的翻译结果:
查询用时：2.277秒
&在分类学科中查询
The Photo-chemical Reaction and the Second Law of Thermodynamics
光化学反应与热力学第二定律
Is There Any New Law of Thermodynamics at T→±∞
T→±∞时是否存在新的热力学定律
The Law of Maximum Rate of Energy
Dissipation on Continuum Dynamics
连续介体动力学最大能量消散率定律
A Discussion on Some Problems of the Third Law of Thermodynamics
对热力学第三定律一些问题的探讨
The Second—Law Efficiency and Energy Conservation
热力学第二定律效率和节能
The Photo-chemical Reaction and the Second Law of Thermodynamics
光化学反应与热力学第二定律
Is There Any New Law of Thermodynamics at T→±∞
T→±∞时是否存在新的热力学定律
The Law of Maximum Rate of Energy
Dissipation on Continuum Dynamics
连续介体动力学最大能量消散率定律
A Discussion on Some Problems of the Third Law of Thermodynamics
对热力学第三定律一些问题的探讨
AN AXIOMATIC TREATMENT FOR THE DERIVATION OF THE EXISTENCE OF ENTROPY FUNCTION OF THE SECOND LAW OF THERMODYNAMICS
热力学第二定律熵函数存在的一种公理化推导法
The measurement range is 0.5～2.0 μg/mL for aluminium, and 0～5 μg/mL for nickel, and 0.2～4μg/mL for cobalt and copper, which are in agreement with the laws of Lambert-Beer's law.
本方法铝含量在 0 .5～ 2 0 μg/ m L,镍含量在0～ 5μg/ m L、钴、铜含在 0 .2～ 4μg/ m L范围内符合朗伯 -比耳定律
The Relations between the Law of 20/80 and Laws of Bradford, Zipf and Lotka
20/80律与布—齐—洛三个定律之间的关系
Noether's Theory and the Conservation Laws of Fields
Noether理论与场的守恒定律
The Relation between the Markov Process Theory and Kolmogoroff's Theory of Turbulence and the Extension of Kolmogoroff's Laws—(Ⅱ) The Extension of Koimogoroff's"2/3 Law" and "-5/3 Law
湍流的Markov过程理论与Kolmogoroff理论的联系以及对Kolmogoroff定律的推广——Ⅱ对Kolmogoroff“2/3定律”和“-5/3定律”的推广
Renewal of Basic Laws and Principles for Polar Continuum Theories(Ⅲ)-Noether's Theorem
重建极性连续统理论的基本定律和原理(Ⅲ)——Noether定理
Applying the Method of Field Theory to Prove the Number of Independent Equation of Kirchhoff's Law
用场论方法证明基尔霍夫定律独立方程的数目
An Expression of Beer's Law in "Reverse Spectrophotometric Method"
光度分析“倒测法”的Beer定律表示式
THE EXPLAINATION OF THE APPLICATION CONDITIONS FOR COULOMB'S LAW
库仑定律应用条件的解释
Hess's Law in Broad Sense
广义HESS定律
APPLICATION OF SCHMID'S LAW UNDER COMPLEX STRESS STATES
Schmid定律在复杂应力状态下的应用
查询“定律”译词为用户自定义的双语例句&&&&我想查看译文中含有：的双语例句
为了更好的帮助您理解掌握查询词或其译词在地道英语中的实际用法，我们为您准备了出自英文原文的大量英语例句，供您参考。&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&& In this paper the writer employs complex Riemannian Geometry and defines the absolute interval between two points as consisting of a real part and an imaginary part. Two postulates (I) and (II) are used: the first may be called law of gravitation and electro- the second equation of motion. In the absence of electromagnetic phenomena the theory reduces practically to Einstein's theory. &&&&&&&&&&&&在此文内,作者利用复变来曼几何以宇宙间两点之距离为一实数及一虚数部分相构而成,於此并用假说:一可称为吸力及电磁定律,一为物体行动定律,解释吸力及电磁力之各种现象。在无电磁现象时,此文与爱因斯坦之吸力理论多相符合至於详细情形,容诸续篇。