Verfügbarkeit: Fundamentals of noise and vibration analysis for engineers

Fundamentals of noise and vibration analysis for engineers:

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Bibliographische Detailangaben
Hauptverfasser:	Norton, Michael P. (VerfasserIn), Karczub, Denis G. (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Cambridge [u.a.] Cambridge Univ. Press 2003
Ausgabe:	2. ed.
Schlagworte:	Modernismo (Arte) Modernismo (Literatura) Acoustical engineering Noise Vibration Geräusch Lärmmessung Lärm Maschinenlärm Mechanische Schwingung Analyse Schall
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XX, 631 S. Ill., graph. Darst.
ISBN:	052149561X 0521499135

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Datensatz im Suchindex

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adam_text	FUNDAMENTALS OF NOISE AND VIBRATION ANALYSIS FOR ENGINEERS SECOND EDITION M, P. NORTON SCHOOL OF MECHANICAL ENGINEERING, UNIVERSITY OF WESTERN AUSTRALIA AND P. G. KARCZUB S.V.T. ENGINEERING CONSULTANTS, PERTH, WESTERN AUSTRALIA CAMBRIDGE UNIVERSITY PRESS CONTENTS PREFACE PAGE XV ACKNOWLEDGEMENTS XVII INTRODUCTORY COMMENTS XVIII MECHANICAL VIBRATIONS: A REVIEW OF SOME FUNDAMENTALS 1.1 INTRODUCTION 1 1.2 INTRODUCTORY WAVE MOTION CONCEPTS * AN ELASTIC CONTINUUM VIEWPOINT 3 1.3 INTRODUCTORY MULTIPLE, DISCRETE, MASSSPRING-DAMPER OSCILLATOR CONCEPTS - A MACROSCOPIC VIEWPOINT 8 1.4 INTRODUCTORY CONCEPTS ON NATURAL FREQUENCIES, MODES OF VIBRATION, FORCED VIBRATIONS AND RESONANCE 10 1.5 THE DYNAMICS OF A SINGLE OSCILLATOR - A CONVENIENT MODEL 12 1.5.1 UNDAMPED FREE VIBRATIONS 12 1.5.2 ENERGY CONCEPTS 15 1.5.3 FREE VIBRATIONS WITH VISCOUS DAMPING 16 1.5.4 FORCED VIBRATIONS: SOME GENERAL COMMENTS 21 1.5.5 FORCED VIBRATIONS WITH HARMONIC EXCITATION 22 1.5.6 EQUIVALENT VISCOUS-DAMPING CONCEPTS - DAMPING IN REAL SYSTEMS 30 1.5.7 FORCED VIBRATIONS WITH PERIODIC EXCITATION 32 1.5.8 FORCED VIBRATIONS WITH TRANSIENT EXCITATION 33 1.6 FORCED VIBRATIONS WITH RANDOM EXCITATION 37 1.6.1 PROBABILITY FUNCTIONS 38 1.6.2 CORRELATION FUNCTIONS 39 1.6.3 SPECTRAL DENSITY FUNCTIONS 41 1.6.4 INPUT-OUTPUT RELATIONSHIPS FOR LINEAR SYSTEMS 42 1.6.5 THE SPECIAL CASE OF BROADBAND EXCITATION OF A SINGLE OSCILLATOR 50 1.6.6 A NOTE ON FREQUENCY RESPONSE FUNCTIONS AND TRANSFER FUNCTIONS 52 1.7 ENERGY AND POWER FLOW RELATIONSHIPS 52 VII VIII CONTENTS 1.8 MULTIPLE OSCILLATORS - A REVIEW OF SOME GENERAL PROCEDURES 56 1.8.1 A SIMPLE TWO-DEGREE-OF-FREEDOM SYSTEM 56 1.8.2 A SIMPLE THREE-DEGREE-OF-FREEDOM SYSTEM 59 1.8.3 FORCED