Digital photoelasticity: advanced techniques and applications
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Berlin [u.a.]
Springer
2000
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| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | Literaturangaben |
| Beschreibung: | XX, 410 S. Ill., graph. Darst. : 25 cm CD-ROM (12 cm) |
| ISBN: | 3540667954 |
Internformat
MARC
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| 100 | 1 | |a Ramesh, K. |d 1960- |e Verfasser |0 (DE-588)121682811 |4 aut | |
| 245 | 1 | 0 | |a Digital photoelasticity |b advanced techniques and applications |c K. Ramesh |
| 264 | 1 | |a Berlin [u.a.] |b Springer |c 2000 | |
| 300 | |a XX, 410 S. |b Ill., graph. Darst. : 25 cm |e CD-ROM (12 cm) | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 500 | |a Literaturangaben | ||
| 650 | 7 | |a Photoélasticité |2 ram | |
| 650 | 7 | |a Traitement d'images - Techniques numériques |2 ram | |
| 650 | 4 | |a Image processing |x Digital techniques | |
| 650 | 4 | |a Photoelasticity | |
| 650 | 0 | 7 | |a Bildverarbeitung |0 (DE-588)4006684-8 |2 gnd |9 rswk-swf |
| 650 | 0 | 7 | |a Photoelastizität |0 (DE-588)4045883-0 |2 gnd |9 rswk-swf |
| 689 | 0 | 0 | |a Bildverarbeitung |0 (DE-588)4006684-8 |D s |
| 689 | 0 | 1 | |a Photoelastizität |0 (DE-588)4045883-0 |D s |
| 689 | 0 | |5 DE-604 | |
| 856 | 4 | 2 | |m SWB Datenaustausch |q application/pdf |u http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=008864374&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |3 Inhaltsverzeichnis |
| 999 | |a oai:aleph.bib-bvb.de:BVB01-008864374 | ||
Datensatz im Suchindex
| _version_ | 1804127707821244416 |
|---|---|
| adam_text | CONTENTS 1 TRANSMISSION PHOTOELASTICITY 1 1.1 INTRODUCTION 1 1.2
PHYSICAL PRINCIPLE USED IN PHOTOELASTICITY 1 1.3 NATURE OF LIGHT 2 1.4
POLARIZATION 3 1.5 PASSAGE OF LIGHT THROUGH ISOTROPIC MEDIA 4 1.6
PASSAGE OF LIGHT THROUGH A CRYSTALLINE MEDIUM 5 1.7 LIGHT ELLIPSE . . 6
1.8 RETARDATION PLATES AND WAVE PLATES 8 1.9 STRESS-OPTIC LAW 9 1.10
PLANE POLARISCOPE 10 1.10.1 ANALYSIS BY TRIGONOMETRIC RESOLUTION 13 1.11
JONES CALCULUS 14 1.11.1 ROTATION MATRIX 14 1.11.2 RETARDATION MATRIX 15
1.11.3 REPRESENTATION OF A RETARDER 16 1.11.4 POLARIZER 17 1.11.5
QUARTER-WAVE PLATE 17 1.12 ANALYSIS OF PLANE POLARISCOPE BY JONES
CALCULUS 17 1.13 CIRCULAR POLARISCOPE 18 1.14 USE OF WHITE LIGHT 20 1.15
