Verfügbarkeit: Mechanical properties of ceramics

Mechanical properties of ceramics:

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Bibliographische Detailangaben
1. Verfasser:	Pelleg, Joshua (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Cham [u.a.] Springer 2014
Schriftenreihe:	Solid mechanics and its applications 213
Schlagworte:	Bruch Keramischer Werkstoff Keramik Härten Mechanische Eigenschaft
Online-Zugang:	Inhaltsverzeichnis Klappentext
Beschreibung:	XXII, 765 S. Ill., graph. Darst.
ISBN:	9783319044910

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Datensatz im Suchindex

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adam_text	Contents q 1 Mechanical Testing of Ceramics .......................... 1 1.1 Introduction ..................................... 1 1.2 Tension Test .................................... 3 1.2.1 Tension of Ductile Ceramics ................... 10 1.2.2 Stress Tensor .............................. 13 1.2.3 Stress on an Inclined Plane .................... 14 1.2.4 Principal Stresses ........................... 19 1.2.5 Plain Stress: Two-Dimensional Stress ............. 24 1.2.6 Mohr s Circle in Two Dimensions ............... 30 1.2.7 Three-Dimensional Mohr s Circles ............... 36 1.2.8 Strain Tensor .............................. 39 1.2.9 Generalized Hooke s Law ..................... 48 .3 Poisson Ratio ................................... 53 .4 Volume Strain (Dilatation) .......................... 61 .5 Principal Strain .................................. 62 .6 Thermal Strains .................................. 64 .7 Relations Among Some Elastic Constants ................ 66 .8 Compression of Ceramics ........................... 72 .9 Bend (Flexura!) Tests of Ceramics ..................... 76 .10 Hardness Tests in Ceramics .......................... 83 1.10.1 Introduction ............................... 83 1.10.2 Vickers Hardness Test (VHT) .................. 84 1.10.3 The Knoop Hardness Test: Microhardness ......... 91 1.11 Impact Testing of Ceramics .......................... 95 1.12 Weibull Statistical Distribution ....................... 105 References ,......................................... Ill Ductile Ceramics ..................................... 113 2.1 Introduction ..................................... 113 2.1.1 Ceramics at Elevated Temperatures .............. 114 2.1.2 Ductile Ceramics at Low or Ambient Temperatures. . . 139 2.1.3 Superplasticity in Ceramics .................... 148 Xl xii Contents 2.2 Ductility in Single Crystal Ceramics ................... 164 2.3 Summary ...................................... 171 References .......................................... 171 3 Imperfections (Defects) in Ceramics ....................... 173 3.1 Introduction ..................................... 173 3.2 Point Defects .................................... 175 3.2.1 Schematic Illustration of Point Defects ............ 175 3.2.2 Thermodynamics of Vacancy Formation ........... 176 3.2.3 Strengthening (Hardening) in Ceramics by Point Defects .............................. 180 3.2.4 Point Defects in Amorphous Ceramics and Their Strengthening (Effect) ........................ 186 3.3 Introduction to Dislocations .......................... 193 3.3.1 Introduction ............................... 193 3.3.2 Deformation or No Deformation in Crystals ........ 196 3.3.3 The Theoretical Strength of Crystals ............. 197 3.3.4 The Geometric Characterization of Dislocations ..... 199 3.3.5 Producing Dislocations in an Elastic Body (Schematic) ............................... 204 3.3.6 The Motion of Dislocations .................... 206 3.3.7 The Energy of Dislocations .................... 213 3.3.8 Line Tension .............................. 220 3.3.9 The Stress Field of a Dislocation ................ 221 3-3.10 Forces Acting on Dislocations .................. 224 3.3.11 Forces Between Dislocations ................... 228 3.3.12 Intersection of Dislocations .................... 230 3.3.13 Dislocation Multiplication ..................... 233 3.3.14 Partial Dislocations ......................... 236 3.3.15 Dislocation Pile-Ups ......................... 244 3.3.16 Low- (Small)-Angle Grain Boundaries ............ 246 3.3.17 Experimental Observations of Dislocations in Ceramics ............................... 248 З.ЗЛ8 Section Summary ........................... 