Sound and structural vibration: radiation, transmission and response
Gespeichert in:
| Hauptverfasser: | , |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Amsterdam [u.a.]
Elsevier
2007
|
| Ausgabe: | 2. ed. |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XXX, 633 S. Ill., graph. Darst. |
| ISBN: | 0123736331 9780123736338 |
Internformat
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| 100 | 1 | |a Fahy, Frank J. |e Verfasser |4 aut | |
| 245 | 1 | 0 | |a Sound and structural vibration |b radiation, transmission and response |c Frank Fahy ; Paolo Gardonio |
| 250 | |a 2. ed. | ||
| 264 | 1 | |a Amsterdam [u.a.] |b Elsevier |c 2007 | |
| 300 | |a XXX, 633 S. |b Ill., graph. Darst. | ||
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| 650 | 4 | |a Constructions - Dynamique | |
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Datensatz im Suchindex
| _version_ | 1812981231603679232 |
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| adam_text |
SOUND AND STRUCTURAL VIBRATION RADIATION, TRANSMISSION AND RESPONSE
FRANK FAHY INSTITUTE OF SOUND AND VIBRATION RESEARCH UNIVERSITY OF
SOUTHAMPTON SOUTHAMPTON, UK PAOLO GARDONIO INSTITUTE OF SOUND AND
VIBRATION RESEARCH UNIVERSITY OF SOUTHAMPTON SOUTHAMPTON, UK AMSTERDAM
BOSTON HEIDELBERG LONDON NEW YORK OXFORD PARIS SAN DIEGO SAN FRANCISCO
SINGAPORE SYDNEY TOKYO ELSEVIER ACADEMIC PRESS IN AN IMPRINT OF ELSEVIER
CONTENTS PREFACE TO THE FIRST EDITION PREFACE TO THE SECOND EDITION
ACKNOWLEDGEMENTS XXI LIST OF PERMISSIONS XXIII INTRODUCTION XXV XUI XVII
1. WAVES IN FLUIDS AND SOLID STRUCTURES 1.1 FREQUENCY AND WAVENUMBER 1
1.2 SOUND WAVES IN FLUIDS 8 1.3 LONGITUDINAL WAVES IN SOLIDS 11 1.4
QUASI-LONGITUDINAL WAVES IN SOLIDS 13 1.5 TRANSVERSE (SHEAR) WAVES IN
SOLIDS 14 1.6 BENDING WAVES IN BARS 19 1.7 BENDING WAVES IN THIN PLATES
26 1.8 DISPERSION CURVES 27 1.9 FLEXURAL WAVES IN THIN-WALLED CIRCULAR
CYLINDRICAL SHELLS 30 1.10 NATURAL FREQUENCIES AND MODES OF VIBRATION 38
1.11 FORCED VIBRATION AND RESONANCE 50 VLLL CONTENTS 1.12 MODAL DENSITY
AND MODAL OVERLAP 64 1.13 THE ROLES OF MODAL DENSITY IN VIBROACOUSTICS
69 PROBLEMS 72 2. STRUCTURAL MOBILITY, IMPEDANCE, VIBRATIONAL ENERGY AND
POWER 2.1 MOBILITY AND IMPEDANCE REPRESENTATIONS 75 2.2 CONCEPTS AND
GENERAL FORMS OF MOBILITY AND IMPEDANCE OF LUMPED MECHANICAL ELEMENTS 79
2.3 MOBILITY FUNCTIONS OF UNIFORM BEAMS IN BENDING 84 2.3.1 INFINITE
BEAM 84 2.3.2 FINITE BEAM (CLOSED FORM) 87 2.3.3 FINITE BEAM (MODAL
SUMMATION) 90 2.4 MOBILITY AND IMPEDANCE FUNCTIONS OF THIN UNIFORM FLAT
PLATES 102 2.4.1 INFINITE PLATE 102 2.4.2 FINITE PLATE 106 2.5 RADIAL
DRIVING-POINT MOBILITY OF THIN-WALLED CIRCULAR CYLINDRICAL SHELLS 110
2.6 MOBILITY AND IMPEDANCE MATRIX MODELS 115 2.7 STRUCTURAL POWER 121