DETERMINATION OF ISOCLINIC AND ISOCHROMATIC FRINGE ORDER AT A POINT 21
1.15.1 ORDERING OF ISOCLINICS 21 1.15.2 ORDERING OF ISOCHROMATICS 22
1.16 TARDY S METHOD OF COMPENSATION 22 1.17 CALIBRATION OF PHOTOELASTIC
MODEL MATERIALS 24 1.17.1 STRESS FIELD IN A CIRCULAR DISC UNDER
DIAMETRAL COMPRESSION 24 1.17.2 CONVENTIONAL METHOD 25 1.17.3 SAMPLED
LINEAR LEAST SQUARES METHOD 26 NEED FOR A BETTER METHODOLOGY 26 USE OF
WHOLE FIELD DATA TO EVALUATE MATERIAL FRINGE VALUE 26 1.17.4 THEORETICAL
RECONSTRUCTION OF FRINGE PATTERNS . . . . 28 1.18 FURTHER COMMENTS ON
FRINGE ORDERING 29 1.18.1 PROPERTIES OF ISOCHROMATIC FRINGE FIELD 30 XII
CONTENTS 1.18.2 PROPERTIES OF ISOCLINIC FRINGE FIELD 31 1.18.3 USE OF
FRINGE FIELD PROPERTIES TO IDENTIFY FRINGE ORDERING 32 1.18.4 ROLE OF
PRINCIPLES OF SOLID MECHANICS IN FRINGE ORDERING 33 1.19 DETERMINATION
OF THE SIGN OF THE BOUNDARY STRESSES . . . . 34 1.20 RESOLVING THE
AMBIGUITY ON THE PRINCIPAL STRESS DIRECTION . . 34 1.21 INTRODUCTION TO
THREE-DIMENSIONAL PHOTOELASTICITY AND INTEGRATED PHOTOELASTICITY 35
1.21.1 CONVENTIONAL THREE-DIMENSIONAL PHOTOELASTICITY . . . 36 1.21.2
PRINCIPLE OF OPTICAL EQUIVALENCE 37 1.22 MODEL TO PROTOTYPE RELATIONS 39
1.23 CLOSURE 42 EXERCISES 42 REFERENCES 46 2 REFLECTION PHOTOELASTICITY
47 2.1 INTRODUCTION 47 2.2 REFLECTION POLARISCOPE 48 2.3 STRESS AND
STRAIN-OPTIC RELATIONS FOR COATINGS 49 2.4 COATING AND SPECIMEN STRESSES
50 2.5 CORRECTION FACTORS FOR PHOTOELASTIC COATINGS 52 2.6 POISSON S
RATIO MISMATCH 56 2.7 COATING MATERIALS 57 2.8 BONDING THE COATING 59
2.9 SELECTION OF THE COATING THICKNESS 60 2.10 CALIBRATION OF THE
COATING MATERIAL 62 2.11 DATA COLLECTION AND ANALYSIS 64 2.12
APPLICATION OF PHOTOELASTIC COATINGS 65 2.13 CLOSURE 65 EXERCISES 65
REFERENCES 66 3 DIGITAL IMAGE PROCESSING 67 3.1 INTRODUCTION 67 3.2
IMAGE SAMPLING AND QUANTIZATION 67 3.2.1 PICTURES AS FUNCTIONS 67 3.2.2
UNIFORM SAMPLING AND QUANTIZATION 68 3.3 VIDEO STANDARDS 69 3.4 IMAGE
SENSORS 71 3.5 IMAGE DISPLAY 72 3.6 IMAGE PERCEPTION * 73 3.7 IMAGE
STORAGE 74 CONTENTS XIII 3.8 SOME BASIC RELATIONSHIPS AND MATHEMATICAL
OPERATIONS BETWEEN PIXELS 74 3.8.1 NEIGHBOURS OF A PIXEL 74 3.8.2
ARITHMETIC AND LOGIC OPERATIONS 75 3.8.3 NEIGHBOURHOOD ORIENTED
OPERATIONS 75 3.9 BASIC STEPS IN IMAGE PROCESSING . . . . 77 3.10