276 References .......................................... 278 4 Deformation in Ceramics ............................... 281 4.1 Introduction ..................................... 281 4.2 Elastic Deformation ............................... 282 4.3 Plastic Deformation ............................... 283 4.3.1 Deformation at Low Temperatures ............... 284 4.3.2 Plastic Deformation at Elevated Temperatures ....... 287 4.4 The Critical Resolved Shear Stress (CRSS) in Ceramics ...... 293 4.5 Slip in Ceramics ................................. 301 Contents xiii 4.6 Slip in Polycrystalline Ceramics...................... 306 4.7 Twinning in Ceramics ............................. 312 4.7.1 Deformation (Mechanical) Twins ................ 312 4.7.2 Annealing (Growth) Twins .................... 316 4.7.3 Serrated Stress-Strain Curves .................. 319 4.8 Yield Phenomena in Ceramics ........................ 322 4.8.1 Introduction ............................... 322 4.8.2 Sharp Yield ............................... 322 4.8.3 Strain Aging .............................. 324 4.8.4 Portevin-Le Chatelier (PLC) Effect .............. 326 4.9 Deformation in Polycrystalline Ceramics ................ 330 4.9.1 Introduction ............................... 330 4.9.2 Preferred Orientation (Texture) ................. 330 4.9.3 Texture by Templating ....................... 331 4.9.4 Spark Plasma Sintering (SPS) .................. 333 4.10 Grain Size ...................................... 334 4.11 Closing Remarks ................................. 347 Appendix ........................................... 347 References .......................................... 349 5 The Strength and Strengthening of Ceramics ................ 351 5.1 Introduction ..................................... 351 5.2 Strain Hardening ................................. 352 5.2.1 Brittle Ceramics ............................ 354 5.2.2 Ductile Ceramics ........................... 354 5.2.3 Superplastic Ceramics ........................ 361 5.3 Solid Solution Strengthening ......................... 370 5.4 Second Phase Strengthening ......................... 379 5.4.1 Addition of a Ceramic Second Phase ............. 380 5.4.2 Second Phase Formation During Some Stage of the Processing (Precipitation or Phase Transformation) ............................ 384 5.5 Transformation Hardening ........................... 390 5.6 Grain Boundaries and Grain-Size Strengthening ........... 399 5.7 Concluding Remarks to this Chapter ................... 414 References .......................................... 414 6 Time-Dependent Deformation: Creep ...................... 417 6.1 Introduction ..................................... 417 6.2 Basic Concepts .................................. 419 6.3 Creep in Brittle Ceramics (Ductile at High Temperature Where Deformation is Possible) ....................... 424 6.3.1 Creep in Single Crystals ...................... 426 6.3.2 Creep in Polycrystalline Ceramics ............... 429 xiv Contents 6.4 Creep in RT Ductile Ceramics ........................ 437 6.4.1 Single Crystal Ceramics ...................... 438 6.4.2 Polycrystalline Ceramics ...................... 443 6.5 Superplastic Ceramics .............................. 452 6.6 Mechanisms of Creep .............................. 458 6.6.1 Nabarro-Herring Creep ....................... 460 6.6.2 Dislocation Creep and Climb ................... 466 6.6.3 Climb-Controlled Creep ...................... 466 6.6.4 Thermally-Activated Glide via Cross-Slip .......... 469 6.6.5 Coble Creep, Involving Grain-Boundary Diffusion. . . . 478 6.7 Grain-Boundary Sliding ............................ 480 6.8 Creep Rupture in Ceramics .......................... 501 6.8.1 Alumina ................................. 502 6.8.2 SiC ..................................... 511 6.8.3 SÍ3N4 ................................... 513 6.8.4 Remarks on Creep Rupture: The Norton-Bailey Concept ................................. 517 6.9 The Prediction of LifeTime (Parametric Method) ........... 519 6.9.1 The Larson-Miller Method .................... 519 6.9.2 The Monkman-Grant Method .................. 522 6.10 Concepts of Designing (Selecting) Creep-Resistant Ceramics ....................................... 525 References .......................................... 528 7 Cyclic Stress: Fatigue .................................. 