Properties of materials: anisotropy, symmetry, structure
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Oxford [u.a.]
Oxford Univ. Press
2007
|
| Ausgabe: | reprint. |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XII, 378 S. Ill., graph. Darst. |
| ISBN: | 9780198520757 |
Internformat
MARC
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| 100 | 1 | |a Newnham, Robert E. |e Verfasser |4 aut | |
| 245 | 1 | 0 | |a Properties of materials |b anisotropy, symmetry, structure |c Robert E. Newnham |
| 250 | |a reprint. | ||
| 264 | 1 | |a Oxford [u.a.] |b Oxford Univ. Press |c 2007 | |
| 300 | |a XII, 378 S. |b Ill., graph. Darst. | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 650 | 4 | |a Anisotropy | |
| 650 | 4 | |a Crystallography | |
| 650 | 4 | |a Materials | |
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Datensatz im Suchindex
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|---|---|
| adam_text | Contents
1
Introduction
1
1.1
Outline
1
1.2
Structure-property relationships
3
1.3
Symmetry of physical properties
4
1.4
Atomistic arguments: Density
5
2
Transformations
9
2.1
Why transformations?
9
2.2
Axis transformations
9
2.3
Orthogonality conditions
10
2.4
General rotation (Eulerian angles)
12
3
Symmetry
14
3.1
Symmetry operations
14
3.2
Symmetry elements and stereographic projections
15
3.3
Point groups and their
stereograms
17
3.4
Crystallographic nomenclature
20
3.5
Point group populations
20
4
Transformation operators for symmetry elements
23
4.1
Transformation operators for the crystallographic
symmetry elements
23
4.2
Transformation operations for the thirty-two crystal
classes
25
4.3
Standard settings
26
4.4
Curie group symmetries
26
5
Tensors and physical properties
30
5.1
Physical properties
30
5.2
Polar tensors and tensor properties
31
5.3
Axial tensor properties
32
5.4
Geometric representations
33
5.5
Neumann s Principle
34
5.6
Analytical form of Neumann s Principle
34
6
Thermodynamic relationships
37
6.1
Linear systems
37
6.2
Coupled interactions: Maxwell relations
38
6.3
Measurement conditions
40
viii Contents
7
Specific
heat and entropy
43
7.1
Heat capacity of solids
43
7.2
Lattice vibrations
46
7.3
Entropy and the magnetocaloric effect
48
8
Pyroelectricity
50
8.1
Pyroelectnc and electrocaloric tensors
50
8.2
Symmetry limitations
50
8.3
Polar axes
52
8.4
Geometric representation
53
8.5
Pyroelectric measurements
54
8.6
Primary and secondary pyroelectric effects
54
8.7
Pyroelectric materials
55
8.8
Temperature dependence
55
8.9
Applications
57
9
Dielectric constant
58
9.1
Origins of the dielectric constant
58
9.2
Dielectric tensor
60
9.3
Effect of symmetry
62
9.4
Experimental methods
63
9.5
Geometric representation
67
9.6
Polycrystalline dielectrics
69
9.7
Structure-property relationships
69
10
Stress and strain
72
10.1
Mechanical stress
72
10.2
Stress transformations
74
10.3
Strain tensor
75
10.4
Matrix transformation for strain
77
11
Thermal expansion
79
11.1
Effect of symmetry
79
11.2
Thermal expansion measurements
81
11.3
Structure-property relations
82
11.4
Temperature dependence
85
12
Piezoelectricity
87
12.1
Tensor and matrix formulations
87
12.2
Matrix transformations and Neumann s Law
89
12.3
Piezoelectric symmetry groups
91
12.4
Experimental techniques
93
12.5
Structure-property relations
94
12.6
Hydrostatic piezoelectric effect
97
12.7
Piezoelectric ceramics
99
12.8
Practical piezoelectrics: Quartz crystals
100
13
Elasticity
103
13.1
Tensor and matrix coefficients
