(EBook PDF) Voids in Materials From Unavoidable Defects to Designed Cellular Materials 2nd Edition by Gary Gladysz 0128192836 9780128192832 full chapters

Voids in Materials: From Unavoidable Defects to Designed Cellular Materials 2nd Edition by Gary M. Gladysz – Ebook PDF Instant Download/DeliveryISBN:  0128192836, 9780128192832  

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Product details:

ISBN-10 : 0128192836 

ISBN-13 : 9780128192832

Author: Gary Gladysz 

All materials have voids in them, at some scale. Sometimes the voids are ignored, sometimes they are taken into account, and other times they are the focal point of the research. Voids in Materials: From Unavoidable Defects to Designed Cellular Materials takes due notice of all these occurrences, whether designed or unavoidable defects. We define, categorize, and characterize the voids (or empty spaces in materials) and we analyze the effects they have on material properties.

Voids in Materials: From Unavoidable Defects to Designed Cellular Materials 2nd Table of contents:

1. Introduction
Abstract
1.1 Overview
1.2 Descriptions
1.3 Voids through the length scale
References
2. Intrinsic voids in crystalline materials: Ideal materials and real materials
Abstract
2.1 Introduction
2.2 Crystalline materials
2.3 Mechanical properties
2.4 Processing and service-induced voids
2.5 Time-dependent properties
References
3. Intrinsic voids in polymeric networks
Abstract
3.1 Polymer structure
3.2 Free volume and thermomechanical behavior
3.3 Kinetic theory of polymer strength
3.4 Thermal conductivity
3.5 Role of voids in physical aging in polymers
3.6 Measurement of free volume
References
4. Nanometer scale porous structures
Abstract
4.1 Introduction
4.2 Nanotubes
4.3 Zeolites
4.4 Nanoporous polymers
4.5 Nanoporous organic networks
4.6 Nanoporous noble metals
References
5. Hollow and porous structures utilizing the Kirkendall effect
Abstract
5.1 Introduction
5.2 Generalized Kirkendall mechanism for formation of hollow particles
5.3 Tubes
5.4 Porous and hollow structures
References
6. Techniques for introducing intentional voids into materials
Abstract
6.1 Introduction
6.2 Commonalities of foam formation processes
6.3 Introduction of a gas
6.4 Templating or sacrificial pore former
6.5 Bonding together of spheres, fibers, powders, or particles
6.6 Additive manufacturing of cellular structures
6.7 Mechanical stretching
6.8 Exploiting chemically selective weakness in solids
6.9 Hierarchical design with voids
References
Further reading
7. Techniques of introducing intentional voids into particles and fibers
Abstract
7.1 Introduction
7.2 Hollow and porous particles
7.3 Hollow and porous fibers
7.4 Nonspherical hollow particles
References
8. Void characterization techniques
Abstract
8.1 Introduction
8.2 Microscopy
8.3 Positron annihilation lifetime spectroscopy (PALS)
8.4 Three-dimensional imaging
8.5 Gas adsorption
8.6 Chromatographic porosimetry
References
9. Characteristics and properties of porous materials
Abstract
9.1 Introduction
9.2 General characterization
9.3 Conventional foams
9.4 Syntactic foams
9.5 Thermal properties
9.6 Finite element analysis (FEA)
9.7 Geopolymer foams
9.8 Metallic foams
References
10. Applications
Abstract
10.1 Introduction
10.2 Syntactic foams
10.3 Aerospace
10.4 Energy
10.5 Titania and photocatalysis
10.6 Biomaterials and healthcare
10.7 Menger sponges

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