&&&&&&&& By using elementary methods of Riemannian Geometry the Friedmann universe can be derived under the following rive postulates: (1) The space-time is Riemannian. (2) Einstein's field equations hold. (3) Matter and radiation in the universe are in a state of thermal equilibrium. (4) The world lines of all 'nebulae converge toward the past. (5) The null geodesies are preserved unfler an infinitesimal transformation of space-time along the temporal axis. It is obvious that the isotropic and homogeneous propertie... &&&&&&&&&&&&根据五个假定,即(1)空时间为利曼四度空间,(2)安世坦的引力定律,(3)宇宙中的物质与辐身成一温度平衡状态,(4)所有空时间中旋转星云的世界线在过去曾相交叉,(5)空时间在时的方向经一无限小变换之后光子的零短程线仍为零短程线,本文用利曼几何的简易方法求得相对论宇宙论中的费烈特猛宇宙。&&&&&&&& Part I: K III-Ca IV &&&&&&&&&&&&(一)KⅢ-CaⅣ 自Ekefors氏所公布之诸波长内,已分析出之线,属於KⅢ者42条,属於CaⅣ者35条。Ram所得诸项名目之分派,自无规双线定律,强度,及複线间开定律诸方面观之,不无疑问著者因对此重新鑑定,其结果殊觉满意。(二)KⅣ-CaⅤ 本文所鑑定之诸线;属於KⅣ者单线七,三线五;属於CaⅤ者单线五。对等电子序SⅠ,ClⅡ,AⅢ,KⅣ及CaⅤ内s~2p~4 ~3P,~1D,~1S诸项之相对位置,亦有讨论。(三)KⅤ-CaⅥ 著者於KV内,得到双线之间开等於237(s~2p~3 ~2D)及319(s~2p~3 ~2P)者甚多:在CaⅥ内,亦有甚多双线,其间开等於417(s~2p~3 ~2D)及556(s~2p~3 ~2P);本文对上列诸双线,均经鑑定。又藉无规双线定律,对属於KV之s~2p~2(~3P)3d~4P,~4D,~4F诸项亦全经识别。(四)KⅧ-CaⅨ 本文得有CaⅨ之sp~3P-p~2 ~3P,及KⅧ与CaⅨ之sp ~1P-sd ~1D,s~2 ~1S-sp ~1P诸线(五)KⅨ-CaⅩ 本文鑑定KⅨ之线八,及CaⅩ之线六,为Edlen氏工作之补充。&nbsp&&&&&&&&相关查询:
在Springer中查有关
在知识搜索中查有关的内容
在数字搜索中查有关的内容
在概念知识元中查有关的内容
在学术趋势中查有关的内容
2008 CNKI－中国知网
北京市公安局海淀分局 备案号：110 1081725
&2008中国知网(cnki) 中国学术期刊(光盘版)电子杂志社&& 查看话题
Mechanical Behavior of Materials 2nd ed - W. Hosford (Cambridge, 2010)
Preface page xiii
1 Stress and Strain . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1
Introduction 1
Sign Convention 3
Transformation of Axes 4
Principal Stresses 6
Mohr’s Stress Circles 6
Small Strains 11
Transformation of Axes 12
Mohr’s Strain Circles 13
Force and Moment Balances 14
Boundary Conditions 16
Problems 17
2 Elasticity . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20
Introduction 20
Isotropic Elasticity 20
Variation of Young’s Modulus 22
Isotropic Thermal Expansion 24
Elastic Anisotropy 25
Orientation Dependence of Elastic Response 27
Orientation Dependence in Cubic Crystals 28
Orientation Dependence in Noncubic Crystals 30
Orientation Dependence in Materials Other Than Single Crystals 31
Anisotropic Thermal Expansion 31
References 32
Problems 33
vi Contents
3 Mechanical Testing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36
Introduction 36
Tensile Specimens 36
Stress–Strain Curves 37
Ductility 40
True Stress and Strain 41
The Bridgman Correction 43
Temperature Rise 43
Sheet Anisotropy 44
Measurement of Force and Strain 45
Axial Alignment 46
Special Problems 47
Compression Test 47
Plane–Strain Compression 50
Plane–Strain Tension 51
Biaxial Tension (Hydraulic Bulge Test) 51
Torsion Test 53
Bend Tests 54
Hardness Tests 56
Mutual Indentation Hardness 59
References 60
Problems 61
4 Strain Hardening of Metals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 65
Introduction 65
Mathematical Approximations 65
Power Law Approximation 67
Necking 68
Work Per Volume 70
Localization of Strain at Defects 70
Problems 72
5 Plasticity Theory . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 74
Introduction 74
Yield Criteria 74
Tresca (maximum shear stress criterion) 75
Von Mises Criterion 76
Flow Rules 78