2.8 ENERGY DENSITY AND ENERGY FLUX OF VIBRATIONAL WAVES 129 PROBLEMS 134
3. SOUND RADIATION BY VIBRATING STRUCTURES 3.1 THE IMPORTANCE AND
MECHANISM OF SOUND RADIATION BY VIBRATING STRUCTURES 135 3.2 THE SIMPLE
VOLUME SOURCE 138 3.3 SOUND RADIATION BY A PAIR OF ELEMENTARY SURFACE
SOURCES 141 3.4 THE BAFFLED PISTON 143 3.5 SOUND RADIATION BY FLEXURAL
MODES OF PLATES 145 3.6 SOUND RADIATION BY PLATES IN MULTI-MODE FLEXURAL
VIBRATION 159 3.6.1 FORMULATION IN TERMS OF STRUCTURAL MODES 159 3.6.2
FORMULATION IN TERMS OF ELEMENTARY RADIATOR'S 165 3.7 INDEPENDENT
RADIATION MODES 168 3.7.1 FORMULATION IN TERMS OF STRUCTURAL MODES 169
3.7.2 FORMULATION IN TERMS OF ELEMENTARY RADIATORS 170 3.7.3 RADIATION
MODES AND EFFICIENCIES 171 3.7.4 A COMPARISON OF SELF- AND MUTUAL
RADIATION BY PLATE MODES 172 CONTENTS IX 3.8 SOUND RADIATION BY FLEXURAL
WAVES IN PLATES 175 3.9 THE FREQUENCY-AVERAGE RADIATION EFFICIENCY OF
PLATES 185 3.10 SOUND RADIATION DUE TO CONCENTRATED FORCES AND
DISPLACEMENTS 195 3.11 SOUND RADIATION BY NON-UNIFORM PLATE STRUCTURES
204 3.11.1 BEAM-STIFFENED PLATES 204 3.11.2 CORRUGATED PLATES 209 3.11.3
SANDWICH PLATES 210 3.11.4 COMPOSITE SOUND INSULATION PANELS 212 3.12
SOUND RADIATION BY CURVED SHELLS 213 3.13 SOUND RADIATION BY IRREGULARLY
SHAPED VIBRATING BODIES 227 PROBLEMS 240 4. FLUID LOADING OF VIBRATING
STRUCTURES 4.1 PRACTICAL ASPECTS OF FLUID LOADING 243 4.2 PRESSURE
FIELDS ON VIBRATING SURFACES 245 4.3 WAVE IMPEDANCES OF STRUCTURES AND
FLUIDS 256 4.4 FLUID LOADING OF VIBRATING PLATES 261 4.5 NATURAL
FREQUENCIES OF FLUID-LOADED PLATES 267 4.6 EFFECTS OF FLUID LOADING ON
SOUND RADIATION FROM POINT-EXCITED PLATES 268 4.7 NATURAL FREQUENCIES OF
FLUID-LOADED, THIN-WALLED, CIRCULAR CYLINDRICAL SHELLS 270 4.8 EFFECTS
OF FLUID LOADING ON SOUND RADIATION BY THIN-WALLED, CIRCULAR CYLINDRICAL
SHELLS 270 4.9 DAMPING OF THIN PLATES BY POROUS SHEETS 275 PROBLEMS 275
5. TRANSMISSION OF SOUND THROUGH PARTITIONS 5.1 PRACTICAL ASPECTS OF
SOUND TRANSMISSION THROUGH PARTITIONS 277 5.2 TRANSMISSION OF NORMALLY
INCIDENT PLANE WAVES THROUGH AN UNBOUNDED PARTITION 278 5.3 TRANSMISSION
OF OBLIQUELY INCIDENT PLANE WAVES THROUGH AN UNBOUNDED FLEXIBLE
PARTITION 284 5.4 TRANSMISSION OF DIFFUSE SOUND THROUGH A BOUNDED
PARTITION IN A BAFFLE 296 5.5 TRANSMISSION OF SOUND THROUGH A PARTITION
BETWEEN TWO ROOMS 299 5.6 DOUBLE-LEAF PARTITIONS 303 CONTENTS 5.7
TRANSMISSION OF NORMALLY INCIDENT PLANE WAVES THROUGH AN UNBOUNDED
DOUBLE-LEAF PARTITION 304 5.8 THE THEORETICAL EFFECT OF CAVITY SOUND
ABSORPTION ON NORMAL INCIDENCE TRANSMISSION LOSS 310 5.9 TRANSMISSION OF
OBLIQUELY INCIDENT PLANE WAVES THROUGH AN UNBOUNDED DOUBLE-LEAF
PARTITION 314 5.10 MECHANICAL STIFFENING AND COUPLING OF DOUBLE
