Mccolm I.J. — Ceramic Hardness :: Электронная библиотека попечительского совета мехмата МГУ

Главная Ex Libris Книги Журналы Статьи Серии Каталог Wanted Загрузка ХудЛит Справка Поиск по индексам Поиск Форум

Авторизация

Поиск по указателям

Mccolm I.J. — Ceramic Hardness

Обсудите книгу на научном форуме

Нашли опечатку?
Выделите ее мышкой и нажмите Ctrl+Enter

Название: Ceramic Hardness

Автор: Mccolm I.J.

Аннотация:

Use of ceramic materials is developing at a great pace. This work presents recent developments (without dwelling on early theory and practice), and brings to a focus how much the study of hardness can contribute to our understanding of ceramics and the collecting of important technical data. The chapters address method; hardness of ceramic single crystals; applied load, environment, and time; cracked indents; ceramic systems.

Язык:

Рубрика: Технология/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Год издания: 1990

Количество страниц: 340

Добавлена в каталог: 21.08.2009

Операции: Положить на полку | Скопировать ссылку для форума | Скопировать ID

Предметный указатель

Glass, antifatigue effect in      206
Glass, definition of      237
Glass, detection of compressed layers in      194—196
Glass, effect of network modifiers      328
Glass, flow lines in      193 234
Glass, hardness modulus ratio      179 241
Glass, hydrolysis of      57 241
Glass, load-crack length relationship      195
Glass, median crack generation      147 157—158 241
Glass, molar refractivity and hardness      238
Glass, pendulum analysis      55
Glass, pendulum analysis, $SiO_{2}-La_{2}O_{3}$ glass      238
Glass, ring cracks in      164
Glass, structure of      237
Glass, surface study by indentation      241
Glass-ceramics      234
Glass-ceramics, hardness      242—243
Glass-ceramics, machinable hardness of      243
Glass-ceramics, nucleation      238 244
Glide bands      44 66 69
Glide bands in $CaF_{2}$       94
Glide bands in BN      232
Glide bands in GaAs      113
Glide planes in GaAs      112 116
Glissile boundary      272
Grain boundary, effect on hardness      123 265
Grain boundary, fracture      168 258
Grain boundary, microflaws      258
Grain boundary, nitrogen glass phases      224
Grain boundary, nitrogen glass phases, Knoop hardness      224
Grain boundary, nitrogen glass phases, toughness      225
Grain boundary, orientation      199
Grain boundary, phases in $Si_{3}N_{4}$       223
Grain boundary, specific fracture energy      198 258
Grain boundary, specific fracture energy, equation      200
Grain boundary, strength equations      200 258
Grain boundary, stress intensity factor      258
Grain boundary, surface energy measurement of      198—200 258
Grain boundary, toughness      258 261
Grain size and $ZrO_{2}$ polymorphism      271—272
Grain size and hardness      6—7 123 256—257
Grain size and hardness of $Al_{2}O_{3}$       256—257
Grain size and hardness of $ZrO_{2}-CeO_{2}$       277
Grain size and hardness of MgO      123 265
Grain size and hardness, equation      120
Grain size and indent shape      43
Grain size and toughness      184
Grain size and toughness of $Al_{2}O_{3}$       257
graphite      247
Graphite, hardness of      252
Griffith condition      151 167 271
Gypsum, hardness of      46
Gypsum, Knoop hardness      28
Gypsum, Mohs number      28
Gypsum, pendulum hardness      28
Halfpenny crack      156 169 260
Hall — Petch relationship      120
Hall — Petch relationship in MgO      265
Hardening constant      141
Hardening in glass      194
Hardness and applied load      7 119—124 251 255 281
Hardness and band gap      288 292
Hardness and chemical bonds      5 90 126 133 250 288 292
Hardness and composition      77 92 125 225 238 260—261 288—289 292
Hardness and coordination number      286