Principle of Normality 79
Effective Stress and Effective Strain 80
Other Isotropic Yield Criteria 82
Anisotropic Plasticity 84
Effect of Strain Hardening on the Yield Locus 86
References 87
Contents vii
Problems 88
6 Strain Rate and Temperature Dependence of Flow Stress . . . . . . . . . . 92
Introduction 92
Strain Rate Dependence of Flow Stress 92
Superplasticity 95
Combined Strain and Strain Rate Effects 99
Strain Rate Sensitivity of bcc Metals 100
Temperature Dependence 103
Combined Temperature and Strain Rate Effects 103
Hot Working 108
References 109
Problems 110
7 Slip and Crystallographic Textures . . . . . . . . . . . . . . . . . . . . . . . . . . 113
Introduction 113
Slip Systems 113
Schmid’s Law 113
Strains Produced by Slip 116
Strain Hardening of fcc Single Crystals 117
Tensile Deformation of fcc Crystals 118
Slip in bcc Crystals 120
Slip in hcp Crystals 121
Lattice Rotation in Tension 121
Lattice Rotation in Compression 123
Texture Formation in Polycrystals 124
Approximate Calculations of R Values 125
Deformation of Polycrystals 126
Texture Strengthening 127
Effects of Texture on Microstructure 128
References 132
Problems 133
8 Dislocation Geometry and Energy . . . . . . . . . . . . . . . . . . . . . . . . . . 137
Introduction 137
Theoretical Strength of Crystals 137
The Nature of Dislocations 139
Burgers Vectors 141
Energy of a Screw Dislocation 142
Reactions between Parallel Dislocations and Frank’s Rule 144
Stress Fields around Dislocations 144
Forces on Dislocations 146
Partial Dislocations in fcc Crystals 147
Stacking Faults 149
viii Contents
References 152
Problems 153
9 Dislocation Mechanics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 155
Introduction 155
Frank-Read Sources 155
Dislocation Pile-Ups 158
Cross-Slip 158
Dislocation Intersections 159
References 163
Problems 164
10 Mechanical Twinning and Martenitic Shear . . . . . . . . . . . . . . . . . . . 166
Introduction 166
Formal Notation 167
Twinning Shear 167
Twinning in fcc Metals 169
Twinning in bcc Metals 169
Twinning in hcp Metals 171
Shapes of Twins 173
Mechanism of Twinning 175
Martensite Transformation 178
Shape Memory and Superelasticity 178
References 181
Problems 181
11 Hardening Mechanisms in Metals . . . . . . . . . . . . . . . . . . . . . . . . . . 184
Introduction 184
Crystal Structure 184
Grain Size 184
Strain Hardening 186
Solid Solution Strengthening 187
Dispersion Strengthening 188
Yield Points and Strain Aging 191
Combined Effects 192
References 195
Problems 196
12 Discontinuous and Inhomogeneous Deformation . . . . . . . . . . . . . . . 199
Stick-Slip Phenomena 199
Dynamic Strain Aging 200
Other Causes of Serrated Stress–Strain Curves 205
Contents ix
Strain Localization 205
Reference 206
Problems 206
13 Ductility and Fracture . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 208
Introduction 208
Ductile Fracture 210
Brittle Fracture 216
Impact Energy 218
References 221
Problems 223