103
Contents ix
13.2
Tensor and matrix transformations
13.3
Stiffness-compliance relations
13.4
Effect of symmetry
13.5
Engineering coefficients and measurement
methods
13.6
Anisotropy and structure-property relations
13.7
Compressibility
13.8
Polycrystalline averages
13.9
Temperature coefficients
13.10
Quartz crystal resonators
Magnetic
phenomena
14.1
Basic ideas and units
14.2
Magnetic structures and time reversal
14.3
Magnetic point groups
14.4
Magnetic axial vectors
14.5
Saturation magnetization and pyromagnetism
14.6
Magnetic susceptibility and permeability
14.7
Diamagnetic and paramagnetic crystals
14.8
Susceptibility measurements
14.9
Magnetoelectricity
14.10
Piezomagnetism
14.11
Summary
105
106
107
109
110
113
114
116
118
14
Magnetic phenomena
122
122
124
125
130
131
134
135
137
138
142
146
15
Nonlinear phenomena
147
15.1
Nonlinear dielectric properties
147
15.2
Nonlinear elastic properties
148
15.3
Electrostriction
151
15.4
Magnetostriction
153
15.5
Modeling magnetostriction
154
15.6
Magnetostrictive
actuators
159
15.7
Electromagnetostriction and
pseudopiezoelectricity
160
16
Ferroic crystals
162
16.1
Free energy formulation
162
16.2
Ferroelasticity
165
16.3
Ferromagnetism
168
16.4
Magnetic anisotropy
170
16.5
Ferroelectricity
174
16.6
Secondary ferroics: Ferrobielectricity and
ferrobimagnetism
177
16.7
Secondary ferroics: Ferrobielasticity and
ferroelastoelectricity
179
16.8
Secondary ferroics: Ferromagnetoelectrics and
ferromagnetoelastics
182
16.9
Order parameters
183
17
Electrical resistivity
188
17.1
Tensor and matrix relations
188
χ
Contents
17.2
Resistivity measurements
189
17.3
Electrode metals
191
17.4 Anisotropie
conductors
193
17.5
Semiconductors and insulators
194
17.6
Band gap and mobility
196
17.7
Nonlinear behavior:
Varistors
and thermistors
199
17.8
Quasicrystals
202
18
Thermal conductivity
203
18.1
Tensor nature and experiments
203
18.2
Structure-property relationships
206
18.3
Temperature dependence
208
18.4
Field dependence
210
19
Diffusion and ionic conductivity
211
19.1
Definition and tensor formulation
211
19.2
Structure-property relationships
212
19.3
Ionic conductivity
217
19.4
Superionic conductors
219
19.5
Cross-coupled diffusion
220
20
Galvanomagnetic and thermomagnetic
phenomena
223
20.1
Galvanomagnetic effects
224
20.2
Hall Effect and magnetoresistance
226
20.3
Underlying physics
227
20.4
Galvanomagnetic effects in magnetic materials
229
20.5
Thermomagnetic effects
232
21
Thermoelectricity
234
21.1
Seebeck Effect
234
21.2
Peltier Effect
235
21.3
Thomson Effect
235
21.4
Kelvin Relations and absolute thermopower
236
21.5
Practical thermoelectric materials
238
21.6
Tensor relationships
239
21.7
Magnetic field dependence
240
22
Piezoresistance
243
22.1
Tensor description
243
22.2
Matrix form
244
22.3
Longitudinal and transverse gages
245
22.4
Structure-property relations
247
23
Acoustic waves I
249
23.1
The
Christoffel
Equation
249
23.2
Acoustic waves in hexagonal crystals
252
23.3
Matrix representation
255
Contents xi
23.4 Isotropie
solids and pure mode directions
256
23.5
Phase velocity and group velocity
258
24
Acoustic waves II
261
24.1
Acoustic impedance
261
24.2
Ultrasonic attenuation
262
24.3
Physical origins of attenuation
264
24.4
Surface acoustic waves
265
24.5
Elastic waves in piezoelectric media
266
24.6
Nonlinear acoustics
270
25
Crystal optics
274
25.1
Electromagnetic waves
274
25.2
Optical indicatrix and refractive index
measurements
276
25.3
