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200 04$aThe decision of the Lords of council and session$b[electronic resource] $ein most cases of importance, debated, and brought before them; from July 1621. to July 1642. With an index of the pursuers and defenders names; and another of the most material points decided therein. Observed by Sir Alexander Gibson of Dury, then one of the senators of the College of Justice
210   $aEdinburgh $cprinted in the year MDCXC. Sold by George Stewart and Mr. John Tennent, booksellers in the Parliament-Close$d[1690]
215   $a[4], 900, 43, [1] p., [1] leaf of plates $cport
300   $aIndex at end, with separate register and pagination.
300   $aWith a final page of errata.
300   $aReproduction of the original in the Edinburgh University Library.
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607   $aScotland$xPolitics and government$y1625-1649$vEarly works to 1800
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LEADER 05423nam  2200685Ia 450 
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181   $ctxt
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200 10$aStrained metallic surfaces $etheory, nanostructuring and fatigue strength /$fValim Levitin and Stephan Loskutov
210   $aWeinheim $cWiley-VCH$dc2009
215   $a1 online resource (260 p.)
300   $aDescription based upon print version of record.
311 08$a9783527323449 
311 08$a3527323449 
320   $aIncludes bibliographical references (p. 243-246) and index.
327   $aStrained Metallic Surfaces; Contents; Introduction; 1 Peculiarities of the Metallic Surface; 1.1 Surface Energy and Surface Stress; 1.2 Crystal Structure of a Surface; 1.3 Surface Defects; 1.4 Distribution of Electrons near the Surface; 1.4.1 Model of Free Electrons in Solids; 1.4.2 Semi-Infinite Chain; 1.4.3 Infinite Surface Barrier; 1.4.4 The Jellium Model; 1.5 Summary; 2 Some Experimental Techniques; 2.1 Diffraction Methods; 2.1.1 The Low-Energy Electron Diffraction Method; 2.1.2 The Reflection High-Energy Electron Diffraction Method; 2.1.3 The X-ray Measurement of Residual Stresses
327   $a2.1.3.1 Foundation of the Method2.1.3.2 Experimental Installation and Precise Technique; 2.1.4 Calculation of Microscopic Stresses; 2.2 Distribution of Residual Stresses in Depth; 2.3 The Electronic Work Function; 2.3.1 Experimental Installation; 2.3.2 Measurement Procedure; 2.4 Indentation of Surface. Contact Electrical Resistance; 2.5 Materials under Investigation; 2.6 Summary; 3 Experimental Data on the Work Function of Strained Surfaces; 3.1 Effect of Elastic Strain; 3.2 Effect of Plastic Strain; 3.2.1 Physical Mechanism; 3.3 Influence of Adsorption and Desorption; 3.4 Summary
327   $a4 Modeling the Electronic Work Function4.1 Model of the Elastic Strained Single Crystal; 4.2 Taking into Account the Relaxation and Discontinuity of the Ionic Charge; 4.3 Model for Neutral Orbital Electronegativity; 4.3.1 Concept of the Model; 4.3.2 Effect of Nanodefects Formed on the Surface; 4.4 Summary; 5 Contact Interaction of Metallic Surfaces; 5.1 Mechanical Indentation of the Surface Layers; 5.2 Influence of Indentation and Surface Roughness on the Work Function; 5.3 Effect of Friction and Wear on Energetic Relief; 5.4 Summary; 6 Prediction of Fatigue Location
327   $a6.1 Forecast Possibilities of the Work Function. Experimental Results6.1.1 Aluminum and Titanium-Based Alloys; 6.1.2 Superalloys; 6.2 Dislocation Density in Fatigue-Tested Metals; 6.3 Summary; 7 Computer Simulation of Parameter Evolutions during Fatigue; 7.1 Parameters of the Physical Model; 7.2 Equations; 7.2.1 Threshold Stress and Dislocation Density; 7.2.2 Dislocation Velocity; 7.2.3 Density of Surface Steps; 7.2.4 Change in the Electronic Work Function; 7.3 System of Differential Equations; 7.4 Results of the Simulation: Changes in the Parameters; 7.5 Summary
327   $a8 Stressed Surfaces in the Gas-Turbine Engine Components8.1 Residual Stresses in the Surface of Blades and Disks and Fatigue Strength; 8.1.1 Turbine and Compressor Blades; 8.1.2 Grooves of Disks; 8.2 Compressor Blades of Titanium-Based Alloys; 8.2.1 Residual Stresses and Subgrain Size; 8.2.2 Effect of Surface Treatment on Fatigue Life; 8.2.3 Distribution of Chemical Elements; 8.3 Summary; 9 Nanostructuring and Strengthening of Metallic Surfaces. Fatigue Behavior; 9.1 Surface Profile and Distribution of Residual Stresses with Depth; 9.2 Fatigue Strength of the Strained Metallic Surface
327   $a9.3 Relaxation of the Residual Stresses under Cyclic Loading
330   $aProviding students as well as engineers and researchers with a must-have insight into the complexities of surface structure and behavior, this monograph extends beyond the usual introductory books, presenting concentrated knowledge on the surface science of metals, and connecting fundamentals with actual applications. Beginning with explanations of the intricacies of surfaces and their differences to bulk, it takes the reader through the vital steps towards macroscopic metallic components as well as surface nanostructuring. In so doing, it makes use of theory, experimental techniques, examples
606   $aMetals$xSurfaces
606   $aPhysical metallurgy
615  0$aMetals$xSurfaces.
615  0$aPhysical metallurgy.
676   $a620.16
700   $aLevitin$b Valim$01613926
701   $aLoskutov$b Stephan$01839919
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906   $aBOOK
912   $a9911019202203321
996   $aStrained metallic surfaces$94419321
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