PARTITION LEAVES 323 5.11 CLOSE-FITTING ENCLOSURES 330 5.12 TRANSMISSION
OF SOUND THROUGH STIFFENED, COMPOSITE, MULTILAYER AND NON-UNIFORM PANELS
337 5.13 TRANSMISSION OF SOUND THROUGH CIRCULAR CYLINDRICAL SHELLS 352
5.14 COUPLING BETWEEN SHELL MODES AND ACOUSTIC MODES OF A CONTAINED
FLUID 353 5.15 VIBRATIONAL RESPONSE OF PIPES TO INTERNAL ACOUSTIC
EXCITATION 358 5.16 TRANSMISSION OF INTERNALLY GENERATED SOUND THROUGH
PIPE WALLS 364 5.17 TRANSMISSION OF EXTERNALLY INCIDENT SOUND THROUGH
LARGE-DIAMETER, THIN-WALLED CYLINDERS 366 PROBLEMS 372 6. ACOUSTICALLY
INDUCED VIBRATION OF STRUCTURES 6.1 PRACTICAL ASPECTS OF ACOUSTICALLY
INDUCED VIBRATION 375 6.2 DECOMPOSITION OF A SOUND FIELD 376 6.3
RESPONSE OF A BAFFLED PLATE TO PLANE SOUND WAVES 379 6.4 THE PRINCIPLE
OF VIBROACOUSTIC RECIPROCITY 385 6.5 MODAL RECIPROCITY: RADIATION AND
RESPONSE 386 6.6 RADIATION DUE TO POINT FORCES AND RESPONSE TO POINT
SOURCES 391 6.7 AN APPLICATION OF RESPONSE THEORY TO BUILDING ACOUSTICS
396 PROBLEMS 400 7. ACOUSTIC COUPLING BETWEEN STRUCTURES AND ENCLOSED
VOLUMES OF FLUID 7.1 PRACTICAL IMPORTANCE OF THE PROBLEM 403 7.2 A
SIMPLE CASE OF FLUID-STRUCTURE INTERACTION 404 CONTENTS XI 7.3 HARMONIC
SOUND FIELDS IN AN ENCLOSED VOLUME OF FLUID 408 7.4 SOUND FIELD IN A
CLOSED SPACE WITH RIGID SURFACES 414 7.5 INTERACTION ANALYSIS BY GREEN'S
FUNCTION 415 7.6 MODAL-INTERACTION MODEL 418 7.7 SOLUTIONS OF THE
MODAL-INTERACTION MODEL 422 7.8 POWER FLOW AND STATISTICAL ENERGY
ANALYSIS 427 7.9 WAVE PROPAGATION IN PLATES LOADED BY CONFINED FLUID
LAYERS 433 7.10 WAVE PROPAGATION IN FLUID-FILLED TUBES OF CIRCULAR CROSS
SECTION 443 PROBLEMS 447 8. INTRODUCTION TO NUMERICALLY BASED ANALYSES
OF FLUID-STRUCTURE INTERACTION 8.1 THE ROLE OF NUMERICAL ANALYSIS 449
8.2 NUMERICAL ANALYSIS OF VIBRATION IN SOLIDS AND FLUIDS 451 8.3 FINITE
ELEMENT ANALYSIS 453 8.4 FINITE ELEMENT ANALYSIS OF VIBRATIONS IN SOLID
STRUCTURES 455 8.4.1 FLEXURAL VIBRATION OF SLENDER BEAMS: RAYLEIGH-RITZ
METHOD 456 8.4.2 FLEXURAL VIBRATION OF SLENDER BEAMS: FINITE ELEMENT
ANALYSIS 461 8.4.3 FLEXURAL VIBRATION OF THIN FLAT PLATES: FINITE
ELEMENT ANALYSIS 470 8.4.4 FINITE ELEMENT MODELS FOR OTHER TYPES OF
STRUCTURE 478 8.5 FINITE ELEMENT ANALYSIS OF ACOUSTIC VIBRATIONS OF
FLUIDS IN CAVITIES 479 8.5.1 ONE-DIMENSIONAL ACOUSTIC VIBRATION OF A
FLUID IN A UNIFORM STRAIGHT PIPE: RAYLEIGH-RITZ METHOD 480 8.5.2
ONE-DIMENSIONAL ACOUSTIC^ VIBRATION OF FLUID IN A UNIFORM STRAIGHT PIPE:
FINITE ELEMENT ANALYSIS 484 8.5.3 ACOUSTIC VIBRATION OF A FLUID IN A
THREE-DIMENSIONAL CAVITY: FINITE ELEMENT ANALYSIS 489 8.6 COUPLED
FLUID-STRUCTURE ANALYSIS 496 8.7 BOUNDARY ELEMENT ANALYSIS FOR
VIBROACOUSTIC PROBLEMS 503 8.7.1 DIRECT BOUNDARY ELEMENT METHOD 505 8.8
COUPLED STRUCTURE-FLUID ANALYSIS 515 PROBLEMS 519 XII CONTENTS 9.