14 Fracture Mechanics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 225
Introduction 225
Theoretical Fracture Strength 225
Stress Concentration 227
Griffith Theory 227
Orowan Theory 229
Fracture Modes 229
Irwin’s Fracture Analysis 229
Plastic Zone Size 231
Thin Sheets 233
Temperature and Loading Rate 234
Metallurgical Variables 235
Fracture Mechanics in Design 235
Compact Tensile Specimens 236
Strain–Energy Release 237
The J Integral 238
References 240
Problems 241
Appendix. Size and Shape of the Plastic Zone at the Crack Tip 243
15 Viscoelasticity . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 244
Introduction 244
Rheological Models 244
Series Combination of Spring and Dashpot 245
Parallel Combination of Spring and Dashpot 246
Combined Series Parallel Model 246
More Complex Models 248
Damping 248
Natural Decay 249
Elastic Modulus – Relaxed versus Unrelaxed 250
Thermoelastic Effect 251
Snoek Effect in bcc Metals 253
x Contents
Other Damping Mechanisms 254
References 255
Problems 256
16 Creep and Stress Rupture . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 259
Introduction 259
Creep Mechanisms 259
Temperature Dependence of Creep 263
Deformation Mechanism Maps 264
Cavitation 265
Rupture versus Creep 266
Extrapolation Schemes 266
Alloys for High-Temperature Use 269
References 271
Problems 272
17 Fatigue . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 275
Introduction 275
Surface Observations 275
Nomenclature 276
S-N Curves 278
Effect of Mean Stress 279
The Palmgren-Miner Rule 281
Stress Concentration 282
Surfaces 284
Design Estimates 285
Metallurgical Variables 286
Strains to Failure 286
Crack Propagation 289
Cyclic Stress–Strain Behavior 292
Temperature and Cycling Rate Effects 292
Fatigue of Polymers 295
Fatigue Testing 297
Design Considerations 297
Summary 298
References 298
Problems 299
18 Residual Stresses . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 302
Introduction 302
Small-Scale Stresses 302
Bauschinger Effect 305
Nonuniform Cooling 306
Nonuniform Material 307
Contents xi
Stresses from Welding 307
Stresses from Mechanical Working 308
Consequences of Residual Stresses 310
Measurement of Residual Stresses 311
Relief of Residual Stresses 313
References 314
Problems 315
19 Ceramics and Glasses . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 318
Introduction 318
Elastic Properties 318
Slip Systems 319
Hardness 319
Weibull Analysis 321
Testing 322
Porosity 323
High-Temperature Behavior 324
Fracture Toughness 324
Toughening of Ceramics 326
Fatigue 329
Silicate Glasses 329
Strength of Glasses 332
Thermally Induced Stresses 333
Delayed Fracture 334
Glassy Metals 334
References 336
Problems 337
20 Polymers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 339
Introduction 339
Elastic Behavior 339
Rubber Elasticity 344
Damping 345
Yielding 347
Effect of Strain Rate 348
Effect of Pressure 350
Crazing 354
Yielding of Fibers in Compression 356
Fracture 356
Deformation Mechanism Maps 357
