Description

Book Synopsis
Long awaited, this textbook fills the gap for convincing concepts to describe amorphous solids.
Adopting a unique approach, the author develops a framework that lays the foundations for a theory of amorphousness. He unravels the scientific mysteries surrounding the topic, replacing rather vague notions of amorphous materials as disordered crystalline solids with the well-founded concept of ideal amorphous solids. A classification of amorphous materials into inorganic glasses, organic glasses, glassy metallic alloys, and thin films sets the scene for the development of the model of ideal amorphous solids, based on topology- and statistics-governed rules of three-dimensional sphere packing, which leads to structures with no short, mid or long-range order. This general model is then concretized to the description of specific compounds in the four fundamental classes of amorphous solids, as well as amorphous polyethylene and poly(methyl)methacrylate, emphasizing its versatility and descriptive power. Finally, he includes example applications to indicate the abundance of amorphous materials in modern-day technology, thus illustrating the importance of a better understanding of their structure and properties.
Equally ideal as supplementary reading in courses on crystallography, mineralogy, solid state physics, and materials science where amorphous materials have played only a minor role until now.


Table of Contents
Preface

SPHERES, CLUSTERS AND PACKING OF SPHERES
Introduction
Geometry of Spheres
Geometry of Clusters
Geometry of Sphere Packings
Ideal Amorphous Aolid (IAS)
Construction of an Ideal Amorphous Solid Class I
Elementary Theory of Amorphousness
Classes of Ideal Amorphous Solids
Imperfections in IAS

CHARACTERISTICS OF SPHERE PACKINGS
Geometrical Properties
X-Ray Scattering
Glass Transition Measured by Calorimetry

GLASSY MATERIALS AND IDEAL AMORPHOUS SOLIDS
Introduction
Summary of Models of Amorphous Solids
IAS Model of a-Argon
IAS Model of a-NiNb Alloy
IAS Model of a-MgCuGd Alloy
IAS Model of a-ZrTiCuNiBe Alloy
IAS Model of a-Polyethylene (a-PE)
IAS Model of a-Silica (a-SiO2)
Chalcogenide Glasses
Concluding Remarks

MECHANICAL BEHAVIOUR
Introduction
Elasticity
Elastic Properties of Amorphous Solids
Fracture
Plasticity
Plasticity in Plasticity: Amorphous Solids
Superplasticity
Viscoelasticity

Index

Fundamentals of Amorphous Solids: Structure and Properties

    Product form

    £68.35

    Includes FREE delivery

    RRP £71.95 – you save £3.60 (5%)

    Order before 4pm today for delivery by Fri 19 Jun 2026.

    A Paperback by Zbigniew H. Stachurski

    Out of stock


      View other formats and editions of Fundamentals of Amorphous Solids: Structure and Properties by Zbigniew H. Stachurski

      Publisher: Wiley-VCH Verlag GmbH
      Publication Date: 21/01/2015
      ISBN13: 9783527337071, 978-3527337071
      ISBN10:
      Also in:
      Condensed matter physics Solid state chemistry

      Description

      Book Synopsis
      Long awaited, this textbook fills the gap for convincing concepts to describe amorphous solids.
      Adopting a unique approach, the author develops a framework that lays the foundations for a theory of amorphousness. He unravels the scientific mysteries surrounding the topic, replacing rather vague notions of amorphous materials as disordered crystalline solids with the well-founded concept of ideal amorphous solids. A classification of amorphous materials into inorganic glasses, organic glasses, glassy metallic alloys, and thin films sets the scene for the development of the model of ideal amorphous solids, based on topology- and statistics-governed rules of three-dimensional sphere packing, which leads to structures with no short, mid or long-range order. This general model is then concretized to the description of specific compounds in the four fundamental classes of amorphous solids, as well as amorphous polyethylene and poly(methyl)methacrylate, emphasizing its versatility and descriptive power. Finally, he includes example applications to indicate the abundance of amorphous materials in modern-day technology, thus illustrating the importance of a better understanding of their structure and properties.
      Equally ideal as supplementary reading in courses on crystallography, mineralogy, solid state physics, and materials science where amorphous materials have played only a minor role until now.


      Table of Contents
      Preface

      SPHERES, CLUSTERS AND PACKING OF SPHERES
      Introduction
      Geometry of Spheres
      Geometry of Clusters
      Geometry of Sphere Packings
      Ideal Amorphous Aolid (IAS)
      Construction of an Ideal Amorphous Solid Class I
      Elementary Theory of Amorphousness
      Classes of Ideal Amorphous Solids
      Imperfections in IAS

      CHARACTERISTICS OF SPHERE PACKINGS
      Geometrical Properties
      X-Ray Scattering
      Glass Transition Measured by Calorimetry

      GLASSY MATERIALS AND IDEAL AMORPHOUS SOLIDS
      Introduction
      Summary of Models of Amorphous Solids
      IAS Model of a-Argon
      IAS Model of a-NiNb Alloy
      IAS Model of a-MgCuGd Alloy
      IAS Model of a-ZrTiCuNiBe Alloy
      IAS Model of a-Polyethylene (a-PE)
      IAS Model of a-Silica (a-SiO2)
      Chalcogenide Glasses
      Concluding Remarks

      MECHANICAL BEHAVIOUR
      Introduction
      Elasticity
      Elastic Properties of Amorphous Solids
      Fracture
      Plasticity
      Plasticity in Plasticity: Amorphous Solids
      Superplasticity
      Viscoelasticity

      Index

      Recently viewed products

      © 2026 Book Curl

        • American Express
        • Apple Pay
        • Diners Club
        • Discover
        • Google Pay
        • Maestro
        • Mastercard
        • PayPal
        • Shop Pay
        • Union Pay
        • Visa

        Login

        Forgot your password?

        Don't have an account yet?
        Create account