Hauppauge, N.Y., : Nova Science Publishers, c2010

1-61470-229-2

1 online resource (92 p.)

Materials science and technologies

620.1/1232

Glass - Mechanical properties

Glass - Fatigue

Vibration - Measurement

Crystallization

Inglese

Description based upon print version of record.

Includes bibliographical references and index.

Intro -- MECHANICAL VIBRATION METHODS FOR STUDYING PHYSICAL PROPERTIES OF  SOLID MATERIALS -- MECHANICAL VIBRATION METHODS FOR STUDYING PHYSICAL PROPERTIES OF  SOLID MATERIALS -- Contents -- Preface -- Chapter 1  INTRODUCTION -- Chapter 2  PRELIMINARY -- Abstract -- A. Elasticity -- B. Mechanical Vibration -- Chapter 3  PREVIOUS RESEARCH -- Abstract -- A. Internal Friction of Lead -- B. Internal Friction of Quartz -- C. Internal Friction of  Crystals under Pressure -- D. Internal Friction of Solid Helium -- E. Melting of Helium Crystal -- F. Melting of Ice Crystal -- G. Internal Friction in  Normal-Conducting Aluminum -- H. Internal Friction in  Superconducting Aluminum -- I. Higher-Order Elastic Constants -- J. Sound-Sound Interaction -- K. Nonlinear Elasticity in Whiskers -- Chapter 4  RECENT RESEARCH -- Abstract -- A. Viscosity of Inorganic and Organic Glasses -- f~0 Hz -- B. Internal Friction of Polystyrene -- f=0.001~10 Hz -- C. Internal Friction of Various  Metallic Glasses -- f~1 Hz -- D. Internal Friction of Metallic Glass -- f~1 Hz -- E. Internal Friction of Metallic Glass -- f=0.2~25 Hz -- F. Acoustic Measurements in Polystyrene -- f = 5 MHz, 10 GHz -- References -- Index -- Blank Page.

The method of observing the response of a solid to an applied

mechanical vibration is useful for investigating various physical properties of materials. Topics used include characterization of defects in crystals, nonlinear elasticity of crystals, electron conduction and superconductivity, and melting phenomenon.