Hardness and crack depth equation      155
Hardness and diamond shape      39—46 90 94 97
Hardness and dislocation glide      112—113
Hardness and drilling      81 138—139
Hardness and electronic structure      125 136—137 251 288
Hardness and grain size      123 256—257 265
Hardness and grain size, equation      120
Hardness and lattice energy      24
Hardness and load      5—9 33—34 221 286
Hardness and load, application rate      34—38 140—143
Hardness and mechanochemical effect      133 134 138 251
Hardness and molar volume      24 133 238
Hardness and pH      138—140
Hardness and polarisability      238
Hardness and slip systems      72 88 89 90 92 93 98—100 103 264—265 292
Hardness and surface charge      131 134 138
Hardness and surface energy      5 131 155 271
Hardness and surface layers      124—131 262 275
Hardness and surface layers, equation      128—129
Hardness and temperature      9 77 86 141 162 214—215 254 262 296
Hardness and tensile strength      5 121
Hardness and toughness      146 163
Hardness and toughness, equations      173—177
Hardness and yield stress      11—19
Hardness from indent depth      47—48
Hardness, absolute      72
Hardness, anisotropy      65 262 293
Hardness, Berkovich      11 39—40 73 94 214
Hardness, Brinell      10 38 163 217 226—227 229
Hardness, concept of      5—10
Hardness, defined by load      7 33—34
Hardness, definition      1 5
Hardness, effect of surface on      45—46 124 275
Hardness, elastic shear modulus, equation      73 140 238
Hardness, elastic shear modulus, ratio      179
Hardness, Knoop      11 29 40—41 73 82—83 86—87 99—105 130 134 214 217 220 226—229 293
Hardness, mean effective resolved shear stress relationship      99—104 107 110
Hardness, Meyer      10
Hardness, Mohs number      28 59
Hardness, parameters affecting      2 5—10 34—36 94 111 133 138 140 262
Hardness, pendulum      50—54 245
Hardness, polarity      77 134
Hardness, porosity equation      8 168 278
Hardness, Rockwell      3 10 47 163 227 231 260
Hardness, science development of      2
Hardness, scratch      58—63 95—96 105—108 219
Hardness, tests      1—3 34—46 47 50—54 58—62 94
Hardness, theoretical      20—25 72—73 97—111 123 140 271
Hardness, Vickers      10 42 73 92—94 119—123 214 217 220 226—229 238 241 276
Hardness, Wallace      46—47
Herbert pendulum test      2 25 50 54
Hertz pressure      164
Hertz pressure and fracture toughness      186 217—218
Hertz pressure and ring cracks      186 218
Hexagonal crystals, hardness anisotropy      81—88 220
Hexagonal crystals, reciprocal mean effective resolved shear stress curves      104—105
Hexagonal crystals, slip planes      81 212—213
HfC hardness      303
Hill's expanding cavity model      14 175 271
Hole conduction      248
Hole conduction in boron      251
Hole conduction in dicarbides      293
Hoop stress      154
Hopping charge semiconductor      285
Hot pressed $Si_{3}N_{4}$ , hardness-load relationship      221
Hot pressed SiC hardness      218
Hybridization and bond angles in $SiO_{2}$       235
Hybridization and slip in carbides      305
Hybridization in $\beta-Al_{2}O_{3}$       281
Hybridization in borides      298
Hybridization in boron      25—251
Hybridization in carbon      246—247
Hydrogen ions and hardness of glass      241
Hydrogen ions and mechanical properties      138
Impact damage in ceramics      170
Impact damage in glass      238
Indent shape      19—20
Indent shape and anisotropy      44 90 267—268
Indent shape and etching      135
Indent shape and numerical aperature      42—43
Indent shape and penetration depth      41 239
Indent shape and slip systems      68—69 90
Indent shape and surface slope      44
Indent shape on $\beta-Al_{2}O_{3}$       279
Indent shape on MgO crystal      267