531 7.1 Introduction ..................................... 531 7.2 S—N Curves; Endurance Limit ........................ 533 7.2.1 Brittle Ceramics ............................ 534 7.2.2 Ductile Ceramics (RT and High Temperature) ....... 537 7.3 Definitions ..................................... 543 7.4 The Stress Cycles ................................. 544 7.4.1 Low-Cycle Fatigue Tests ..................... 544 7.4.2 High-Cycle Fatigue Tests ..................... 547 7.5 Fatigue Lifetime ................................. 547 7.6 The Effect of Cracks: The Law of Paris ................. 552 7.7 Hysteresis ...................................... 555 7.8 Cyclic Hardening (Softening) ........................ 563 7.9 The Mean Stress and the Goodman Diagram .............. 568 7.10 Load and Amplitude Effects on Crack in Fatigue ........... 571 7.10.1 Introduction ............................... 571 7.10.2 Loading Conditions and Effects ................. 571 7.11 Structural Observations in Fatigued Specimens ............ 576 7.11.1 Striations ................................. 576 7.11.2 Dislocation Structure in Fatigue ................. 579 Contents xv 7.12 Notch Effect .................................... 581 7.13 Failure Resulting from Cyclic Deformation (Fracture by Fatigue) .............................. 583 7.14 Effect of Some Process Variables ..................... 583 7.14.1 Surface Effects on Fatigue .................... 583 7.14.2 Laser Treatments ........................... 585 7.14.3 Sandblasting .............................. 588 7.14.4 Shot Peening .............................. 592 7.14.5 Grain Size ................................ 597 7.15 Thermal Fatigue .................................. 602 7.16 Design for Fatigue ................................ 611 References .......................................... 614 8 Fracture ........................................... 617 8.1 Introduction ..................................... 617 8.2 Fracture Types ................................... 620 8.3 Brittle Fracture .................................. 622 8.3.1 Theoretical Strength ......................... 622 8.3.2 Theories of Brittle Fracture .................... 625 8.3.3 Griffith s Theory on Fracture .................. 626 8.3.4 Orowan s Fracture Theory .................... 629 8.3.5 The Dislocation Theory of Brittle Fracture ......... 631 8.3.6 Fracture Toughness ......................... 637 8.3.7 Fatigue Fracture in Ceramics ................... 654 8.3.8 Improving Toughness ........................ 660 8.4 Creep Fracture in Ceramics .......................... 691 8.5 Ductile Fracture in Ceramics ......................... 694 8.6 Fracture in Superplastic Ceramics ..................... 698 8.7 Concluding Remarks .............................. 702 References .......................................... 702 9 Mechanical Properties of Nanoscale Ceramics ................ 705 9.1 Introduction ..................................... 706 9.2 Static Properties .................................. 706 9.2Л Stress-Strain Relation ........................ 707 9.2.2 Flexure (Bending) Stress ...................... 712 9.2.3 Hardness ................................. 714 9.2.4 Twinning ................................ 721 9.3 Time-Dependent Deformation (Creep) .................. 724 9.4 Dynamic Deformation in Nanoceramics ................. 734 9.4.1 Introduction ............................... 734 9.4.2 Fatigue .................................. 735 xvi Contents 9.5 Superplastic Observations in Nanoceramics ............... 739 9.5.1 Introduction ............................... 739 9.5.2 Static Properties Observed in Superplastic Ceramics ................................. 740 9.6 Fracture ....................................... 746 9.6.1 Introduction ............................... 746 9.6.2 Fracture Toughness ......................... 746 9.7 Epilogue ....................................... 757 References .......................................... 758 Index ................................................ 