INTRODUCTION TO ACTIVE CONTROL OF SOUND RADIATION AND TRANSMISSION 9.1
INTRODUCTION TO ACTIVE CONTROL 521 9.2 FUNDAMENTALS OF ACTIVE CONTROL
THEORY 522 9.2.1 FEED-FORWARD CONTROL 523 9.2.2 FEEDBACK CONTROL 532 9.3
SENSOR-ACTUATOR TRANSDUCERS 548 9.3.1 STRAIN ACTUATORS 549 9.3.2
INERTIAL ELECTRODYNAMIC ACTUATORS 555 9.3.3 STRAIN SENSORS 561 9.3.4
INERTIAL SENSORS (ACCELEROMETERS) 565 9.4 FROM ACTIVE NOISE CONTROL TO
ACTIVE STRUCTURAL ACOUSTIC CONTROL AND ACTIVE VIBRATION CONTROL 569
9.4.1 FEED-FORWARD ACTIVE NOISE CONTROL AND ACTIVE NOISE-VIBRATION
CONTROL 570 9.4.2 FEED-FORWARD ACTIVE STRUCTURAL ACOUSTIC CONTROL 573
9.4.3 FEEDBACK ACTIVE STRUCTURAL ACOUSTIC CONTROL 575 9.4.4
DECENTRALISED FEEDBACK ACTIVE VIBRATION CONTROL 576 9.5 SMART PANELS FOR
ASAC AND AVC SYSTEMS 580 9.5.1 MODELS OF SMART PANELS 580 9.5.2 SMART
PANELS WITH FEED-FORWARD MIMO AND SISO CONTROL SYSTEMS 584 9.5.3 SMART
PANEL WITH FEED-FORWARD SISO CONTROL SYSTEMS USING A VOLUME VELOCITY
DISTRIBUTED SENSOR AND UNIFORM FORCE DISTRIBUTED ACTUATOR 588 9.5.4
SMART PANELS WITH FEEDBACK MIMO AND SISO CONTROL SYSTEMS 590 9.5.5 SMART
PANEL WITH A FEEDBACK SISO CONTROL SYSTEM USING A VOLUME VELOCITY SENSOR
AND UNIFORM FORCE ACTUATOR 595 PROBLEMS 596 ANSWERS 597 REFERENCES 607
INDEX 621 |
| adam_txt |
SOUND AND STRUCTURAL VIBRATION RADIATION, TRANSMISSION AND RESPONSE
FRANK FAHY INSTITUTE OF SOUND AND VIBRATION RESEARCH UNIVERSITY OF
SOUTHAMPTON SOUTHAMPTON, UK PAOLO GARDONIO INSTITUTE OF SOUND AND
VIBRATION RESEARCH UNIVERSITY OF SOUTHAMPTON SOUTHAMPTON, UK AMSTERDAM
BOSTON HEIDELBERG LONDON NEW YORK OXFORD PARIS SAN DIEGO SAN FRANCISCO
SINGAPORE SYDNEY TOKYO ELSEVIER ACADEMIC PRESS IN AN IMPRINT OF ELSEVIER
CONTENTS PREFACE TO THE FIRST EDITION PREFACE TO THE SECOND EDITION
ACKNOWLEDGEMENTS XXI LIST OF PERMISSIONS XXIII INTRODUCTION XXV XUI XVII
1. WAVES IN FLUIDS AND SOLID STRUCTURES 1.1 FREQUENCY AND WAVENUMBER 1
1.2 SOUND WAVES IN FLUIDS 8 1.3 LONGITUDINAL WAVES IN SOLIDS 11 1.4
QUASI-LONGITUDINAL WAVES IN SOLIDS 13 1.5 TRANSVERSE (SHEAR) WAVES IN
SOLIDS 14 1.6 BENDING WAVES IN BARS 19 1.7 BENDING WAVES IN THIN PLATES
26 1.8 DISPERSION CURVES 27 1.9 FLEXURAL WAVES IN THIN-WALLED CIRCULAR
CYLINDRICAL SHELLS 30 1.10 NATURAL FREQUENCIES AND MODES OF VIBRATION 38
1.11 FORCED VIBRATION AND RESONANCE 50 VLLL CONTENTS 1.12 MODAL DENSITY
AND MODAL OVERLAP 64 1.13 THE ROLES OF MODAL DENSITY IN VIBROACOUSTICS
69 PROBLEMS 72 2. STRUCTURAL MOBILITY, IMPEDANCE, VIBRATIONAL ENERGY AND
POWER 2.1 MOBILITY AND IMPEDANCE REPRESENTATIONS 75 2.2 CONCEPTS AND
GENERAL FORMS OF MOBILITY AND IMPEDANCE OF LUMPED MECHANICAL ELEMENTS 79
2.3 MOBILITY FUNCTIONS OF UNIFORM BEAMS IN BENDING 84 2.3.1 INFINITE
BEAM 84 2.3.2 FINITE BEAM (CLOSED FORM) 87 2.3.3 FINITE BEAM (MODAL
SUMMATION) 90 2.4 MOBILITY AND IMPEDANCE FUNCTIONS OF THIN UNIFORM FLAT