TYPICAL IMAGE PROCESSING SYSTEMS FOR DIGITAL PHOTOELASTICITY 77 3.11
SOFTWARE STRUCTURE AND DESIGN 79 3.12 IMAGE ACQUISITION 80 3.13 TOOLS
FOR IMAGE UNDERSTANDING 82 3.13.1 PSEUDO COLOURING 82 3.13.2 HISTOGRAM
83 3.13.3 TWO-DIMENSIONAL AND THREE-DIMENSIONAL INTENSITY PLOTS 84 3.14
FILTERING IN SPATIAL DOMAIN 86 3.14.1 LOW PASS SPATIAL FILTERING 88
3.14.2 MEDIAN FILTERING 88 3.15 IMAGE ENHANCEMENT 88 3.15.1 CONTRAST
STRETCHING 89 3.15.2 HISTOGRAM EQUALISATION 90 3.16 IMAGE SEGMENTATION
91 3.16.1 THRESHOLDING 91 GLOBAL THRESHOLDING 92 SEMI THRESHOLDING 92
DYNAMIC THRESHOLDING 92 3.16.2 EDGE DETECTION 94 EDGE DETECTION BY
CONVOLUTION FILTERS 94 EDGE DETECTION BY NON-CONVOLUTION FILTERS 95 EDGE
DETECTION BY THRESHOLDING 96 3.17 MORPHOLOGICAL FILTERS 98 3.18 FURTHER
DISCUSSIONS ON IMAGE SENSORS 98 3.18.1 OPERATION OF CCD ARRAYS 98 3.18.2
INTERLINE TRANSFER CCD 100 3.18.3 LINEARITY AND DYNAMIC RANGE 101 3.18.4
SOURCES OF NOISE 102 3.19 DIGITISATION OF THE CAMERA VIDEO SIGNAL 103
3.20 RESOLUTION OF AN IMAGE PROCESSING SYSTEM 103 3.21 GAMMA
COMPENSATION 104 EXERCISES 104 REFERENCES 105 4 FRINGE MULTIPLICATION,
FRINGE THINNING AND FRINGE CLUSTERING 107 4.1 INTRODUCTION 107 4.2
FRINGE MULTIPLICATION 108 XIV CONTENTS 4.3 HALF FRINGE PHOTOELASTICITY
(HFP) 110 4.4 DIP METHODS FOR FRINGE THINNING ILL 4.5 ALGORITHMS BASED
ON CONSIDERING THE FRINGE PATTERNS AS A BINARY IMAGE 112 4.6 MASK-BASED
ALGORITHMS FOR SKELETON EXTRACTION USING INTENSITY VARIATION WITHIN A
FRINGE 113 4.7 GLOBAL IDENTIFICATION OF FRINGE SKELETONS BASED ON
INTENSITY VARIATION 115 4.7.1 EDGE DETECTION 115 4.7.2 FRINGE
SKELETONIZATION 116 ROW-WISE SCANNING ALGORITHM 116 ALGORITHM FOR FRINGE
SKELETON EXTRACTION FOR ARBITRARILY SHAPED FRINGES 117 4.7.3
APPLICATIONS OF THE ALGORITHM TO ACTUAL EXPERIMENTAL CONDITIONS 120 4.8
FURTHER IMPROVEMENTS ON THE GLOBAL THINNING ALGORITHM . . 123 4.9
PERFORMANCE EVALUATION OF VARIOUS FRINGE THINNING ALGORITHMS 126 4.9.1
COMPARISON OF THE SKELETON EXTRACTION 127 COMPUTER GENERATED TEST IMAGES
127 IMAGES RECORDED FROM ACTUAL EXPERIMENTAL SITUATIONS . 129 4.9.2
COMPARISON OF THE COMPUTATIONAL EFFORT 131 4.10 USE OF TILING TO IMPROVE
INFORMATION IN STRESS CONCENTRATION ZONES 131 4.11 FRINGE TRACING
ALGORITHM 133 4.12 ORDERING OF FRINGES 135 4.13 CLOSURE 136 EXERCISES
137 REFERENCES 138 5 PHASE SHIFTING, POLARIZATION STEPPING AND FOURIER
