HOME > Detail View

Detail View

Ultrasound in liquid and solid metals

Ultrasound in liquid and solid metals (Loan 14 times)

Material type
단행본
Personal Author
Abramov, O. V. (Oles Vladimirovich)
Title Statement
Ultrasound in liquid and solid metals / O.V. Abramov.
Publication, Distribution, etc
Boca Raton, Fla. :   CRC Press,   1993.  
Physical Medium
viii, 493 : ill. ; 27 cm.
ISBN
0849393558
Bibliography, Etc. Note
Includes bibliographical references and index.
Subject Added Entry-Topical Term
Ultrasonic waves --Industrial applications. Metals --Effect of radiation on.
000 00768pamuuu200253 a 4500
001 000000475504
003 OCoLC
005 19970414130744.0
008 930520s1993 flua b 001 0 eng
010 ▼a 93025193
020 ▼a 0849393558
040 ▼a DLC ▼c DLC
041 1 ▼a eng ▼h rus
049 ▼a ACSL ▼l 121021059
050 0 0 ▼a TA367 ▼b .A26 1993
082 0 0 ▼a 620.1/6 ▼2 20
090 ▼a 620.16 ▼b A161u
100 1 ▼a Abramov, O. V. ▼q (Oles Vladimirovich)
245 1 0 ▼a Ultrasound in liquid and solid metals / ▼c O.V. Abramov.
260 ▼a Boca Raton, Fla. : ▼b CRC Press, ▼c 1993.
300 ▼a viii, 493 : ▼b ill. ; ▼c 27 cm.
504 ▼a Includes bibliographical references and index.
650 0 ▼a Ultrasonic waves ▼x Industrial applications.
650 0 ▼a Metals ▼x Effect of radiation on.

Holdings Information

No. Location Call Number Accession No. Availability Due Date Make a Reservation Service
No. 1 Location Science & Engineering Library/Sci-Info(Stacks2)/ Call Number 620.16 A161u Accession No. 121021059 Availability Available Due Date Make a Reservation Service B M