PLATES 102 2.4.1 INFINITE PLATE 102 2.4.2 FINITE PLATE 106 2.5 RADIAL
DRIVING-POINT MOBILITY OF THIN-WALLED CIRCULAR CYLINDRICAL SHELLS 110
2.6 MOBILITY AND IMPEDANCE MATRIX MODELS 115 2.7 STRUCTURAL POWER 121
2.8 ENERGY DENSITY AND ENERGY FLUX OF VIBRATIONAL WAVES 129 PROBLEMS 134
3. SOUND RADIATION BY VIBRATING STRUCTURES 3.1 THE IMPORTANCE AND
MECHANISM OF SOUND RADIATION BY VIBRATING STRUCTURES 135 3.2 THE SIMPLE
VOLUME SOURCE 138 3.3 SOUND RADIATION BY A PAIR OF ELEMENTARY SURFACE
SOURCES 141 3.4 THE BAFFLED PISTON 143 3.5 SOUND RADIATION BY FLEXURAL
MODES OF PLATES 145 3.6 SOUND RADIATION BY PLATES IN MULTI-MODE FLEXURAL
VIBRATION 159 3.6.1 FORMULATION IN TERMS OF STRUCTURAL MODES 159 3.6.2
FORMULATION IN TERMS OF ELEMENTARY RADIATOR'S 165 3.7 INDEPENDENT
RADIATION MODES 168 3.7.1 FORMULATION IN TERMS OF STRUCTURAL MODES 169
3.7.2 FORMULATION IN TERMS OF ELEMENTARY RADIATORS 170 3.7.3 RADIATION
MODES AND EFFICIENCIES 171 3.7.4 A COMPARISON OF SELF- AND MUTUAL
RADIATION BY PLATE MODES 172 CONTENTS IX 3.8 SOUND RADIATION BY FLEXURAL
WAVES IN PLATES 175 3.9 THE FREQUENCY-AVERAGE RADIATION EFFICIENCY OF
PLATES 185 3.10 SOUND RADIATION DUE TO CONCENTRATED FORCES AND
DISPLACEMENTS 195 3.11 SOUND RADIATION BY NON-UNIFORM PLATE STRUCTURES
204 3.11.1 BEAM-STIFFENED PLATES 204 3.11.2 CORRUGATED PLATES 209 3.11.3
SANDWICH PLATES 210 3.11.4 COMPOSITE SOUND INSULATION PANELS 212 3.12
SOUND RADIATION BY CURVED SHELLS 213 3.13 SOUND RADIATION BY IRREGULARLY
SHAPED VIBRATING BODIES 227 PROBLEMS 240 4. FLUID LOADING OF VIBRATING
STRUCTURES 4.1 PRACTICAL ASPECTS OF FLUID LOADING 243 4.2 PRESSURE
FIELDS ON VIBRATING SURFACES 245 4.3 WAVE IMPEDANCES OF STRUCTURES AND
FLUIDS 256 4.4 FLUID LOADING OF VIBRATING PLATES 261 4.5 NATURAL
FREQUENCIES OF FLUID-LOADED PLATES 267 4.6 EFFECTS OF FLUID LOADING ON
SOUND RADIATION FROM POINT-EXCITED PLATES 268 4.7 NATURAL FREQUENCIES OF
FLUID-LOADED, THIN-WALLED, CIRCULAR CYLINDRICAL SHELLS 270 4.8 EFFECTS
OF FLUID LOADING ON SOUND RADIATION BY THIN-WALLED, CIRCULAR CYLINDRICAL
SHELLS 270 4.9 DAMPING OF THIN PLATES BY POROUS SHEETS 275 PROBLEMS 275
5. TRANSMISSION OF SOUND THROUGH PARTITIONS 5.1 PRACTICAL ASPECTS OF
SOUND TRANSMISSION THROUGH PARTITIONS 277 5.2 TRANSMISSION OF NORMALLY
INCIDENT PLANE WAVES THROUGH AN UNBOUNDED PARTITION 278 5.3 TRANSMISSION
OF OBLIQUELY INCIDENT PLANE WAVES THROUGH AN UNBOUNDED FLEXIBLE
PARTITION 284 5.4 TRANSMISSION OF DIFFUSE SOUND THROUGH A BOUNDED
PARTITION IN A BAFFLE 296 5.5 TRANSMISSION OF SOUND THROUGH A PARTITION
BETWEEN TWO ROOMS 299 5.6 DOUBLE-LEAF PARTITIONS 303 CONTENTS 5.7
TRANSMISSION OF NORMALLY INCIDENT PLANE WAVES THROUGH AN UNBOUNDED
DOUBLE-LEAF PARTITION 304 5.8 THE THEORETICAL EFFECT OF CAVITY SOUND
ABSORPTION ON NORMAL INCIDENCE TRANSMISSION LOSS 310 5.9 TRANSMISSION OF
OBLIQUELY INCIDENT PLANE WAVES THROUGH AN UNBOUNDED DOUBLE-LEAF