TRANSFORM METHODS - 141 5.1 INTRODUCTION 141 5.2 EARLY ATTEMPTS FOR
AUTOMATED POLARISCOPES 142 5.3 PHASE SHIFTING IN PHOTOELASTICITY 144 5.4
INTENSITY OF LIGHT TRANSMITTED FOR A GENERIC ARRANGEMENT OF A PLANE
POLARISCOPE 146 5.5 INTENSITY OF LIGHT TRANSMITTED FOR A GENERIC
ARRANGEMENT OF A CIRCULAR POLARISCOPE 149 5.6 EVALUATION OF FRACTIONAL
FRINGE ORDER ALONG AN ISOCLINIC CONTOUR 152 5.7 WHOLE FIELD EVALUATION
OF PHOTOELASTIC DATA BY USING A PLANE POLARISCOPE 153 5.8 WHOLE FIELD
EVALUATION OF PHOTOELASTIC DATA BY USING A CIRCULAR POLARISCOPE 155
CONTENTS XV 5.8.1 THE GENERIC PROCEDURE 155 5.8.2 CALCULATION AND
REPRESENTATION OF WHOLE FIELD DATA . 159 5.8.3 PARAMETERS AFFECTING THE
GENERATION OF PHASE MAP AND ITS SOLUTION 162 INFLUENCE OF LOCAL
OSCILLATIONS OF ISOCLINIC PARAMETER ON FRACTIONAL RETARDATION
CALCULATION 162 IMPORTANCE OF ISOCLINIC PARAMETER REPRESENTING EITHER A
X OR 2 DIRECTION OVER THE DOMAIN 163 AMBIGUITY IN EXPERIMENTALLY
EVALUATING THE ISOCLINIC PARAMETER 167 INTERACTIVE APPROACH TO OBTAIN A
GOOD PHASE MAP . . . 169 5.9 ERROR SOURCES AND METHODS TO MINIMISE THEIR
INFLUENCE . . * 172 5.9.1 INFLUENCE OF ERROR IN MEASURING INTENSITIES
174 5.9.2 ERRORS DUE TO MISMATCH OF QUARTER-WAVE PLATES . . . 177 5.10
EVALUATION OF ISOCLINIC VALUE BY PHASE SHIFTING TECHNIQUE - 181 5.10.1
USE OF TWO LOADS TO GET CONTINUOUS ISOCLINIC CONTOURS 181 5.10.2 USE OF
MULTIPLE WAVELENGTHS TO GET CONTINUOUS ISOCLINIC CONTOURS 183 5.11
POLARIZATION STEPPING FOR ISOCLINIC DETERMINATION 185 5.12 FOURIER
TRANSFORM METHODS FOR PHOTOELASTIC DATA ACQUISITION 188 5.12.1 USE OF
CARRIER FRINGES 188 5.12.2 USE OF MULTIPLE POLARIZATION STEPPED IMAGES .
. . . 189 5.12.3 USE OF LOAD STEPPING 191 5.13 COMPARATIVE EVALUATION OF
PHASE SHIFTING, POLARIZATION STEPPING AND FOURIER TRANSFORM TECHNIQUES
192 5.14 CLOSURE 193 EXERCISES 193 REFERENCES 194 6 PHASE UNWRAPPING AND
OPTICALLY ENHANCED TILING IN DIGITAL PHOTOEIASTICITY 199 6.1
INTRODUCTION 199 6.2 BOUNDARY DETECTION 200 6.3 NOISE REMOVAL IN PHASE
MAPS 201 6.4 ALGORITHM FOR PHASE UNWRAPPING 202 6.5 REPRESENTATION OF
THE UNWRAPPED PHASE 205 6.5.1 THREE-DIMENSIONAL PLOTS 205 6.5.2 TOTAL
FRINGE ORDER VIEWING ON THE IMAGE 206 6.6 PARAMETERS AFFECTING PHASE
UNWRAPPING 207 6.6.1 INFLUENCE OF THE SELECTION OF THE PHASE UNWRAPPING
THRESHOLD 207 6.6.2 INFLUENCE OF THE LOCATION OF THE PRIMARY SEED POINT.