761 Series EéJtorG. M L. Glad well Joshua Pel leç Mechanical Properties of Ceramics This testbook discusses the Mechanical Properties of Ceramics and aims to provide both a solid background for undergraduate students,as weB as serving as a text to bring practicing engineers up to date with the latest developments in this topic so they can useandapply these to their actual engineering work. Generally, ceramics are made by moistening a mixture of clays, casting it into desired shapes and then firing it to a high temperature, a process known as vitrification . The rt Lmvely kite development or metallurgy was contingent on the availability of OHfamKi лпа the know-how to mold them into the appropriate forms. Because of th«? characteristic s of ceramics, they offer great advantages over metals in specific applications in which hardness, wear resistance and chemical stability at high températures arc essential dearly, modern ceramics manufacturing has come a long -3 - from the early clay-processing fabrication method, and the last two decades have í α the development of sophisticated techniques to produce a large variety of ceramic material lhe chapters of this volume are ordered to help students with their laboratory experiments and guide their observations in parallel with lectures based on the current text. Thus, tłu : ■ ■ : chapter is devoted to mechanical testing. A chapter ot ductile and superplastic ceramic is added to emphasize their role in modern ceramics ι chaple : _. . these are ЫЬ »wed by the theoretical basis of the subject. Various aspects Ы fch< aaedmnical properties are discussed in the following chapters, among them, strengthening mechanisms, time dependent and cyclic deformation of ceramics. Many practical illustrations are provided representing varióos observations encountered in actual ceramic-structu >1 particularly technical significance. A comprehensive Hst of references at the end of each chaptt г is included in this textbook to provide a broad s for further studying the subject. The work also contains a unique chapter on a topic ftol discussed m other textbooks on ceramics concerning nanosized ceramics. І <ї.к will also be useftil as a reference for materials scientists, not only to those ре* *1ш ю ceramics.
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spelling	Pelleg, Joshua Verfasser aut Mechanical properties of ceramics Joshua Pelleg Cham [u.a.] Springer 2014 XXII, 765 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Solid mechanics and its applications 213 Bruch (DE-588)4130868-2 gnd rswk-swf Keramischer Werkstoff (DE-588)4030282-9 gnd rswk-swf Keramik (DE-588)4030270-2 gnd rswk-swf Härten (DE-588)4139793-9 gnd rswk-swf Mechanische Eigenschaft (DE-588)4217961-0 gnd rswk-swf Keramik (DE-588)4030270-2 s Keramischer Werkstoff (DE-588)4030282-9 s Mechanische Eigenschaft (DE-588)4217961-0 s DE-604 Härten (DE-588)4139793-9 s Bruch (DE-588)4130868-2 s Erscheint auch als Online-Ausgabe 978-3-319-04492-7 Solid mechanics and its applications 213 (DE-604)BV004342211 213 Digitalisierung UB Bayreuth - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=027365313&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis Digitalisierung UB Bayreuth - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=027365313&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA Klappentext
spellingShingle	Pelleg, Joshua Mechanical properties of ceramics Solid mechanics and its applications Bruch (DE-588)4130868-2 gnd Keramischer Werkstoff (DE-588)4030282-9 gnd Keramik (DE-588)4030270-2 gnd Härten (DE-588)4139793-9 gnd Mechanische Eigenschaft (DE-588)4217961-0 gnd
subject_GND	(DE-588)4130868-2 (DE-588)4030282-9 (DE-588)4030270-2 (DE-588)4139793-9 (DE-588)4217961-0
title	Mechanical properties of ceramics
title_auth	Mechanical properties of ceramics
title_exact_search	Mechanical properties of ceramics
title_full	Mechanical properties of ceramics Joshua Pelleg
title_fullStr	Mechanical properties of ceramics Joshua Pelleg
title_full_unstemmed	Mechanical properties of ceramics Joshua Pelleg
title_short	Mechanical properties of ceramics
title_sort	mechanical properties of ceramics
topic	Bruch (DE-588)4130868-2 gnd Keramischer Werkstoff (DE-588)4030282-9 gnd Keramik (DE-588)4030270-2 gnd Härten (DE-588)4139793-9 gnd Mechanische Eigenschaft (DE-588)4217961-0 gnd
topic_facet	Bruch Keramischer Werkstoff Keramik Härten Mechanische Eigenschaft
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=027365313&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=027365313&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA
volume_link	(DE-604)BV004342211
work_keys_str_mv	AT pellegjoshua mechanicalpropertiesofceramics

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