PARTITION 314 5.10 MECHANICAL STIFFENING AND COUPLING OF DOUBLE
PARTITION LEAVES 323 5.11 CLOSE-FITTING ENCLOSURES 330 5.12 TRANSMISSION
OF SOUND THROUGH STIFFENED, COMPOSITE, MULTILAYER AND NON-UNIFORM PANELS
337 5.13 TRANSMISSION OF SOUND THROUGH CIRCULAR CYLINDRICAL SHELLS 352
5.14 COUPLING BETWEEN SHELL MODES AND ACOUSTIC MODES OF A CONTAINED
FLUID 353 5.15 VIBRATIONAL RESPONSE OF PIPES TO INTERNAL ACOUSTIC
EXCITATION 358 5.16 TRANSMISSION OF INTERNALLY GENERATED SOUND THROUGH
PIPE WALLS 364 5.17 TRANSMISSION OF EXTERNALLY INCIDENT SOUND THROUGH
LARGE-DIAMETER, THIN-WALLED CYLINDERS 366 PROBLEMS 372 6. ACOUSTICALLY
INDUCED VIBRATION OF STRUCTURES 6.1 PRACTICAL ASPECTS OF ACOUSTICALLY
INDUCED VIBRATION 375 6.2 DECOMPOSITION OF A SOUND FIELD 376 6.3
RESPONSE OF A BAFFLED PLATE TO PLANE SOUND WAVES 379 6.4 THE PRINCIPLE
OF VIBROACOUSTIC RECIPROCITY 385 6.5 MODAL RECIPROCITY: RADIATION AND
RESPONSE 386 6.6 RADIATION DUE TO POINT FORCES AND RESPONSE TO POINT
SOURCES 391 6.7 AN APPLICATION OF RESPONSE THEORY TO BUILDING ACOUSTICS
396 PROBLEMS 400 7. ACOUSTIC COUPLING BETWEEN STRUCTURES AND ENCLOSED
VOLUMES OF FLUID 7.1 PRACTICAL IMPORTANCE OF THE PROBLEM 403 7.2 A
SIMPLE CASE OF FLUID-STRUCTURE INTERACTION 404 CONTENTS XI 7.3 HARMONIC
SOUND FIELDS IN AN ENCLOSED VOLUME OF FLUID 408 7.4 SOUND FIELD IN A
CLOSED SPACE WITH RIGID SURFACES 414 7.5 INTERACTION ANALYSIS BY GREEN'S
FUNCTION 415 7.6 MODAL-INTERACTION MODEL 418 7.7 SOLUTIONS OF THE
MODAL-INTERACTION MODEL 422 7.8 POWER FLOW AND STATISTICAL ENERGY
ANALYSIS 427 7.9 WAVE PROPAGATION IN PLATES LOADED BY CONFINED FLUID
LAYERS 433 7.10 WAVE PROPAGATION IN FLUID-FILLED TUBES OF CIRCULAR CROSS
SECTION 443 PROBLEMS 447 8. INTRODUCTION TO NUMERICALLY BASED ANALYSES
OF FLUID-STRUCTURE INTERACTION 8.1 THE ROLE OF NUMERICAL ANALYSIS 449
8.2 NUMERICAL ANALYSIS OF VIBRATION IN SOLIDS AND FLUIDS 451 8.3 FINITE
ELEMENT ANALYSIS 453 8.4 FINITE ELEMENT ANALYSIS OF VIBRATIONS IN SOLID
STRUCTURES 455 8.4.1 FLEXURAL VIBRATION OF SLENDER BEAMS: RAYLEIGH-RITZ
METHOD 456 8.4.2 FLEXURAL VIBRATION OF SLENDER BEAMS: FINITE ELEMENT
ANALYSIS 461 8.4.3 FLEXURAL VIBRATION OF THIN FLAT PLATES: FINITE
ELEMENT ANALYSIS 470 8.4.4 FINITE ELEMENT MODELS FOR OTHER TYPES OF
STRUCTURE 478 8.5 FINITE ELEMENT ANALYSIS OF ACOUSTIC VIBRATIONS OF
FLUIDS IN CAVITIES 479 8.5.1 ONE-DIMENSIONAL ACOUSTIC VIBRATION OF A
FLUID IN A UNIFORM STRAIGHT PIPE: RAYLEIGH-RITZ METHOD 480 8.5.2
ONE-DIMENSIONAL ACOUSTIC^ VIBRATION OF FLUID IN A UNIFORM STRAIGHT PIPE:
FINITE ELEMENT ANALYSIS 484 8.5.3 ACOUSTIC VIBRATION OF A FLUID IN A
THREE-DIMENSIONAL CAVITY: FINITE ELEMENT ANALYSIS 489 8.6 COUPLED
FLUID-STRUCTURE ANALYSIS 496 8.7 BOUNDARY ELEMENT ANALYSIS FOR
VIBROACOUSTIC PROBLEMS 503 8.7.1 DIRECT BOUNDARY ELEMENT METHOD 505 8.8
COUPLED STRUCTURE-FLUID ANALYSIS 515 PROBLEMS 519 XII CONTENTS 9.