Shape-Memory Effect 357
References 360
Problems 361
xii Contents
21 Composites . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 363
Introduction 363
Fiber-Reinforced Composites 363
Elastic Properties of Fiber-Reinforced Composites 363
Strength of Fiber-Reinforced Composites 367
Volume Fraction of Fibers 368
Orientation Dependence of Strength 369
Fiber Length 369
Failure with Discontinuous Fibers 372
Failure under Compression 373
Typical Properties 374
Particulate Composites 375
Brick Wall Model 376
Lamellar Composites 378
Morphology of Foams 379
Mechanical Properties of Foams 379
Metal Foams 379
Flexible Foams – Open Cell 381
Flexible Foams – Closed Cell 381
References 381
Problems 382
22 Mechanical Working . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 385
Introduction 385
Bulk-Forming Energy Balance 385
Deformation Zone Geometry 389
Friction in Bulk Forming 392
Formability 393
Deep Drawing 394
Stamping 396
References 401
Problems 402
APPENDIX I: Miller Indices . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 407
APPENDIX II: Stereographic Representation of Orientations . . . . . . . . . . . . 412
感谢分享！ 顶一下，感谢分享！ 顶一下，感谢分享！ 顶一下，感谢分享！ 顶一下，感谢分享！ 顶一下，感谢分享！ 顶一下，感谢分享！ 顶一下，感谢分享！ 顶一下，感谢分享！ 顶一下，感谢分享！ 顶一下，感谢分享！ 顶一下，感谢分享！ 顶一下，感谢分享！ 顶一下，感谢分享！ 顶一下，感谢分享！ 顶一下，感谢分享！ 顶一下，感谢分享！ 顶一下，感谢分享！ 顶一下，感谢分享！
var cpro_id = 'u1216994';
欢迎监督和反馈：本帖内容由
提供，小木虫仅提供交流平台，不对该内容负责。欢迎协助我们监督管理，共同维护互联网健康，如果您对该内容有异议，请立即发邮件到
联系通知管理员，也可以通过QQ周知，我们的QQ号为：8835100
我们保证在1个工作日内给予处理和答复，谢谢您的监督。
小木虫，学术科研第一站，为中国学术科研研究提供免费动力
广告投放请联系QQ： &
违规贴举报删除请联系邮箱： 或者 QQ:8835100
Copyright &
eMuch.net, All Rights Reserved. 小木虫 版权所有Lloyd's_Law_Reports-_GALAXY_ENERGY_INTERNATIONAL_LTD._v._NOVOROSSIYSK_SHIPPING_CO._(THE_-PETR_SCHMID_百度文库
两大类热门资源免费畅读
续费一年阅读会员，立省24元！
评价文档：
喜欢此文档的还喜欢
Lloyd's_Law_Reports-_GALAXY_ENERGY_INTERNATIONAL_LTD._v._NOVOROSSIYSK_SHIPPING_CO._(THE_-PETR_SCHMID
劳​氏​海​损
阅读已结束，如果下载本文需要使用
想免费下载本文？
把文档贴到Blog、BBS或个人站等：
普通尺寸(450*500pix)
较大尺寸(630*500pix)
你可能喜欢的翻译结果:
查询用时：1.241秒
&在分类学科中查询
The Photo-chemical Reaction and the Second Law of Thermodynamics
光化学反应与热力学第二定律
Is There Any New Law of Thermodynamics at T→±∞
T→±∞时是否存在新的热力学定律
The Law of Maximum Rate of Energy
Dissipation on Continuum Dynamics
连续介体动力学最大能量消散率定律
A Discussion on Some Problems of the Third Law of Thermodynamics
对热力学第三定律一些问题的探讨
The Second—Law Efficiency and Energy Conservation
热力学第二定律效率和节能
The Photo-chemical Reaction and the Second Law of Thermodynamics
光化学反应与热力学第二定律
Is There Any New Law of Thermodynamics at T→±∞
T→±∞时是否存在新的热力学定律
The Law of Maximum Rate of Energy
Dissipation on Continuum Dynamics
连续介体动力学最大能量消散率定律
A Discussion on Some Problems of the Third Law of Thermodynamics
对热力学第三定律一些问题的探讨
AN AXIOMATIC TREATMENT FOR THE DERIVATION OF THE EXISTENCE OF ENTROPY FUNCTION OF THE SECOND LAW OF THERMODYNAMICS
热力学第二定律熵函数存在的一种公理化推导法
The measurement range is 0.5～2.0 μg/mL for aluminium, and 0～5 μg/mL for nickel, and 0.2～4μg/mL for cobalt and copper, which are in agreement with the laws of Lambert-Beer's law.
