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200 00$aQuenching theory and technology /$fBozidar Liscic. [and others]
205   $a2nd ed.
210  1$aBoca Raton :$cCRC Press :$cInternational Federation for Heat Treatment and Surface Engineering,$d2010.
215   $a1 online resource (728 p.)
300   $aRev. edition of: Theory and technology of quenching. 1993.
311   $a1-4398-5985-X 
311   $a1-322-62567-0 
311   $a0-8493-9279-9 
320   $aIncludes bibliographical references and index.
327   $aFront cover; Contents; Foreword; Preface to the Second Edition; Preface to the First Edition; Contributors; Chapter 1: Hardening of Steels; Chapter 2: Quenching of Aluminum Alloys; Chapter 3: Quenching of Titanium Alloys; Chapter 4: Mechanical Properties of Ferrous and Nonferrous Alloys after Quenching; Chapter 5: Thermo- and Fluid-Dynamic Principles of Heat Transfer during Cooling; Chapter 6: Heat Transfer during Cooling of Heated Metals with Vaporizable Liquids; Chapter 7: Wetting Kinematics; Chapter 8: Wetting Kinetics and Quench Severity of Selected Vegetable Oils for Heat Treatment
327   $aChapter 9: Residual Stresses after QuenchingChapter 10: Effect of Workpiece Surface Properties on Cooling Behavior; Chapter 11: Determination of Quenching Power of Various Fluids; Chapter 12: Cooling Media and Their Properties; Chapter 13: Gas Quenching; Chapter 14: Techniques of Quenching; Chapter 15: Intensive Steel Quenching Methods; Chapter 16: Prediction of Hardness Profile in Workpiece Based on Characteristic Cooling Parameters and Material Behavior during Cooling; Chapter 17: Simulation of Quenching; Appendix A: Temperature Conversion Table; Appendix B: Common Conversion Constants
327   $aAppendix C: Equivalent Hardness Scale Conversion TableAppendix D: Water Quenching Data: 7075-T73 Aluminum Bar Probes; Appendix E: Type 1 Polymer Quenchant Data: 7075-T73 Aluminum Bar Probes; Appendix F: Type I Polymer Quench Data:7075-T73 Aluminum Sheet Probes; Appendix G: Type I Polymer Quench Data:2024-T851 Aluminum Sheet Probes; Index; Back cover
330   $aQuenching is one of the most fundamentally complex processes in the heat treatment of metals, and it is something on which mechanical properties and distortion of engineering components depend. With chapters written by the most respected international experts in the field, Quenching Theory and Technology, Second Edition presents the most authoritative, exhaustive, and recent findings in this vital area. Understanding and control of quenching and quenchants is a critical constant in all well established and emerging heat treatment process technology. The collection of up-to-
606   $aMetals$xQuenching
606   $aPrecipitation hardening
608   $aElectronic books.
615  0$aMetals$xQuenching.
615  0$aPrecipitation hardening.
676   $a671.3/6
701   $aLiscic$b B$g(Bozidar)$0979806
712 02$aInternational Federation for Heat Treatment and Surface Engineering.
801  0$bFlBoTFG
801  1$bFlBoTFG
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912   $a9910459440903321
996   $aQuenching theory and technology$92234587
997   $aUNINA

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200 10$aLarge time behavior of solutions for general quasilinear hyperbolic-parabolic systems of conservation laws /$fTai-Ping Liu, Yanni Zeng
210  1$aProvidence, Rhode Island :$cAmerican Mathematical Society,$d1997.
210  4$dİ1997
215   $a1 online resource (135 p.)
225 1 $aMemoirs of the American Mathematical Society,$x0065-9266 ;$vVolume 65, Number 361
300   $a"January 1997, volume 125, number 599 (end of volume)."
311   $a0-8218-0545-2 
320   $aIncludes bibliographical references.
327   $a""Contents""; ""Abstract""; ""1. Introduction""; ""2. Viscous Conservation Laws""; ""3. Diffusion Waves""; ""4. Systems with Diagonalizable Linearizations""; ""5. Green's Function for a 2 x 2 Linear System""; ""6. Green's Functions for n x n Systems with Applications""; ""6.1. Green's Functions""; ""6.2. Applications""; ""7. Energy Estimate""; ""8. Systems with Non-Diagonalizable Linearizations""; ""9. Applications to Continuum Mechanics""; ""References""
410  0$aMemoirs of the American Mathematical Society ;$vVolume 65, Number 361.
606   $aShock waves
606   $aConservation laws (Mathematics)
606   $aDifferential equations, Parabolic$xNumerical solutions
606   $aDifferential equations, Hyperbolic$xNumerical solutions
615  0$aShock waves.
615  0$aConservation laws (Mathematics)
615  0$aDifferential equations, Parabolic$xNumerical solutions.
615  0$aDifferential equations, Hyperbolic$xNumerical solutions.
676   $a531/.1133
700   $aLiu$b Tai-Ping$f1945-$0535676
702   $aZeng$b Yanni$f1955-
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