VIBRATIONS OF MULTIPLE OSCILLATORS 60 1.9 CONTINUOUS SYSTEMS - A REVIEW OF WAVE-TYPES IN STRINGS, BARS AND PLATES 64 1.9.1 THE VIBRATING STRING 64 1.9.2 QUASI-LONGITUDINAL VIBRATIONS OF RODS AND BARS 72 1.9.3 TRANSMISSION AND REFLECTION OF QUASI-LONGITUDINAL WAVES 77 1.9.4 TRANSVERSE BENDING VIBRATIONS OF BEAMS 79 1.9.5 A GENERAL DISCUSSION ON WAVE-TYPES IN STRUCTURES 84 1.9.6 MODE SUMMATION PROCEDURES 85 1.9.7 THE RESPONSE OF CONTINUOUS SYSTEMS TO RANDOM LOADS 91 1.9.8 BENDING WAVES IN PLATES 94 1.10 RELATIONSHIPS FOR THE ANALYSIS OF DYNAMIC STRESS IN BEAMS 96 1.10.1 DYNAMIC STRESS RESPONSE FOR FLEXURAL VIBRATION OF A THIN BEAM 96 1.10.2 FAR-FIELD RELATIONSHIPS BETWEEN DYNAMIC STRESS AND STRUCTURAL VIBRATION LEVELS 100 1.10.3 GENERALISED RELATIONSHIPS FOR THE PREDICTION OF MAXIMUM DYNAMIC STRESS 102 1.10.4 PROPERTIES OF THE NON-DIMENSIONAL CORRELATION RATIO 103 1.10.5 ESTIMATES OF DYNAMIC STRESS BASED ON STATIC STRESS AND DISPLACEMENT 104 1.10.6 MEAN-SQUARE ESTIMATES FOR SINGLE-MODE VIBRATION 105 1.10.7 RELATIONSHIPS FOR A BASE-EXCITED CANTILEVER WITH TIP MASS 106 1.11 RELATIONSHIPS FOR THE ANALYSIS OF DYNAMIC STRAIN IN PLATES 108 1.11.1 DYNAMIC STRAIN RESPONSE FOR FLEXURAL VIBRATION OF A CONSTRAINED RECTANGULAR PLATE 109 1.11.2 FAR-FIELD RELATIONSHIPS BETWEEN DYNAMIC STRESS AND STRUCTURAL VIBRATION LEVELS 112 1.11.3 GENERALISED RELATIONSHIPS FOR THE PREDICTION OF MAXIMUM DYNAMIC STRESS 113 1.12 RELATIONSHIPS FOR THE ANALYSIS OF DYNAMIC STRAIN IN CYLINDRICAL SHELLS 113 1.12.1 DYNAMIC RESPONSE OF CYLINDRICAL SHELLS 114 1.12.2 PROPAGATING AND EVANESCENT WAVE COMPONENTS 117 1.12.3 DYNAMIC STRAIN CONCENTRATION FACTORS 119 1.12.4 CORRELATIONS BETWEEN DYNAMIC STRAIN AND VELOCITY SPATIAL MAXIMA 119 REFERENCES 122 NOMENCLATURE 123 IX CONTENTS SOUND WAVES: A REVIEW OF SOME FUNDAMENTALS 128 2.1 INTRODUCTION 128 2.2 THE HOMOGENEOUS ACOUSTIC WAVE EQUATION - A CLASSICAL ANALYSIS 131 2.2.1 CONSERVATION OF MASS 134 2.2.2 CONSERVATION OF MOMENTUM 136 2.2.3 THE THERMODYNAMIC EQUATION OF STATE 139 2.2.4 THE LINEARISED ACOUSTIC WAVE EQUATION 140 2.2.5 THE ACOUSTIC VELOCITY POTENTIAL 141 2.2.6 THE PROPAGATION OF PLANE SOUND WAVES 143 2.2.7 SOUND INTENSITY, ENERGY DENSITY AND SOUND POWER 144 2.3 FUNDAMENTAL ACOUSTIC SOURCE MODELS 146 2.3.1 MONOPOLES - SIMPLE SPHERICAL SOUND WAVES 147 2.3.2 DIPOLES 151 2.3.3 MONOPOLES NEAR A RIGID, REFLECTING, GROUND PLANE 155 2.3.4 SOUND RADIATION FROM A VIBRATING PISTON MOUNTED IN A RIGID BAFFLE 157 2.3.5 QUADRUPOLES - LATERAL AND LONGITUDINAL 162 2.3.6 CYLINDRICAL LINE SOUND SOURCES 