Wave normals and ray directions
278
25.4
Structure-property relationships
280
25.5
Birefringence and crystal structure
282
26
Dispersion and absorption
286
26.1
Dispersion
286
26.2
Absorption, color, and dichroism
288
26.3
Reflectivity and luster
291
26.4
Thermo-optic effect
292
27
Photoelasticity and acousto-optics
294
27.1
Basic concepts
294
27.2
Photoelasticity
295
27.3
Static photoelastic measurements
296
27.4
Acousto-optics
298
27.5 Anisotropie
media
300
27.6
Material issues
300
28
Electro-optic phenomena
302
28.1
Linear electro-optic effect
303
28.2
Pockels Effect in KDP and ADP
304
28.3
Linear electro-optic coefficients
308
28.4
Quadratic electro-optic effect
309
29
Nonlinear optics
313
29.1
Structure-property relations
ЗІЗ
29.2
Tensor formulation and frequency conversion
315
29.3
Second harmonic generation
316
29.4
Phase matching
318
29.5
Third harmonic generation
322
30
Optical activity and enantiomorphism
325
30.1
Molecular origins
325
xii Contents
30.2 Tensor
description
327
30.3
Effect
of symmetry
329
30.4
Relationship to enantiomorphism
331
30.5
Liquids and liquid crystals
333
30.6
Dispersion and circular dichroism
337
30.7
Electrogyration, piezogyration, and
thermogyration
340
31
Magneto-optics
342
31.1
The Faraday Effect
342
31.2
Tensor nature
343
31.3
Faraday Effect in microwave magnetics
345
31.4
Magneto-optic recording media
346
31.5
Magnetic circular dichroism
348
31.6
Nonlinear magneto-optic effects
350
31.7
Magnetoelectric optical phenomena
351
32
Chemical anisotropy
354
32.1
Crystal morphology
354
32.2
Growth velocity
356
32.3
Crystal growth and crystal structure
358
32.4
Surface structures and surface transformations
360
32.5
Etch figures and symmetry relations
361
32.6
Micromachining of quartz and silicon
363
32.7
Tensor description
366
Further Reading
369
Index
375
|
| adam_txt |
Contents
1
Introduction
1
1.1
Outline
1
1.2
Structure-property relationships
3
1.3
Symmetry of physical properties
4
1.4
Atomistic arguments: Density
5
2
Transformations
9
2.1
Why transformations?
9
2.2
Axis transformations
9
2.3
Orthogonality conditions
10
2.4
General rotation (Eulerian angles)
12
3
Symmetry
14
3.1
Symmetry operations
14
3.2
Symmetry elements and stereographic projections
15
3.3
Point groups and their
stereograms
17
3.4
Crystallographic nomenclature
20
3.5
Point group populations
20
4
Transformation operators for symmetry elements
23
4.1
Transformation operators for the crystallographic
symmetry elements
23
4.2
Transformation operations for the thirty-two crystal
classes
25
4.3
Standard settings
26
4.4
Curie group symmetries
26
5
Tensors and physical properties
30
5.1
Physical properties
30
5.2
Polar tensors and tensor properties
31
5.3
Axial tensor properties
32
5.4
Geometric representations
33
5.5
Neumann's Principle
34
5.6
Analytical form of Neumann's Principle
34
6
Thermodynamic relationships
37
6.1
Linear systems
37
6.2
Coupled interactions: Maxwell relations
38
6.3
Measurement conditions
40
viii Contents
7
Specific
heat and entropy
43
7.1
Heat capacity of solids
43
7.2
Lattice vibrations
46
7.3
Entropy and the magnetocaloric effect
48
8
Pyroelectricity
50
8.1
Pyroelectnc and electrocaloric tensors
50
8.2
Symmetry limitations
50
8.3
Polar axes
52
8.4
Geometric representation
53
8.5
Pyroelectric measurements
54
8.6
Primary and secondary pyroelectric effects
54
8.7
Pyroelectric materials
55
8.8
Temperature dependence
55
8.9
Applications
57
9
Dielectric constant
58
9.1
Origins of the dielectric constant