INTRODUCTION TO ACTIVE CONTROL OF SOUND RADIATION AND TRANSMISSION 9.1
INTRODUCTION TO ACTIVE CONTROL 521 9.2 FUNDAMENTALS OF ACTIVE CONTROL
THEORY 522 9.2.1 FEED-FORWARD CONTROL 523 9.2.2 FEEDBACK CONTROL 532 9.3
SENSOR-ACTUATOR TRANSDUCERS 548 9.3.1 STRAIN ACTUATORS 549 9.3.2
INERTIAL ELECTRODYNAMIC ACTUATORS 555 9.3.3 STRAIN SENSORS 561 9.3.4
INERTIAL SENSORS (ACCELEROMETERS) 565 9.4 FROM ACTIVE NOISE CONTROL TO
ACTIVE STRUCTURAL ACOUSTIC CONTROL AND ACTIVE VIBRATION CONTROL 569
9.4.1 FEED-FORWARD ACTIVE NOISE CONTROL AND ACTIVE NOISE-VIBRATION
CONTROL 570 9.4.2 FEED-FORWARD ACTIVE STRUCTURAL ACOUSTIC CONTROL 573
9.4.3 FEEDBACK ACTIVE STRUCTURAL ACOUSTIC CONTROL 575 9.4.4
DECENTRALISED FEEDBACK ACTIVE VIBRATION CONTROL 576 9.5 SMART PANELS FOR
ASAC AND AVC SYSTEMS 580 9.5.1 MODELS OF SMART PANELS 580 9.5.2 SMART
PANELS WITH FEED-FORWARD MIMO AND SISO CONTROL SYSTEMS 584 9.5.3 SMART
PANEL WITH FEED-FORWARD SISO CONTROL SYSTEMS USING A VOLUME VELOCITY
DISTRIBUTED SENSOR AND UNIFORM FORCE DISTRIBUTED ACTUATOR 588 9.5.4
SMART PANELS WITH FEEDBACK MIMO AND SISO CONTROL SYSTEMS 590 9.5.5 SMART
PANEL WITH A FEEDBACK SISO CONTROL SYSTEM USING A VOLUME VELOCITY SENSOR
AND UNIFORM FORCE ACTUATOR 595 PROBLEMS 596 ANSWERS 597 REFERENCES 607
INDEX 621 |
| any_adam_object | 1 |
| any_adam_object_boolean | 1 |
| author | Fahy, Frank J. Gardonio, Paolo |
| author_facet | Fahy, Frank J. Gardonio, Paolo |
| author_role | aut aut |
| author_sort | Fahy, Frank J. |
| author_variant | f j f fj fjf p g pg |
| building | Verbundindex |
| bvnumber | BV022236684 |
| callnumber-first | T - Technology |
| callnumber-label | TA355 |
| callnumber-raw | TA355 |
| callnumber-search | TA355 |
| callnumber-sort | TA 3355 |
| callnumber-subject | TA - General and Civil Engineering |
| classification_rvk | UF 6200 |
| classification_tum | MTA 920f MTA 090f |
| ctrlnum | (OCoLC)255729733 (DE-599)BVBBV022236684 |
| dewey-full | 620.2 621 |
| dewey-hundreds | 600 - Technology (Applied sciences) |
| dewey-ones | 620 - Engineering and allied operations 621 - Applied physics |
| dewey-raw | 620.2 621 |
| dewey-search | 620.2 621 |
| dewey-sort | 3620.2 |
| dewey-tens | 620 - Engineering and allied operations |
| discipline | Physik |
| discipline_str_mv | Physik |
| edition | 2. ed. |
| format | Book |
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| genre | 1\p (DE-588)4123623-3 Lehrbuch gnd-content |
| genre_facet | Lehrbuch |
| id | DE-604.BV022236684 |
| illustrated | Illustrated |
| index_date | 2024-07-02T16:34:23Z |
| indexdate | 2024-10-15T12:00:36Z |
| institution | BVB |
| isbn | 0123736331 9780123736338 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-015447685 |
| oclc_num | 255729733 |
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| owner | DE-91G DE-BY-TUM DE-573 |
| owner_facet | DE-91G DE-BY-TUM DE-573 |
| physical | XXX, 633 S. Ill., graph. Darst. |
| publishDate | 2007 |
| publishDateSearch | 2007 |
| publishDateSort | 2007 |
| publisher | Elsevier |
| record_format | marc |