164 2.4 THE INHOMOGENEOUS ACOUSTIC WAVE EQUATION AERODYNAMIC SOUND 165 2.4.1 THE INHOMOGENEOUS WAVE EQUATION 167 2.4.2 LIGHTHILL S ACOUSTIC ANALOGY 174 2.4.3 THE EFFECTS OF THE PRESENCE OF SOLID BODIES IN THE FLOW 177 2.4.4 THE POWELL-HOWE THEORY OF VORTEX SOUND 180 2.5 FLOW DUCT ACOUSTICS 183 REFERENCES 187 NOMENCLATURE 188 INTERACTIONS BETWEEN SOUND WAVES AND SOLID STRUCTURES 193 3.1 INTRODUCTION 193 3.2 FUNDAMENTALS OF FLUID-STRUCTURE INTERACTIONS 194 3.3 SOUND RADIATION FROM AN INFINITE PLATE * WAVE/BOUNDARY MATCHING CONCEPTS 197 3.4 INTRODUCTORY RADIATION RATIO CONCEPTS 203 3.5 SOUND RADIATION FROM FREE BENDING WAVES IN FINITE PLATE-TYPE STRUCTURES 207 3.6 SOUND RADIATION FROM REGIONS IN PROXIMITY TO DISCONTINUITIES - POINT AND LINE FORCE EXCITATIONS 216 CONTENTS 3.7 RADIATION RATIOS OF FINITE STRUCTURAL ELEMENTS 221 3.8 SOME SPECIFIC ENGINEERING-TYPE APPLICATIONS OF THE RECIPROCITY PRINCIPLE 227 3.9 SOUND TRANSMISSION THROUGH PANELS AND PARTITIONS 230 3.9.1 SOUND TRANSMISSION THROUGH SINGLE PANELS 232 3.9.2 SOUND TRANSMISSION THROUGH DOUBLE-LEAF PANELS 241 3.10 THE EFFECTS OF FLUID LOADING ON VIBRATING STRUCTURES 244 3.11 IMPACT NOISE 247 REFERENCES 249 NOMENCLATURE 250 NOISE AND VIBRATION MEASUREMENT AND CONTROL PROCEDURES 254 4.1 INTRODUCTION 254 4.2 NOISE AND VIBRATION MEASUREMENT UNITS - LEVELS, DECIBELS AND SPECTRA 256 4.2.1 OBJECTIVE NOISE MEASUREMENT SCALES 256 4.2.2 SUBJECTIVE NOISE MEASUREMENT SCALES 257 4.2.3 VIBRATION MEASUREMENT SCALES 259 4.2.4 ADDITION AND SUBTRACTION OF DECIBELS 261 4.2.5 FREQUENCY ANALYSIS BANDWIDTHS 263 4.3 NOISE AND VIBRATION MEASUREMENT INSTRUMENTATION 267 4.3.1 NOISE MEASUREMENT INSTRUMENTATION 267 4.3.2 VIBRATION MEASUREMENT INSTRUMENTATION 270 4.4 RELATIONSHIPS FOR THE MEASUREMENT OF FREE-FIELD SOUND PROPAGATION 273 4.5 THE DIRECTIONAL CHARACTERISTICS OF SOUND SOURCES 278 4.6 SOUND POWER MODELS - CONSTANT POWER AND CONSTANT VOLUME SOURCES 279 4.7 THE MEASUREMENT OF SOUND POWER 282 4.7.1 FREE-FIELD TECHNIQUES 282 4.7.2 REVERBERANT-FIELD TECHNIQUES 283 4.7.3 SEMI-REVERBERANT-FIELD TECHNIQUES 287 4.7.4 SOUND INTENSITY TECHNIQUES 290 4.8 SOME GENERAL COMMENTS ON INDUSTRIAL NOISE AND VIBRATION CONTROL 294 4.8.1 BASIC SOURCES OF INDUSTRIAL NOISE AND VIBRATION 294 4.8.2 BASIC INDUSTRIAL NOISE AND VIBRATION CONTROL METHODS 295 4.8.3 THE ECONOMIC FACTOR 299 4.9 SOUND TRANSMISSION FROM ONE ROOM TO ANOTHER 301 4.10 ACOUSTIC ENCLOSURES 304 4.11 ACOUSTIC BARRIERS 308 4.12 SOUND-ABSORBING MATERIALS 313 4.13 VIBRATION CONTROL PROCEDURES 320 XI CONTENTS 4.13.1 LOW