Physical Principles of Ultrasonic Technology

1. Front Matter

   Pages i-xxiii

   PDF

2. Ultrasonic Cutting

   1. Front Matter

      Pages 1-1

      PDF

   2. Introduction

      • L. D. Rozenberg

      Pages 3-6

   3. Investigation of the Ultrasonic Cutting Mechanism

      • L. D. Rozenberg

      Pages 7-20

   4. Disintegration of the Material in Ultrasonic Machining

      • L. D. Rozenberg

      Pages 21-37

   5. Forces Acting in Ultrasonic Cutting

      • L. D. Rozenberg

      Pages 38-53

   6. Effect of Abrasive Breakdown and Renewal on the Variation of Machining Speed

      • L. D. Rozenberg

      Pages 54-70

   7. Methods for Enhancing Machining Performance; Recent Machine Tool Developments

      • L. D. Rozenberg

      Pages 71-94

3. Ultrasonic Welding of Metals

   1. Front Matter

      Pages 99-99

      PDF

   2. Introduction

      • L. D. Rozenberg

      Pages 101-104

   3. Basic Information on the Ultrasonic Welding of Metals

      • L. D. Rozenberg

      Pages 105-150

   4. Physics of the Ultrasonic Welding Process

      • L. D. Rozenberg

      Pages 151-195

   5. Technological Aspects and Equipment Requirements of Ultrasonic Welding

      • L. D. Rozenberg

      Pages 196-218

   6. Industrial Applications

      • L. D. Rozenberg

      Pages 219-237

4. Ultrasonic Cleaning

   1. Front Matter

      Pages 245-245

      PDF

   2. Introduction

      • L. D. Rozenberg

      Pages 247-251

   3. The Ultrasonic Cleaning Mechanism

      • L. D. Rozenberg

      Pages 252-269

   4. Efficiency of Ultrasonic Cleaning

      • L. D. Rozenberg

      Pages 270-318

   5. Cavitation—Abrasion Erosion

      • L. D. Rozenberg

      Pages 319-330

   6. Vibratory Systems and Equipment for Ultrasonic Cleaning

      • L. D. Rozenberg

      Pages 331-371

This is the third work in a series of monographs* written by a col­ lective group of authors and is devoted to the physical mechanisms of specific ultrasonic technological processes that have already come into general use, as well as those which have just begun to enjoy practical applications. The problems covered in the book are exceedingly important insofar as the understanding of the phys­ ical mechanisms of ultrasonic processes forms the solitary basis of an intelligent approach to the design of industrial equipment and proper choice of optimum working conditions. The purely em­ pirical approach to the solution of these problems does not afford satisfactory results, because the state of affairs in a high-inten­ sity acoustic field is complex and diversified. Many papers in the Soviet Union and abroad have been con­ cerned with the practical utilization of ultrasound, but the over­ whelming majority is limited to the solution of highly individual­ ized practical problems, usually under conditions that are not amenable to comparison. Systematic studies have been initiated in the Ultrasonics Section of the Acoustics Institute of the Academy of Sciences of the USSR on the physics of high-intensity ultrasonic waves and their effects on matter; the results of these studies form the basis of the present book.

• acoustics
• design
• mechanism
• mechanisms
• physics
• sound
• ultrasound
• waves

• Acoustics Institute, Academy of Sciences of the USSR, Moscow, USSR

  L. D. Rozenberg

Policies and ethics