58
9.2
Dielectric tensor
60
9.3
Effect of symmetry
62
9.4
Experimental methods
63
9.5
Geometric representation
67
9.6
Polycrystalline dielectrics
69
9.7
Structure-property relationships
69
10
Stress and strain
72
10.1
Mechanical stress
72
10.2
Stress transformations
74
10.3
Strain tensor
75
10.4
Matrix transformation for strain
77
11
Thermal expansion
79
11.1
Effect of symmetry
79
11.2
Thermal expansion measurements
81
11.3
Structure-property relations
82
11.4
Temperature dependence
85
12
Piezoelectricity
87
12.1
Tensor and matrix formulations
87
12.2
Matrix transformations and Neumann's Law
89
12.3
Piezoelectric symmetry groups
91
12.4
Experimental techniques
93
12.5
Structure-property relations
94
12.6
Hydrostatic piezoelectric effect
97
12.7
Piezoelectric ceramics
99
12.8
Practical piezoelectrics: Quartz crystals
100
13
Elasticity
103
13.1
Tensor and matrix coefficients
103
Contents ix
13.2
Tensor and matrix transformations
13.3
Stiffness-compliance relations
13.4
Effect of symmetry
13.5
Engineering coefficients and measurement
methods
13.6
Anisotropy and structure-property relations
13.7
Compressibility
13.8
Polycrystalline averages
13.9
Temperature coefficients
13.10
Quartz crystal resonators
Magnetic
phenomena
14.1
Basic ideas and units
14.2
Magnetic structures and time reversal
14.3
Magnetic point groups
14.4
Magnetic axial vectors
14.5
Saturation magnetization and pyromagnetism
14.6
Magnetic susceptibility and permeability
14.7
Diamagnetic and paramagnetic crystals
14.8
Susceptibility measurements
14.9
Magnetoelectricity
14.10
Piezomagnetism
14.11
Summary
105
106
107
109
110
113
114
116
118
14
Magnetic phenomena
122
122
124
125
130
131
134
135
137
138
142
146
15
Nonlinear phenomena
147
15.1
Nonlinear dielectric properties
147
15.2
Nonlinear elastic properties
148
15.3
Electrostriction
151
15.4
Magnetostriction
153
15.5
Modeling magnetostriction
154
15.6
Magnetostrictive
actuators
159
15.7
Electromagnetostriction and
pseudopiezoelectricity
160
16
Ferroic crystals
162
16.1
Free energy formulation
162
16.2
Ferroelasticity
165
16.3
Ferromagnetism
168
16.4
Magnetic anisotropy
170
16.5
Ferroelectricity
174
16.6
Secondary ferroics: Ferrobielectricity and
ferrobimagnetism
177
16.7
Secondary ferroics: Ferrobielasticity and
ferroelastoelectricity
179
16.8
Secondary ferroics: Ferromagnetoelectrics and
ferromagnetoelastics
182
16.9
Order parameters
183
17
Electrical resistivity
188
17.1
Tensor and matrix relations
188
χ
Contents
17.2
Resistivity measurements
189
17.3
Electrode metals
191
17.4 Anisotropie
conductors
193
17.5
Semiconductors and insulators
194
17.6
Band gap and mobility
196
17.7
Nonlinear behavior:
Varistors
and thermistors
199
17.8
Quasicrystals
202
18
Thermal conductivity
203
18.1
Tensor nature and experiments
203
18.2
Structure-property relationships
206
18.3
Temperature dependence
208
18.4
Field dependence
210
19
Diffusion and ionic conductivity
211
19.1
Definition and tensor formulation
211
19.2
Structure-property relationships
212
19.3
Ionic conductivity
217
19.4
Superionic conductors
219
19.5
Cross-coupled diffusion
220
20
Galvanomagnetic and thermomagnetic
phenomena
223
20.1
Galvanomagnetic effects
224
20.2
Hall Effect and magnetoresistance
226
20.3
Underlying physics
227
20.4
Galvanomagnetic effects in magnetic materials
229
20.5
Thermomagnetic effects
232
21
Thermoelectricity
234
21.1
Seebeck Effect
234
21.2
Peltier Effect
235
21.3
Thomson Effect
235
21.4
Kelvin Relations and absolute thermopower