FREQUENCY VIBRATION ISOLATION - SINGLE-DEGREE-OF-FREEDOM SYSTEMS 322 4.13.2 LOW FREQUENCY VIBRATION ISOLATION - MULTIPLE-DEGREE-OF-FREEDOM SYSTEMS 325 4.13.3 VIBRATION ISOLATION IN THE AUDIO-FREQUENCY RANGE 327 4.13.4 VIBRATION ISOLATION MATERIALS 330 4.13.5 DYNAMIC ABSORPTION 332 4.13.6 DAMPING MATERIALS 334 REFERENCES 335 NOMENCLATURE 336 THE ANALYSIS OF NOISE AND VIBRATION SIGNALS 342 5.1 INTRODUCTION 5.2 DETERMINISTIC AND RANDOM SIGNALS 5.3 FUNDAMENTAL SIGNAL ANALYSIS TECHNIQUES 5.3.1 SIGNAL MAGNITUDE ANALYSIS 5.3.2 TIME DOMAIN ANALYSIS 5.3.3 FREQUENCY DOMAIN ANALYSIS 5.3.4 DUAL SIGNAL ANALYSIS 5.4 ANALOGUE SIGNAL ANALYSIS 5.5 DIGITAL SIGNAL ANALYSIS 5.6 STATISTICAL ERRORS ASSOCIATED WITH SIGNAL ANALYSIS 5.6.1 RANDOM AND BIAS ERRORS 5.6.2 ALIASING 5.6.3 WINDOWING 5.7 MEASUREMENT NOISE ERRORS ASSOCIATED WITH SIGNAL ANALYSIS REFERENCES NOMENCLATURE 342 344 347 347 351 352 355 365 366 370 370 372 374 377 380 380 STATISTICAL ENERGY ANALYSIS OF NOISE AND VIBRATION 6.1 INTRODUCTION 6.2 THE BASIC CONCEPTS OF STATISTICAL ENERGY ANALYSIS 6.3 ENERGY FLOW RELATIONSHIPS 6.3.1 BASIC ENERGY FLOW CONCEPTS 6.3.2 SOME GENERAL COMMENTS 6.3.3 THE TWO SUBSYSTEM MODEL 383 383 384 387 388 389 391 XII CONTENTS 6.3.4 IN-SITU ESTIMATION PROCEDURES 393 6.3.5 MULTIPLE SUBSYSTEMS 395 6.4 MODAL DENSITIES 397 6.4.1 MODAL DENSITIES OF STRUCTURAL ELEMENTS 397 6.4.2 MODAL DENSITIES OF ACOUSTIC VOLUMES 400 6.4.3 MODAL DENSITY MEASUREMENT TECHNIQUES 401 6.5 INTERNAL LOSS FACTORS 407 6.5.1 LOSS FACTORS OF STRUCTURAL ELEMENTS 408 6.5.2 ACOUSTIC RADIATION LOSS FACTORS 410 6.5.3 INTERNAL LOSS FACTOR MEASUREMENT TECHNIQUES 412 6.6 COUPLING LOSS FACTORS 417 6.6.1 STRUCTURE-STRUCTURE COUPLING LOSS FACTORS 417 6.6.2 STRUCTURE-ACOUSTIC VOLUME COUPLING LOSS FACTORS -419 6.6.3 ACOUSTIC VOLUME-ACOUSTIC VOLUME COUPLING LOSS FACTORS 420 6.6.4 COUPLING LOSS FACTOR MEASUREMENT TECHNIQUES 421 6.7 EXAMPLES OF THE APPLICATION OF S.E.A. TO COUPLED SYSTEMS 423 6.7.1 A BEAM-PLATE-ROOM VOLUME COUPLED SYSTEM 424 6.7.2 TWO ROOMS COUPLED BY A PARTITION 427 6.8 NON-CONSERVATIVE COUPLING - COUPLING DAMPING 430 6.9 THE ESTIMATION OF SOUND RADIATION FROM COUPLED STRUCTURES USING TOTAL LOSS FACTOR CONCEPTS 431 6.10 RELATIONSHIPS BETWEEN DYNAMIC STRESS AND STRAIN AND STRUCTURAL VIBRATION LEVELS 433 REFERENCES 435 NOMENCLATURE 437 PIPE FLOW NOISE AND VIBRATION: A CASE STUDY 441 7.1 INTRODUCTION 441 7.2 GENERAL DESCRIPTION OF THE EFFECTS OF FLOW DISTURBANCES ON PIPELINE NOISE AND VIBRATION 443 7.3 THE SOUND FIELD INSIDE A CYLINDRICAL SHELL 446 7.4 RESPONSE OF