本方法铝含量在 0 .5～ 2 0 μg/ m L,镍含量在0～ 5μg/ m L、钴、铜含在 0 .2～ 4μg/ m L范围内符合朗伯 -比耳定律
The Relations between the Law of 20/80 and Laws of Bradford, Zipf and Lotka
20/80律与布—齐—洛三个定律之间的关系
Noether's Theory and the Conservation Laws of Fields
Noether理论与场的守恒定律
The Relation between the Markov Process Theory and Kolmogoroff's Theory of Turbulence and the Extension of Kolmogoroff's Laws—(Ⅱ) The Extension of Koimogoroff's"2/3 Law" and "-5/3 Law
湍流的Markov过程理论与Kolmogoroff理论的联系以及对Kolmogoroff定律的推广——Ⅱ对Kolmogoroff“2/3定律”和“-5/3定律”的推广
Renewal of Basic Laws and Principles for Polar Continuum Theories(Ⅲ)-Noether's Theorem
重建极性连续统理论的基本定律和原理(Ⅲ)——Noether定理
Applying the Method of Field Theory to Prove the Number of Independent Equation of Kirchhoff's Law
用场论方法证明基尔霍夫定律独立方程的数目
An Expression of Beer's Law in "Reverse Spectrophotometric Method"
光度分析“倒测法”的Beer定律表示式
THE EXPLAINATION OF THE APPLICATION CONDITIONS FOR COULOMB'S LAW
库仑定律应用条件的解释
Hess's Law in Broad Sense
广义HESS定律
APPLICATION OF SCHMID'S LAW UNDER COMPLEX STRESS STATES
Schmid定律在复杂应力状态下的应用
查询“定律”译词为用户自定义的双语例句&&&&我想查看译文中含有：的双语例句
为了更好的帮助您理解掌握查询词或其译词在地道英语中的实际用法，我们为您准备了出自英文原文的大量英语例句，供您参考。&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&& In this paper the writer employs complex Riemannian Geometry and defines the absolute interval between two points as consisting of a real part and an imaginary part. Two postulates (I) and (II) are used: the first may be called law of gravitation and electro- the second equation of motion. In the absence of electromagnetic phenomena the theory reduces practically to Einstein's theory. &&&&&&&&&&&&在此文内,作者利用复变来曼几何以宇宙间两点之距离为一实数及一虚数部分相构而成,於此并用假说:一可称为吸力及电磁定律,一为物体行动定律,解释吸力及电磁力之各种现象。在无电磁现象时,此文与爱因斯坦之吸力理论多相符合至於详细情形,容诸续篇。&&&&&&&& By using elementary methods of Riemannian Geometry the Friedmann universe can be derived under the following rive postulates: (1) The space-time is Riemannian. (2) Einstein's field equations hold. (3) Matter and radiation in the universe are in a state of thermal equilibrium. (4) The world lines of all 'nebulae converge toward the past. (5) The null geodesies are preserved unfler an infinitesimal transformation of space-time along the temporal axis. It is obvious that the isotropic and homogeneous propertie... &&&&&&&&&&&&根据五个假定,即(1)空时间为利曼四度空间,(2)安世坦的引力定律,(3)宇宙中的物质与辐身成一温度平衡状态,(4)所有空时间中旋转星云的世界线在过去曾相交叉,(5)空时间在时的方向经一无限小变换之后光子的零短程线仍为零短程线,本文用利曼几何的简易方法求得相对论宇宙论中的费烈特猛宇宙。&&&&&&&& Part I: K III-Ca IV &&&&&&&&&&&&(一)KⅢ-CaⅣ 自Ekefors氏所公布之诸波长内,已分析出之线,属於KⅢ者42条,属於CaⅣ者35条。Ram所得诸项名目之分派,自无规双线定律,强度,及複线间开定律诸方面观之,不无疑问著者因对此重新鑑定,其结果殊觉满意。(二)KⅣ-CaⅤ 本文所鑑定之诸线;属於KⅣ者单线七,三线五;属於CaⅤ者单线五。对等电子序SⅠ,ClⅡ,AⅢ,KⅣ及CaⅤ内s~2p~4 ~3P,~1D,~1S诸项之相对位置,亦有讨论。(三)KⅤ-CaⅥ 著者於KV内,得到双线之间开等於237(s~2p~3 ~2D)及319(s~2p~3 ~2P)者甚多:在CaⅥ内,亦有甚多双线,其间开等於417(s~2p~3 ~2D)及556(s~2p~3 ~2P);本文对上列诸双线,均经鑑定。又藉无规双线定律,对属於KV之s~2p~2(~3P)3d~4P,~4D,~4F诸项亦全经识别。(四)KⅧ-CaⅨ 本文得有CaⅨ之sp~3P-p~2 ~3P,及KⅧ与CaⅨ之sp ~1P-sd ~1D,s~2 ~1S-sp ~1P诸线(五)KⅨ-CaⅩ 本文鑑定KⅨ之线八,及CaⅩ之线六,为Edlen氏工作之补充。&nbsp&&&&&&&&相关查询:
在Springer中查有关
在知识搜索中查有关的内容
在数字搜索中查有关的内容
在概念知识元中查有关的内容
在学术趋势中查有关的内容
2008 CNKI－中国知网
北京市公安局海淀分局 备案号：110 1081725
&2008中国知网(cnki) 中国学术期刊(光盘版)电子杂志社