236
21.5
Practical thermoelectric materials
238
21.6
Tensor relationships
239
21.7
Magnetic field dependence
240
22
Piezoresistance
243
22.1
Tensor description
243
22.2
Matrix form
244
22.3
Longitudinal and transverse gages
245
22.4
Structure-property relations
247
23
Acoustic waves I
249
23.1
The
Christoffel
Equation
249
23.2
Acoustic waves in hexagonal crystals
252
23.3
Matrix representation
255
Contents xi
23.4 Isotropie
solids and pure mode directions
256
23.5
Phase velocity and group velocity
258
24
Acoustic waves II
261
24.1
Acoustic impedance
261
24.2
Ultrasonic attenuation
262
24.3
Physical origins of attenuation
264
24.4
Surface acoustic waves
265
24.5
Elastic waves in piezoelectric media
266
24.6
Nonlinear acoustics
270
25
Crystal optics
274
25.1
Electromagnetic waves
274
25.2
Optical indicatrix and refractive index
measurements
276
25.3
Wave normals and ray directions
278
25.4
Structure-property relationships
280
25.5
Birefringence and crystal structure
282
26
Dispersion and absorption
286
26.1
Dispersion
286
26.2
Absorption, color, and dichroism
288
26.3
Reflectivity and luster
291
26.4
Thermo-optic effect
292
27
Photoelasticity and acousto-optics
294
27.1
Basic concepts
294
27.2
Photoelasticity
295
27.3
Static photoelastic measurements
296
27.4
Acousto-optics
298
27.5 Anisotropie
media
300
27.6
Material issues
300
28
Electro-optic phenomena
302
28.1
Linear electro-optic effect
303
28.2
Pockels Effect in KDP and ADP
304
28.3
Linear electro-optic coefficients
308
28.4
Quadratic electro-optic effect
309
29
Nonlinear optics
313
29.1
Structure-property relations
ЗІЗ
29.2
Tensor formulation and frequency conversion
315
29.3
Second harmonic generation
316
29.4
Phase matching
318
29.5
Third harmonic generation
322
30
Optical activity and enantiomorphism
325
30.1
Molecular origins
325
xii Contents
30.2 Tensor
description
327
30.3
Effect
of symmetry
329
30.4
Relationship to enantiomorphism
331
30.5
Liquids and liquid crystals
333
30.6
Dispersion and circular dichroism
337
30.7
Electrogyration, piezogyration, and
thermogyration
340
31
Magneto-optics
342
31.1
The Faraday Effect
342
31.2
Tensor nature
343
31.3
Faraday Effect in microwave magnetics
345
31.4
Magneto-optic recording media
346
31.5
Magnetic circular dichroism
348
31.6
Nonlinear magneto-optic effects
350
31.7
Magnetoelectric optical phenomena
351
32
Chemical anisotropy
354
32.1
Crystal morphology
354
32.2
Growth velocity
356
32.3
Crystal growth and crystal structure
358
32.4
Surface structures and surface transformations
360
32.5
Etch figures and symmetry relations
361
32.6
Micromachining of quartz and silicon
363
32.7
Tensor description
366
Further Reading
369
Index
375 |
| any_adam_object | 1 |
| any_adam_object_boolean | 1 |
| author | Newnham, Robert E. |
| author_facet | Newnham, Robert E. |
| author_role | aut |
| author_sort | Newnham, Robert E. |
| author_variant | r e n re ren |
| building | Verbundindex |
| bvnumber | BV035105666 |
| classification_rvk | UQ 4000 UQ 8000 ZM 3000 |
| classification_tum | WER 029f PHY 620f CHE 194f |
| ctrlnum | (OCoLC)441862987 (DE-599)BVBBV035105666 |
| dewey-full | 620.1'12 |
| dewey-hundreds | 600 - Technology (Applied sciences) |
| dewey-ones | 620 - Engineering and allied operations |
| dewey-raw | 620.1'12 |
| dewey-search | 620.1'12 |
| dewey-sort | 3620.1 212 |
| dewey-tens | 620 - Engineering and allied operations |
| discipline | Physik Werkstoffwissenschaften Chemie Werkstoffwissenschaften / Fertigungstechnik |