Contents information

Table of Contents


CONTENTS
Preface = ⅲ
Introduction = 1
Part 1 Fundamentals of the Science and Technology of Ultrasonics = 3
 1 Vibratory and Wave Motion = 5
  1.1 Small-Amplitude Vibrations and Waves = 5
  1.2 Elastic Waves in Fluids = 10
  1.3 Elastic Waves in Solids = 16
  1.4 Attenuation of Elastic Waves = 23
  References = 25
 2 Ultrasonic Technology = 27
  2.1 Energy Sources = 27
  2.2 Mechanoacoustical Converters = 28
  2.3 Electroacoustical Converters = 28
  2.4 Resonators and Boosters = 32
  2.5 Measurement of Acoustic Parameters = 36
  References = 39
Part 2 Physical Principles of Ultrasonic Treatment of Liquid Metals = 41
 1 Ultrasonic Cavitation = 43
  1.1 The Mechanism of Ultrasonic Cavitation = 43
  1.2 Cavitation in Melts = 48
  References = 57
 2 Acoustic Streaming, Radiation Pressure, and Sonocapillary Effect = 59
  2.1 Acoustic Streaming = 59
  2.2 Acoustic Streaming in a Solidifying Melt = 66
  2.3 Radiation Pressure and Sonocapillary Effect = 74
  References = 76
 3 Ultrasonic Atomization and Degassing of Liquids = 77
  3.1 Atomization = 77
  3.2 The Mechanism of Ultrasonic Degassing = 91
  References = 97
 4 Solidification of Metals in an Ultrasonic Field = 99
  4.1 Crystal Dispersion = 99
  4.2 Nucleation of Solidification Sites = 107
  4.3 Effects of Solidification Conditions = 109
  References = 116
Part 3 Physical Principles of Ultrasonic Treatment of Solid Metals = 119
 1 Attenuation of Ultrasonic Vibrations in Solids = 121
  1.1 Scattering by Lattice Defects = 121
  1.2 Amplitude-Independent Absorption = 128
  1.3 Dislocation Internal Friction = 149
  References = 160
 2 Structure Changes in Metals on Ultrasonic Stressing = 161
  2.1 The Evolution of Dislocation Structure = 161
  2.2 The Formation of Point Defects = 194
  2.3 Plastic Deformation = 189
  References = 195
 3 Mechanical Properties of Ultrasonically Irradiated Metals = 199
  3.1 The Effect of Ultrasonic Pretreatment = 199
  3.2 Mechanical Properties Resulting from Combined Static and Cyclic Stressing = 215
  References = 226
 4 Diffusion in an Ultrasonic Field = 229
  4.1 Interstitial Diffusion = 230
  4.2 Substitutional Diffusion = 238
  4.3 Mechanism of the Effect of Ultrasound on Diffusion = 242
  References = 244
 5 Phase Transformations in Ultrasoncially Irradiated Metals = 247
  5.1 The Effect of Ultrasound on Polymorphous Transformations = 247
  5.2 The Effect of Ultrasound on the Kinetics of Austenite Decomposition in Steels = 252
  References = 259
 6 Ultrasound Interaction with the Solid-Solid Contact Surface = 261
  6.1 Modification of Contact Surface Structure = 261
  6.2 The Variation of Friction = 265
  References = 271
Part 4. High-Intensity Ultrasound in Liquid-Metal Technologies = 273
 1. Ultrasonic Degassing of the Melt = 275
  1.1. Degassing Kinetics = 275
  1.2. Ultrasonic Degassing of Al and Mg Melts = 281
  References = 286
 2. Solidification of Metals in an Ultrasonic Field = 289
  2.1. Methods of Transmission of Elastic Vibrations to the Solidifying Melt = 290
  2.2. Pure Metals = 299
  2.3. Low-Melting Metals = 303
  2.4. Aluminum and Magnesium Alloys = 304
  2.5. Copper and Silver Alloys = 308
  2.6. Steels and Cast Irons = 311
  2.7. Nickel-Base Superalloys = 323
  References = 326
 3. Ultrasonically Assisted Crystal Growth = 331
  3.1. Physical Principles Underlying the Use of Ultrasound in Crystal Growth Processes = 331
  3.2. Zone Refining of Metals and Semiconductors = 339
  References = 346
 4. Ultrasound in Plating Processes = 347
  4.1. The Mechanism of Ultrasonic Hot Dip Plating = 347
  4.2. Ultrasonic Plating Technology = 354
  4.3. The Structure of the Substrate-Coating Contact Zone = 364
  References = 366
 5. Ultrasonic Melt Atomization in Powder Metallurgy = 367
  5.1. Melt Atomization Methods = 367
  5.2. Acoustic Melt Atomizers = 371
  5.3. Ultrasonic Melt Atomization Results = 378
  References = 384
 6. The Use of Ultrasound for Preparing In Situ Composites = 387
  6.1. Ultrasonic Feeding of Solid Particles to the Melt = 387
  6.2. Antifriction Composites Based on Aluminum = 393
  6.3. Oxide-Dispersion-Strengthened Superalloys = 398
  References = 405
Part 5. High-Intensity Ultrasound in Solid Metal Technologies = 407
 1. Ultrasound in Metalworking Processes = 409
  1.1. Ultrasonic Systems Used in Metalworking = 409
  1.2. The Effect of Ultrasound on Metalworking Force Reduction = 422
  1.3. The Effect of Ultrasound on the Quality of Worked Metal = 435
  References = 436
 2. Ultrasound in Heat Treatment and Chemical Heat Treatment = 437
  2.1. Annealing = 438
  2.2. Quenching = 444
  2.3. Aging and Tempering = 448
  2.4. Chemical Heat Treatment = 451
  References = 452
 3. Ultrasonic Machining = 455
  3.1. The Mechanism of Ultrasonic Machining = 455
  3.2. Ultrasonic Machining Equipment = 464
  3.3. Ultrasonic Machining Processes = 467
  References = 471
 4. Ultrasonic Surface Hardening = 473
  4.1. The Mechanism of Ultrasonic Surface Deformation = 473
  4.2. The Effects of Ultrasonic Surface Hardening on Material Structure and Properties = 478
  4.3. Ultrasonic Hardening Technology = 484
  References = 486
Index = 489


New Arrivals Books in Related Fields