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"Nanoindentation in Materials Science" ed by Jiří Němeček

Posted By: exLib
"Nanoindentation in Materials Science" ed by Jiří Němeček

"Nanoindentation in Materials Science" ed by Jiří Němeček
Second Edition
ITAvE | 2016 | ISBN: 9535108026 9789535108023 | 318 pages | PDF | 23 MB

The book aims to be a walk through achievements in some of the distant fields and to give a brief overview of the current frontiers in nanoindentation. Although it is not possible to cover the whole width of the possible themes in one book, the reader will benefit from the topics variety and the book will serve as a useful source of literature references.

Nanotechnologies have already attracted massive interest in multiple fields of science and industry. In the past decades, we have witnessed the progress in micro-level experimental techniques that revolutionize the material science.
Designing new materials based on the knowledge of mechanics of their building blocks and microstructure manipulations at nanometer scale have become a reality.
Nanoindentation, as a leading micro-level mechanical testing technique, has attracted wide attention in numerous research fields and applications.
Nowadays, an extensive variety of testing areas ranging from classical thin coatings in machinery engineering, electronics and composites to far fields of civil engineering, biomechanics, implantology or even agriculture can be covered with this universal testing tool.

Contents
Preface
Section 1 Testing Methodologies. Principles, Sources of Errors and Uncertainties
1 First-Principles Quantum Simulations of Nanoindentation
2 Effect of the Spherical Indenter Tip Assumption on the Initial Plastic Yield Stress
3 Uncertainties and Errors in Nanoindentation
Section 2 Nanomechanical Performance of Composite Materials
4 Nanoindentation Based Analysis of Heterogeneous Structural Materials
5 Application of Nanoindentation Technique in Martensitic Structures
Section 3 Nanoindentation on Thin Layers and Films
6 Indentation and Fracture of Hybrid Sol-Gel Silica Films
7 Nanoindentation as a Tool to Clarify the Mechanism Causing Variable Stiffness of a Silane Layer on Diamond
8 Mechanical and Tribological Properties of Plasma Deposited a-C:H:Si:0 Films
Section 4 Characterization of Microdevices and Integrated Circuits
9 Characterization of Microdevices by Nanoindentation
10 Mechanical Characterization of Black Diamond (Low-k) Structures for 3D Integrated Circuit and Packaging Applications
Section 5 Nanoindentation on Biological Materials
11 Nanoindentation of Human Trabecular Bone - Tissue Mechanical Properties Compared to Standard Engineering Test Methods
Section 6 Design of New Nanoindentation Devices
12 Design, Analysis and Experiments of a Novel in situ SEM Indentation Device
with TOC BookMarkLinks