| discipline_str_mv | Physik Werkstoffwissenschaften Chemie Werkstoffwissenschaften / Fertigungstechnik |
| edition | reprint. |
| format | Book |
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| id | DE-604.BV035105666 |
| illustrated | Illustrated |
| index_date | 2024-07-02T22:15:49Z |
| indexdate | 2024-07-09T21:22:25Z |
| institution | BVB |
| isbn | 9780198520757 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-016773581 |
| oclc_num | 441862987 |
| open_access_boolean | |
| owner | DE-29T |
| owner_facet | DE-29T |
| physical | XII, 378 S. Ill., graph. Darst. |
| publishDate | 2007 |
| publishDateSearch | 2007 |
| publishDateSort | 2007 |
| publisher | Oxford Univ. Press |
| record_format | marc |
| spelling | Newnham, Robert E. Verfasser aut Properties of materials anisotropy, symmetry, structure Robert E. Newnham reprint. Oxford [u.a.] Oxford Univ. Press 2007 XII, 378 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Anisotropy Crystallography Materials Tensor (DE-588)4184723-4 gnd rswk-swf Anisotroper Stoff (DE-588)4280461-9 gnd rswk-swf Textur (DE-588)4059665-5 gnd rswk-swf Kristalliner Festkörper (DE-588)4165761-5 gnd rswk-swf Polykristall (DE-588)4188261-1 gnd rswk-swf Stoffeigenschaft (DE-588)4192147-1 gnd rswk-swf Anisotroper Stoff (DE-588)4280461-9 s Tensor (DE-588)4184723-4 s DE-604 Kristalliner Festkörper (DE-588)4165761-5 s Stoffeigenschaft (DE-588)4192147-1 s Polykristall (DE-588)4188261-1 s Textur (DE-588)4059665-5 s Digitalisierung UB Regensburg application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016773581&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Newnham, Robert E. Properties of materials anisotropy, symmetry, structure Anisotropy Crystallography Materials Tensor (DE-588)4184723-4 gnd Anisotroper Stoff (DE-588)4280461-9 gnd Textur (DE-588)4059665-5 gnd Kristalliner Festkörper (DE-588)4165761-5 gnd Polykristall (DE-588)4188261-1 gnd Stoffeigenschaft (DE-588)4192147-1 gnd |
| subject_GND | (DE-588)4184723-4 (DE-588)4280461-9 (DE-588)4059665-5 (DE-588)4165761-5 (DE-588)4188261-1 (DE-588)4192147-1 |
| title | Properties of materials anisotropy, symmetry, structure |
| title_auth | Properties of materials anisotropy, symmetry, structure |
| title_exact_search | Properties of materials anisotropy, symmetry, structure |
| title_exact_search_txtP | Properties of materials anisotropy, symmetry, structure |
| title_full | Properties of materials anisotropy, symmetry, structure Robert E. Newnham |
| title_fullStr | Properties of materials anisotropy, symmetry, structure Robert E. Newnham |
| title_full_unstemmed | Properties of materials anisotropy, symmetry, structure Robert E. Newnham |
| title_short | Properties of materials |
| title_sort | properties of materials anisotropy symmetry structure |
| title_sub | anisotropy, symmetry, structure |
| topic | Anisotropy Crystallography Materials Tensor (DE-588)4184723-4 gnd Anisotroper Stoff (DE-588)4280461-9 gnd Textur (DE-588)4059665-5 gnd Kristalliner Festkörper (DE-588)4165761-5 gnd Polykristall (DE-588)4188261-1 gnd Stoffeigenschaft (DE-588)4192147-1 gnd |
| topic_facet | Anisotropy Crystallography Materials Tensor Anisotroper Stoff Textur Kristalliner Festkörper Polykristall Stoffeigenschaft |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016773581&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT newnhamroberte propertiesofmaterialsanisotropysymmetrystructure |