloyed X210CR12 Steel; Evaluation of Fatigue Strength of Heat Treated and Laser Hardened 42CrMo4 Steel Considering Localized Initiation Mechanisms; Prediction of Tensile Properties Based on Hardness Measurement; Inspection of Local Influenced Zones in Micro-Scale Aluminium Specimens; Application of Small Punch Tests for Screening of Mechanical Properties for T91 Steel; The Effect of Microstructural Features on Mechanical Properties
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II. Mechanics of Contact Densification as the Only Mechanism at Stake during Indentation of Silica Glass?; Energy Aspects of Concentrated Contact and Instrumented Indentation; A Numerical Study of the Effect of the Berkovich Indenter Orientation on the Elastic Response of Anisotropic Material; Constant Load Testing of Materials Using Nanoindentation Technique; Numerical Model of Instrumented Indentation by a Rounded Cone Indenter Using Finite Element Method; Influence of Drill Wear to Local Plastic Deformation in the Wall of Drilling Hole
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Effect of Pile-Up on the Mechanical Characteristics of Steel by Depth Sensing Indentation III. Experimental Methods; In Situ Detection of Surface Micro-Cracking in Ultrafine-Grained AZ31 Magnesium Alloy by Resonant Ultrasound Spectroscopy; Effect of Grit-Blasting on Residual Stress Field; Non-Destructive Identification of Defects in Power Support Structure Foundations by Means of Acoustic Techniques; Verification of the Trend of MPL Variation in Fatigue by Modern Methods; Two-Dimensional Isotropic Damage Elastoplastic Model for Quasi-Brittle Material
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Nanoindentation and AFM Studies on Tungsten Carbide Crystals in WC-Co Hardmetal Determination of Material Acoustic Features Using Small Samples; IV. Bioapplications; Nanoindentation Derived Mechanical Properties of the Corneoscleral Rim of the Human Eye; Micromechanical Properties of Polyacrylamide Hydrogels Measured by Spherical Nanoindentation; Modeling and Measurement of the Effective Young Modulus of Porous Biomedical Materials Manufactured via SLM; Wear of Human Enamel and Dentin; Nanoindentation of Human Tooth Dentin
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Modeling of Stress Distribution in Dental Implant in Frontal Part of Mandible
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English
Weitere Ausg.:
ISBN 3-03835-062-1
Sprache:
Englisch