. 209 6.7 USE OF TILING PROCEDURE FOR PHASE UNWRAPPING 210 XVI CONTENTS
6.8 DIGITAL MAGNIFICATION OF HIGH FRINGE DENSITY ZONES . . . . 211 6.8.1
REPLICATION 211 6.8.2 LINEAR INTERPOLATION 212 6.8.3 HIGHER ORDER
INTERPOLATION 212 6.9 OPTICALLY ENHANCED TILING (OET) 212 6.10 CEMENTING
OF A TILE 213 6.11 OET APPLIED TO A CIRCULAR DISC UNDER DIAMETRAL
COMPRESSION 215 6.12 OET APPLIED TO A RING UNDER DIAMETRAL COMPRESSION.
. . . 217 6.13 CLOSURE 219 EXERCISES 220 REFERENCES 220 7 COLOUR IMAGE
PROCESSING TECHNIQUES 221 7.1 INTRODUCTION 221 7.2 COLOUR MODELS 223
7.2.1 RGB MODEL 224 7.2.2 HSI MODEL 225 7.3 COLOUR IMAGE PROCESSING
SYSTEMS 226 7.3.1 HARDWARE 226 TRANSMISSION PHOTOELASTICITY 227
REFLECTION PHOTOELASTICITY 227 7.3.2 SOFTWARE 228 7.4 TYPICAL SPECTRAL
RESPONSE OF A COLOUR CAMERA 228 7.5 INTENSITY OF LIGHT TRANSMITTED IN
WHITE LIGHT FOR VARIOUS POLARISCOPE ARRANGEMENTS 230 7.6 THREE FRINGE
PHOTOELASTICITY (TFP) 234 7.6.1 CALIBRATION 235 7.6.2 METHODOLOGY 240
7.6.3 APPLICATION TO THE PROBLEM OF A CIRCULAR DISC UNDER DIAMETRAL
COMPRESSION 240 7.7 GREEN IMAGE PLANE AS A GREEN FILTER 243 7.8 PHASE
SHIFTING IN COLOUR DOMAIN 244 7.8.1 TRANSMISSION PHOTOELASTICITY 244
7.8.2 REFLECTION PHOTOELASTICITY 246 7.9 SPECTRAL CONTENT ANALYSIS (SCA)
249 7.10 DIGITAL SPECTRAL CONTENT ANALYSIS (DSCA) 252 7.11 HYBRID
TECHNIQUES 252 7.11.1 POLARIZATION STEPPING IN COLOUR DOMAIN 253 7.12
TRICOLOUR PHOTOELASTIC METHOD 254 7.13 CLOSURE 258 EXERCISES 261
REFERENCES 261 CONTENTS XVII 8 EVALUATION OF CONTACT STRESS PARAMETERS
AND FRACTURE PARAMETERS 265 8.1 INTRODUCTION 265 8.2 BASIC DATA REQUIRED
AND ITS DIGITAL ACQUISITION 266 8.2.1 CONVERSION OF PIXEL CO-ORDINATES
TO MODEL CO-ORDINATES 266 8.2.2 ROTATIONAL TRANSFORMATION 267 8.3
STRESSES IN TERMS OF CONTACT LENGTH AND GEOMETRICAL AND ELASTIC
PROPERTIES OF THE BODIES IN CONTACT 268 8.4 EVALUATION OF CONTACT STRESS
PARAMETERS BY LEAST SQUARES ANALYSIS 270 8.4.1 VALIDATION FOR HERTZIAN
AND NON-HERTZIAN CONTACT . . 272 8.5 DEVELOPMENTS IN THE DESCRIPTION OF
THE STRESS FIELD EQUATIONS IN THE NEIGHBOURHOOD OF A CRACK-TIP 273 8.5.1
MODE-I STRESS FIELD EQUATIONS 273 8.5.2 MIXED-MODE (COMBINATION OF
MODE-I AND MODE-II) STRESS FIELD EQUATIONS 276 8.5.3 EQUIVALENCE BETWEEN
THE MULTI-PARAMETER STRESS FIELD EQUATIONS 278 8.6 DEVELOPMENTS IN SIF
EVALUATION METHODOLOGY 278 8.7 EVALUATION OF MIXED-MODE STRESS FIELD
PARAMETERS USING LEAST SQUARES TECHNIQUE 281 8.8 EXPERIMENTAL VALIDATION
OF THE METHODOLOGY 284 8.8.1 MODE-I LOADING 284 8.8.2 MIXED-MODE LOADING