A CYLINDRICAL SHELL TO INTERNAL FLOW 451 7.4.1 GENERAL FORMALISM OF THE VIBRATIONAL RESPONSE AND SOUND RADIATION 451 7.4.2 NATURAL FREQUENCIES OF CYLINDRICAL SHELLS 454 7.4.3 THE INTERNAL WALL PRESSURE FIELD 455 7.4.4 THE JOINT ACCEPTANCE FUNCTION 458 7.4.5 RADIATION RATIOS 460 XIII CONTENTS 7.5 COINCIDENCE - VIBRATIONAL RESPONSE AND SOUND RADIATION DUE TO HIGHER ORDER ACOUSTIC MODES 461 7.6 OTHER PIPE FLOW NOISE SOURCES 467 7.7 PREDICTION OF VIBRATIONAL RESPONSE AND SOUND RADIATION CHARACTERISTICS 471 7.8 SOME GENERAL DESIGN GUIDELINES 477 7.9 A VIBRATION DAMPER FOR THE REDUCTION OF PIPE FLOW NOISE AND VIBRATION 479 REFERENCES 481 NOMENCLATURE 483 8 NOISE AND VIBRATION AS A DIAGNOSTIC TOOL 488 8.1 INTRODUCTION 488 8.2 SOME GENERAL COMMENTS ON NOISE AND VIBRATION AS A DIAGNOSTIC TOOL 489 8.3 REVIEW OF AVAILABLE SIGNAL ANALYSIS TECHNIQUES 493 8.3.1 CONVENTIONAL MAGNITUDE AND TIME DOMAIN ANALYSIS TECHNIQUES 494 8.3.2 CONVENTIONAL FREQUENCY DOMAIN ANALYSIS TECHNIQUES 501 8.3.3 CEPSTRUM ANALYSIS TECHNIQUES 503 8.3.4 SOUND INTENSITY ANALYSIS TECHNIQUES 504 8.3.5 OTHER ADVANCED SIGNAL ANALYSIS TECHNIQUES 507 8.3.6 NEW TECHNIQUES IN CONDITION MONITORING 511 8.4 SOURCE IDENTIFICATION AND FAULT DETECTION FROM NOISE AND VIBRATION SIGNALS 513 8.4.1 GEARS 514 8.4.2 ROTORS AND SHAFTS 516 8.4.3 BEARINGS 518 8.4.4 FANS AND BLOWERS 523 8.4.5 FURNACES AND BURNERS 525 8.4.6 PUNCH PRESSES 527 8.4.7 PUMPS 528 8.4.8 ELECTRICAL EQUIPMENT 530 8.4.9 SOURCE RANKING IN COMPLEX MACHINERY 532 8.4.10 STRUCTURAL COMPONENTS 536 8.4.11 VIBRATION SEVERITY GUIDES 539 8.5 SOME SPECIFIC TEST CASES 541 8.5.1 CABIN NOISE SOURCE IDENTIFICATION ON A LOAD-HAUL*DUMP VEHICLE 541 8.5.2 NOISE AND VIBRATION SOURCE IDENTIFICATION ON A LARGE INDUCTION MOTOR 547 8.5.3 IDENTIFICATION OF ROLLING-CONTACT BEARING DAMAGE 550 8.5.4 FLOW-INDUCED NOISE AND VIBRATION ASSOCIATED WITH A GAS PIPELINE 554 XIV CONTENTS 8.5.5 FLOW-INDUCED NOISE AND VIBRATION ASSOCIATED WITH A RACING SLOOP (YACHT) 557 8.6 PERFORMANCE MONITORING 557 8.7 INTEGRATED CONDITION MONITORING DESIGN CONCEPTS 559 REFERENCES 562 NOMENCLATURE 563 PROBLEMS 566 APPENDIX 1: RELEVANT ENGINEERING NOISE AND VIBRATION CONTROL JOURNALS 599 APPENDIX 2: TYPICAL SOUND TRANSMISSION LOSS VALUES AND SOUND ABSORPTION COEFFICIENTS FOR SOME COMMON BUILDING MATERIALS 600 APPENDIX 3: UNITS AND CONVERSION FACTORS 603 APPENDIX 4: PHYSICAL PROPERTIES OF SOME COMMON SUBSTANCES 605 ANSWERS TO PROBLEMS 607 INDEX 621
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author	Norton, Michael P. Karczub, Denis G.