Indent shape, recovery      48—49 239
Indent shape, size      34
Indent, cracks      69—71 146—159 267
Indent, edge cracks      168
Indent, equation      124
Indent, plastic zone      111 239
Indent, plastic zone, size equation      15 154
Indent, recovery      239
Indent, residual impression dimensions      239
Indent, residual impression dimensions, effect on anisotropy      267
Indent, shape and etching      135
Indent, size and surface removed equation      124
Indent, troughs      69
Indentation creep      26 38 103 111 140—143
Indentation creep and indent recovery      48 179—180
Indentation creep and indent recovery and H/E      179—180
Indentation creep and indent recovery, model for      48 111 179
Indentation creep of $Al_{2}O_{3}$       234
Indentation creep of carbides      293
Indentation creep on BN      233—234
Indentation creep, activation energy      141 292 293
Indentation hardness and $ZrO_{2}$ polymorphs      271—273
Indentation hardness and cracks      70—71 157
Indentation hardness and dwell time      142
Indentation hardness and dwell time, equation      141
Indentation hardness and indenter symmetry      74 97 98—101
Indentation hardness and scratch hardness      63
Indentation hardness, area measured      10—12
Indentation hardness, diamond shape effect      39—44 94 97 157
Indentation hardness, grain-size effect      6
Indentation hardness, load effect      34—38
Indentation hardness, polishing effect      45—46
Indentation process and crack generation      147—159
Indentation process, bubble raft model      129
Indentation process, model      131
Indentation process, observation      244
Indentation size effect      119—131
Indentation size effect and absolute hardness      123
Indentation size effect and compressed layers      119 126 127
Indentation size effect and microstructure      121
Indentation size effect and surface layers      119 127 129
Indentation size effect and surface reactions      119 126 127
Indentation size effect and temperature      130—131
Indentation size effect of $Al_{2}O_{3}$       259—260
Indentation size effect of $Si_{3}N_{4}$       123
Indentation size effect of amorphous layers model      128
Indentation size effect of BN      233
Indentation size effect of LiF      123
Indentation size effect of MgO      120 123 266
Indentation size effect of SiC      123
Indentation size effect of silicon      127 248
Indentation size effect, equation      12—121
Indentation size effect, index      120 124
Indenter, half angle and crack depth      155—158
Indenter, symmetry      74 97
Indenter, symmetry and "pop-in,"      157
Indium phosphide (InP), anisotropy      77
Indium phosphide (InP), hardness      83
Intrinsic stacking fault energy in silicon      249
Inverse spinels      285
Ion beam cleaning      126
Ion beam cleaning, effect on hardness      126—127
ion implantation      126—127
Ion implantation in $Al_{2}O_{3}$       262—263
Ionic carbides      294—296
Ionic ceramics      209
ISE      see "Indentation size effect"
Isoelectronic point      138
Isosahedra in $B_{4}C$       228
KCl hardness      80
Keatite      237
Knoop hardness and divergent slip      116
Knoop hardness and load dependence      221 254
Knoop hardness and mean resolved shear stress      99—104
Knoop hardness and Mohs scale      25
Knoop hardness and surface additives      138 262—263
Knoop hardness and Young's modulus      180
Knoop hardness of $Si_{3}N_{4}$       221 228
Knoop hardness of $TiO_{2}$       124
Knoop hardness of $V_{2}O_{5}$       89
Knoop hardness of $ZrO_{2}$       276 277
Knoop hardness of alumina      28 86 259—263
Knoop hardness of beryl      86
Knoop hardness of BN      83
Knoop hardness of borides      87
Knoop hardness of creep      142
Knoop hardness of cubic crystals      82—83
Knoop hardness of cubic crystals, orientation of      73
Knoop hardness of diamond      32
Knoop hardness of germanium      253
Knoop hardness of gypsum      28
Knoop hardness of hexagonal crystals      86—87
Knoop hardness of magnesia      265—266 269
Knoop hardness of magnesia, grain size      123 265
Knoop hardness of magnesia, single crystals      74—75 82 142 269
Knoop hardness of orthorhombic crystals      89
Knoop hardness of SiC      85—86 214 217 220
Knoop hardness of silica      28 252
Knoop hardness of tetragonal crystals      90—91
Knoop hardness of TiC      293
Knoop hardness of Y sialon glass      229
Knoop hardness, equation      11
Knoop hardness, errors      41
Knoop hardness, technique for anisotropy      75 80—81 85
Knoop indentation ratio      178—179
Knoop indentations and anisotropy      73—90
Knoop indentations and constraint factor      110
Knoop indentations and ISE values      130—131
Knoop indentations and resolved shear stress curves      99—105 110
Knoop indentations and surface energy      198
Knoop indentations to find H/E      179
Knoop indentations, relaxation of      178—179
Kusnetzov      25 50—51
Lancaster microindentation tester      50
Lanthanide dicarbides, pendulum hardness      295
Lanthanide dicarbides, Vickers hardness      304
Lanthanum boride, $La_{2}B_{6}$       297
Lanthanum oxide ( $La_{2}O_{3}$ ) as network modifier      238
Lanthanum oxide ( $La_{2}O_{3}$ ), effect on silica hardness      238
Lanthanum silicate ( $La_{2}Si_{2}O_{7}$ ), hardness      242
Lanthanum silicate ( $La_{2}Si_{2}O_{7}$ ), precipitate in silica      238
Lateral vent crack      55 126 148 154 158—161 235
Lateral vent crack and surface distortion      159
Lateral vent crack at thin film interfaces      205
Lateral vent crack, analysis of      159—161
Lateral vent crack, circular contours of      159
Lateral vent crack, critical flaw size      154
Lateral vent crack, length as a function of load      161
Lattice energy and fracture energy      198
Lattice energy and hardness      22 24
Lattice energy of silicon      24
Lattice vacancy diffusion      141
Laugier equation      173
Law of Mixtures      128
Lawn equation      173
Leitz low load apparatus      39
Lennard — Jones potential      20
Lithium aluminium silicate      244
Lithium fluoride (LiF), Berkovich hardness      95
Lithium fluoride (LiF), hardness anisotropy      75 95 103
Lithium fluoride (LiF), ISE effect      123
Load application, crack-depth relationship      155
Load application, critical value      153
Load application, direction      38
Load application, direction, indent diagonal relationship      121
Load application, direction, rate of      34—38
Load application, direction, times      37—38 140—143
Load application, hardness effect in silicon      251 254
Load application, ring-crack relationship      165
Log-index relationship      120

1 2 3 4 5 6

О проекте