288 8.9 CONTACT STRESS AND FRACTURE ANALYSIS OF A SPUR GEAR . . . . 290
8.9.1 LOADING FRAME DESIGN 290 8.9.2 EVALUATION OF CONTACT PARAMETERS
292 MEASUREMENT OF RADIUS OF CURVATURE AT THE POINT OF CONTACT 292
EXPERIMENTAL RESULTS 293 8.9.3 EVALUATION OF FRACTURE PARAMETERS 294
8.10 CLOSURE 298 EXERCISES 299 REFERENCES 299 9 STRESS SEPARATION
TECHNIQUES 303 9.1 INTRODUCTION 303 9.2 OBLIQUE INCIDENCE METHOD 304
9.2.1 SECONDARY PRINCIPAL STRESSES 304 9.2.2 THE METHODOLOGY 305 9.3
SHEAR DIFFERENCE TECHNIQUE 307 9.3.1 CONVENTIONAL METHOD 307 9.3.2
IMPROVEMENT BY TESAR 308 XVIII CONTENTS 9.4 SURVEY OF NUMERICAL METHODS
309 9.4.1 INTEGRATION OF COMPATIBILITY CONDITION 309 FINITE DIFFERENCE
APPROACH 309 9.4.2 INTEGRATION OF STRESS DIFFERENCE EQUATIONS 312 9.4.3
LEAST SQUARES METHOD 314 9.4.4 HYBRID TECHNIQUES 316 9.4.5 METHODS USING
ONLY ISOCHROMATIC DATA 317 9.5 STRESS SEPARATION BY COMBINED PHASE
SHIFTING AND FEM . . 318 9.5.1 FINITE ELEMENT FORMULATION 319 9.5.2
MEANINGFUL DISCRETIZATION OF THE DOMAIN 323 9.5.3 PLOTTING OF FRINGE
CONTOURS FROM FE RESULTS . . . . 324 9.5.4 INFLUENCE OF ERROR IN FRINGE
DATA 327 9.5.5 APPLICATION OF THE TECHNIQUE TO THE PROBLEM OF PLATE WITH
A HOLE 330 9.6 USE OF INTEGRATED PHOTOELASTICITY CONCEPTS FOR STRESS
SEPARATION 332 9.6.1 LEAST SQUARES ALGORITHM 333 9.6.2 DESIGN OF THE
LOADING FRAME 333 9.6.3 APPLICATION TO THE PROBLEM OF DISC UNDER
DIAMETRAL COMPRESSION 334 9.7 STRESS SEPARATION IN THREE-DIMENSIONAL
PHOTOELASTICITY . . . 337 9.8 STRESS SEPARATION IN REFLECTION
PHOTOELASTICITY 342 9.8 CLOSURE 344 EXERCISES 344 REFERENCES 345 10
FUSION OF DIGITAL PHOTOELASTICITY, RAPID PROTOTYPING AND RAPID TOOLING
TECHNOLOGIES 347 10.1 INTRODUCTION 347 10.2 DIFFICULTIES IN CONVENTIONAL
THREE-DIMENSIONAL PHOTOELASTICITY 348 10.3 RAPID PROTOTYPING IN MODEL
MAKING 348 10.3.1 SOFTWARE ISSUES IN RP 349 10.3.2 STEREOLITHOGRAPHY
PROCESS 351 10.3.3 SOLID GROUND CURING 354 10.3.4 FUSED DEPOSITION
MODELLING 355 10.4 DIRECT ANALYSIS OF RP MODELS BY PHOTOELASTIC COATINGS
. . . 356 10.4.1 EXPERIMENTAL RESULTS 357 10.4.2 ANALYSIS OF THE RESULTS
358 EVALUATION OF YOUNG S MODULUS BY TENSILE TEST . . . . 358 STUDY ON
THE SEEPAGE OF THE ADHESIVE 359 NUMERICAL SIMULATION OF FRINGE PATTERNS
359 10.4.3 RECOMMENDATIONS 361 10.5 DIRECT USE OF RP MODELS FOR
TRANSMISSION PHOTOELASTIC ANALYSIS 361 CONTENTS XIX 10.6 RAPID TOOLING
FOR MODEL MAKING 363 10.6.1 BASIC STEPS IN RAPID TOOLING 363 10.6.2
DIGITAL PHOTOELASTIC CHARACTERISATION OF THE PROCESS . . 364 10.7
CLOSURE 365 EXERCISES 366 REFERENCES 366 11 RECENT DEVELOPMENTS AND