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id	DE-604.BV017561366
illustrated	Illustrated
indexdate	2024-07-09T19:19:22Z
institution	BVB
isbn	052149561X 0521499135
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-010570019
oclc_num	51913440
open_access_boolean
owner	DE-703 DE-634 DE-83
owner_facet	DE-703 DE-634 DE-83
physical	XX, 631 S. Ill., graph. Darst.
publishDate	2003
publishDateSearch	2003
publishDateSort	2003
publisher	Cambridge Univ. Press
record_format	marc
spelling	Norton, Michael P. Verfasser aut Fundamentals of noise and vibration analysis for engineers M. P. Norton and D. G. Karczub 2. ed. Cambridge [u.a.] Cambridge Univ. Press 2003 XX, 631 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Modernismo (Arte) Modernismo (Literatura) Acoustical engineering Noise Vibration Geräusch (DE-588)4129296-0 gnd rswk-swf Lärmmessung (DE-588)4191578-1 gnd rswk-swf Lärm (DE-588)4034046-6 gnd rswk-swf Maschinenlärm (DE-588)4114524-0 gnd rswk-swf Mechanische Schwingung (DE-588)4138305-9 gnd rswk-swf Analyse (DE-588)4122795-5 gnd rswk-swf Schall (DE-588)4129541-9 gnd rswk-swf Mechanische Schwingung (DE-588)4138305-9 s Lärm (DE-588)4034046-6 s Geräusch (DE-588)4129296-0 s Schall (DE-588)4129541-9 s DE-604 Maschinenlärm (DE-588)4114524-0 s Analyse (DE-588)4122795-5 s 1\p DE-604 Lärmmessung (DE-588)4191578-1 s 2\p DE-604 Karczub, Denis G. Verfasser aut HEBIS Datenaustausch Darmstadt application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=010570019&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
spellingShingle	Norton, Michael P. Karczub, Denis G. Fundamentals of noise and vibration analysis for engineers Modernismo (Arte) Modernismo (Literatura) Acoustical engineering Noise Vibration Geräusch (DE-588)4129296-0 gnd Lärmmessung (DE-588)4191578-1 gnd Lärm (DE-588)4034046-6 gnd Maschinenlärm (DE-588)4114524-0 gnd Mechanische Schwingung (DE-588)4138305-9 gnd Analyse (DE-588)4122795-5 gnd Schall (DE-588)4129541-9 gnd
subject_GND	(DE-588)4129296-0 (DE-588)4191578-1 (DE-588)4034046-6 (DE-588)4114524-0 (DE-588)4138305-9 (DE-588)4122795-5 (DE-588)4129541-9
title	Fundamentals of noise and vibration analysis for engineers
title_auth	Fundamentals of noise and vibration analysis for engineers
title_exact_search	Fundamentals of noise and vibration analysis for engineers
title_full	Fundamentals of noise and vibration analysis for engineers M. P. Norton and D. G. Karczub
title_fullStr	Fundamentals of noise and vibration analysis for engineers M. P. Norton and D. G. Karczub
title_full_unstemmed	Fundamentals of noise and vibration analysis for engineers M. P. Norton and D. G. Karczub
title_short	Fundamentals of noise and vibration analysis for engineers
title_sort	fundamentals of noise and vibration analysis for engineers
topic	Modernismo (Arte) Modernismo (Literatura) Acoustical engineering Noise Vibration Geräusch (DE-588)4129296-0 gnd Lärmmessung (DE-588)4191578-1 gnd Lärm (DE-588)4034046-6 gnd Maschinenlärm (DE-588)4114524-0 gnd Mechanische Schwingung (DE-588)4138305-9 gnd Analyse (DE-588)4122795-5 gnd Schall (DE-588)4129541-9 gnd
topic_facet	Modernismo (Arte) Modernismo (Literatura) Acoustical engineering Noise Vibration Geräusch Lärmmessung Lärm Maschinenlärm Mechanische Schwingung Analyse Schall
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=010570019&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT nortonmichaelp fundamentalsofnoiseandvibrationanalysisforengineers AT karczubdenisg fundamentalsofnoiseandvibrationanalysisforengineers

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