| spelling | Fahy, Frank J. Verfasser aut Sound and structural vibration radiation, transmission and response Frank Fahy ; Paolo Gardonio 2. ed. Amsterdam [u.a.] Elsevier 2007 XXX, 633 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Constructions - Dynamique Ondes sonores Vibration Sound Structural dynamics Schwingungsbelastung (DE-588)4054001-7 gnd rswk-swf Hydroakustik (DE-588)4259255-0 gnd rswk-swf Schallwelle (DE-588)4191490-9 gnd rswk-swf Flüssigkeit (DE-588)4017621-6 gnd rswk-swf Schallausbreitung (DE-588)4179359-6 gnd rswk-swf Luftschall (DE-588)4123687-7 gnd rswk-swf Strukturdynamik (DE-588)4226174-0 gnd rswk-swf Mechanische Schwingung (DE-588)4138305-9 gnd rswk-swf Körperschall (DE-588)4130717-3 gnd rswk-swf 1\p (DE-588)4123623-3 Lehrbuch gnd-content Körperschall (DE-588)4130717-3 s Hydroakustik (DE-588)4259255-0 s DE-604 Luftschall (DE-588)4123687-7 s Strukturdynamik (DE-588)4226174-0 s Schallwelle (DE-588)4191490-9 s Flüssigkeit (DE-588)4017621-6 s Schallausbreitung (DE-588)4179359-6 s 2\p DE-604 Schwingungsbelastung (DE-588)4054001-7 s 3\p DE-604 Mechanische Schwingung (DE-588)4138305-9 s 4\p DE-604 Gardonio, Paolo Verfasser aut HEBIS Datenaustausch Darmstadt application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015447685&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk 2\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk 3\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk 4\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk |
| spellingShingle | Fahy, Frank J. Gardonio, Paolo Sound and structural vibration radiation, transmission and response Constructions - Dynamique Ondes sonores Vibration Sound Structural dynamics Schwingungsbelastung (DE-588)4054001-7 gnd Hydroakustik (DE-588)4259255-0 gnd Schallwelle (DE-588)4191490-9 gnd Flüssigkeit (DE-588)4017621-6 gnd Schallausbreitung (DE-588)4179359-6 gnd Luftschall (DE-588)4123687-7 gnd Strukturdynamik (DE-588)4226174-0 gnd Mechanische Schwingung (DE-588)4138305-9 gnd Körperschall (DE-588)4130717-3 gnd |
| subject_GND | (DE-588)4054001-7 (DE-588)4259255-0 (DE-588)4191490-9 (DE-588)4017621-6 (DE-588)4179359-6 (DE-588)4123687-7 (DE-588)4226174-0 (DE-588)4138305-9 (DE-588)4130717-3 (DE-588)4123623-3 |
| title | Sound and structural vibration radiation, transmission and response |
| title_auth | Sound and structural vibration radiation, transmission and response |
| title_exact_search | Sound and structural vibration radiation, transmission and response |
| title_exact_search_txtP | Sound and structural vibration radiation, transmission and response |
| title_full | Sound and structural vibration radiation, transmission and response Frank Fahy ; Paolo Gardonio |
| title_fullStr | Sound and structural vibration radiation, transmission and response Frank Fahy ; Paolo Gardonio |
| title_full_unstemmed | Sound and structural vibration radiation, transmission and response Frank Fahy ; Paolo Gardonio |
| title_short | Sound and structural vibration |
| title_sort | sound and structural vibration radiation transmission and response |
| title_sub | radiation, transmission and response |
| topic | Constructions - Dynamique Ondes sonores Vibration Sound Structural dynamics Schwingungsbelastung (DE-588)4054001-7 gnd Hydroakustik (DE-588)4259255-0 gnd Schallwelle (DE-588)4191490-9 gnd Flüssigkeit (DE-588)4017621-6 gnd Schallausbreitung (DE-588)4179359-6 gnd Luftschall (DE-588)4123687-7 gnd Strukturdynamik (DE-588)4226174-0 gnd Mechanische Schwingung (DE-588)4138305-9 gnd Körperschall (DE-588)4130717-3 gnd |
| topic_facet | Constructions - Dynamique Ondes sonores Vibration Sound Structural dynamics Schwingungsbelastung Hydroakustik Schallwelle Flüssigkeit Schallausbreitung Luftschall Strukturdynamik Mechanische Schwingung Körperschall Lehrbuch |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015447685&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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