FUTURE TRENDS 369 11.1 INTRODUCTION 369 11.2 EVALUATION OF
CHARACTERISTIC PARAMETERS 369 11.2.1 SRINATH AND KESHAVAN S METHOD 370
11.2.2 WHOLE FIELD DETERMINATION OF CHARACTERISTIC PARAMETERS BY PHASE
SHIFTING 371 DEVELOPMENT OF RELEVANT EQUATIONS 371 EXPERIMENTAL
EVALUATION OF CHARACTERISTIC PARAMETERS . 375 WHOLE FIELD THEORETICAL
EVALUATION OF CHARACTERISTIC PARAMETERS * . 375 11.3 TENSORIAL
TOMOGRAPHY 378 11.4 DEVELOPMENTS IN DIP HARDWARE 383 11.5 DEVELOPMENTS
IN DIP SOFTWARE 384 11.5.1 DEVELOPMENT OF A DEVICE INDEPENDENT SOFTWARE
. . . 385 SELECTION OF SOFTWARE FEATURES 385 FRN_DAT SOFTWARE 385 AN
APPLICATION 386 11.5.2 FUTURE POSSIBILITY 387 11.6 DIGITAL DYNAMIC
PHOTOELASTICITY 388 11.6.1 CLASSIFICATION OF HIGH, VERY-HIGH AND
ULTRA-HIGH-SPEED PHOTOGRAPHY 388 11.6.2 CLASSICAL METHODS FOR HIGH-SPEED
PHOTOGRAPHY . . . 388 11.6.3 DIGITAL DYNAMIC RECORDING 391 11.7
APPLICATION TO COMPOSITES 395 11.7.1 PHOTO-ORTHOTROPIC ELASTICITY
THEORIES 396 STRESS-OPTIC LAW 396 STRAIN-OPTIC LAW 397 11.7.2
CALIBRATION OF PHOTO-ORTHOTROPIC COMPOSITES . . . . 398 11.7.3 INFLUENCE
OF RESIDUAL BIREFRINGENCE 399 11.7.4 SEPARATION OF STRESSES IN
PHOTO-ORTHOTROPIC ELASTICITY 400 11.7.5 APPLICATION OF DIGITAL
PHOTOELASTICITY TO COMPOSITES 400 11.8 CLOSURE 401 EXERCISES 401
REFERENCES 401 XX CONTENTS INDEX 405
|
| any_adam_object | 1 |
| author | Ramesh, K. 1960- |
| author_GND | (DE-588)121682811 |
| author_facet | Ramesh, K. 1960- |
| author_role | aut |
| author_sort | Ramesh, K. 1960- |
| author_variant | k r kr |
| building | Verbundindex |
| bvnumber | BV013006090 |
| callnumber-first | T - Technology |
| callnumber-label | TA418 |
| callnumber-raw | TA418.12. |
| callnumber-search | TA418.12. |
| callnumber-sort | TA 3418.12 |
| callnumber-subject | TA - General and Civil Engineering |
| classification_rvk | UF 3300 |
| ctrlnum | (OCoLC)43474791 (DE-599)BVBBV013006090 |
| dewey-full | 620.1/1232 |
| dewey-hundreds | 600 - Technology (Applied sciences) |
| dewey-ones | 620 - Engineering and allied operations |
| dewey-raw | 620.1/1232 |
| dewey-search | 620.1/1232 |
| dewey-sort | 3620.1 41232 |
| dewey-tens | 620 - Engineering and allied operations |
| discipline | Physik |
| format | Book |
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| id | DE-604.BV013006090 |
| illustrated | Illustrated |
| indexdate | 2024-07-09T18:37:38Z |
| institution | BVB |
| isbn | 3540667954 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-008864374 |
| oclc_num | 43474791 |
| open_access_boolean | |
| owner | DE-703 DE-634 |
| owner_facet | DE-703 DE-634 |
| physical | XX, 410 S. Ill., graph. Darst. : 25 cm CD-ROM (12 cm) |
| publishDate | 2000 |
| publishDateSearch | 2000 |
| publishDateSort | 2000 |
| publisher | Springer |
| record_format | marc |
| spelling | Ramesh, K. 1960- Verfasser (DE-588)121682811 aut Digital photoelasticity advanced techniques and applications K. Ramesh Berlin [u.a.] Springer 2000 XX, 410 S. Ill., graph. Darst. : 25 cm CD-ROM (12 cm) txt rdacontent n rdamedia nc rdacarrier Literaturangaben Photoélasticité ram Traitement d'images - Techniques numériques ram Image processing Digital techniques Photoelasticity Bildverarbeitung (DE-588)4006684-8 gnd rswk-swf Photoelastizität (DE-588)4045883-0 gnd rswk-swf Bildverarbeitung (DE-588)4006684-8 s Photoelastizität (DE-588)4045883-0 s DE-604 SWB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=008864374&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Ramesh, K. 1960- Digital photoelasticity advanced techniques and applications Photoélasticité ram Traitement d'images - Techniques numériques ram Image processing Digital techniques Photoelasticity Bildverarbeitung (DE-588)4006684-8 gnd Photoelastizität (DE-588)4045883-0 gnd |
| subject_GND | (DE-588)4006684-8 (DE-588)4045883-0 |
| title | Digital photoelasticity advanced techniques and applications |
| title_auth | Digital photoelasticity advanced techniques and applications |
| title_exact_search | Digital photoelasticity advanced techniques and applications |
| title_full | Digital photoelasticity advanced techniques and applications K. Ramesh |
| title_fullStr | Digital photoelasticity advanced techniques and applications K. Ramesh |
| title_full_unstemmed | Digital photoelasticity advanced techniques and applications K. Ramesh |
| title_short | Digital photoelasticity |
| title_sort | digital photoelasticity advanced techniques and applications |
| title_sub | advanced techniques and applications |
| topic | Photoélasticité ram Traitement d'images - Techniques numériques ram Image processing Digital techniques Photoelasticity Bildverarbeitung (DE-588)4006684-8 gnd Photoelastizität (DE-588)4045883-0 gnd |
| topic_facet | Photoélasticité Traitement d'images - Techniques numériques Image processing Digital techniques Photoelasticity Bildverarbeitung Photoelastizität |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=008864374&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT rameshk digitalphotoelasticityadvancedtechniquesandapplications |