Verfügbarkeit: Vibrations and stability

Vibrations and stability: advanced theory, analysis, and tools

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Bibliographische Detailangaben
1. Verfasser:	Thomsen, Jon Juel (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin [u.a.] Springer 2003
Ausgabe:	2. ed.
Schriftenreihe:	Springer complexity
Schlagworte:	Vibration Mechanische Schwingung Nichtlineare Schwingung
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XXI, 404 S. graph. Darst.
ISBN:	3540401407

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Datensatz im Suchindex

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adam_text	CONTENTS XIII CONTENTS PREFACE. VII CONTENTS .XIII NOTATION. XXI 1 VIBRATION BASICS . 1 1.1 INTRODUCTION . 1 1.2 SINGLE DEGREE OF FREEDOM SYSTEMS. 2 1.2.1 UNDAMPED FREE VIBRATIONS . 2 1.2.2 DAMPED FREE VIBRATIONS . 2 1.2.3 HARMONIC FORCING . 3 1.2.4 ARBITRARY FORCING . 4 1.3 MULTIPLE DEGREE OF FREEDOM SYSTEMS . 4 1.3.1 EQUATIONS OF MOTION . 5 1.3.2 UNDAMPED FREE VIBRATIONS . 6 1.3.3 ORTHOGONALITY OF MODES. 7 1.3.4 DAMPED FREE VIBRATIONS . 7 1.3.5 HARMONICALLY FORCED VIBRATIONS, NO DAMPING . 7 1.3.6 HARMONICALLY FORCED VIBRATIONS, DAMPING INCLUDED . 8 1.3.7 GENERAL PERIODIC FORCING . 9 1.3.8 ARBITRARY FORCING, TRANSIENTS. 9 1.4 CONTINUOUS SYSTEMS . 10 1.4.1 EQUATIONS OF MOTION . 10 1.4.2 UNDAMPED FREE VIBRATIONS . 11 1.4.3 ORTHOGONALITY OF MODES. 12 1.4.4 NORMAL COORDINATES. 13 1.4.5 FORCED VIBRATIONS, NO DAMPING. 13 1.4.6 FORCED VIBRATIONS, DAMPING INCLUDED. 14 1.4.7 RAYLEIGHS METHOD. 15 1.4.8 RITZ METHOD . 16 1.5 ENERGY METHODS FOR SETTING UP EQUATIONS OF MOTION. 17 1.5.1 LAGRANGES EQUATIONS. 17 1.5.2 HAMILTONS PRINCIPLE . 18 XIV CONTENTS 1.5.3 FROM PDES TO ODES: MODE SHAPE EXPANSION. 21 1.5.4 BYPASSING PDES: USING LAGRANGES EQUATIONS WITH CONTINUOUS SYSTEMS. 23 1.6 PROBLEMS. 25 2 EIGENVALUE PROBLEMS OF VIBRATIONS AND STABILITY . 27 2.1 INTRODUCTION . 27 2.2 THE ALGEBRAIC EVP . 27 2.2.1 MATHEMATICAL FORM. 28 2.2.2 PROPERTIES OF EIGENVALUES AND EIGENVECTORS. 28 2.2.3 METHODS OF SOLUTION. 29 2.3 THE DIFFERENTIAL EVP. 29 2.3.1 MATHEMATICAL FORM. 30 2.4 STABILITY-RELATED EVPS. 31 2.4.1 THE CLAMPED-HINGED EULER COLUMN . 31 2.4.2 THE PARADOX OF FOLLOWER-LOADING . 34 2.4.3 BUCKLING BY GRAVITY. 35 2.5 VIBRATION-RELATED EVPS. 36 2.5.1 AXIAL VIBRATIONS OF STRAIGHT RODS. 36 2.5.2 FLEXURAL VIBRATIONS OF BEAMS . 37 2.6 CONCEPTS OF DIFFERENTIAL EVPS . 39 2.6.1 MULTIPLICITY . 40 2.6.2 CLASSES OF BOUNDARY CONDITIONS: ESSENTIAL AND SUPPRESSIBLE . 40 2.6.3 FUNCTION-CLASSES: EIGEN-, TEST-, AND ADMISSIBLE FUNCTIONS . 41 2.6.4 ADJOINTNESS . 41 2.6.5 DEFINITENESS . 42 2.6.6 ORTHOGONALITY. 43 2.6.7 THREE CLASSES OF EVPS. 43 2.6.8 THE RAYLEIGH QUOTIENT. 43 2.7 PROPERTIES OF EIGENVALUES AND EIGENFUNCTIONS . 44 2.7.1 REAL-VALUENESS OF EIGENVALUES . 44 2.7.2 SIGN OF THE EIGENVALUES . 44 2.7.3 ORTHOGONALITY OF EIGENFUNCTIONS. 45 2.7.4 MINIMUM PROPERTIES OF THE EIGENVALUES. 46 2.7.5 THE COMPARISON THEOREM . 47 2.7.6 THE INCLUSION THEOREM FOR ONE-TERM EVPS . 48 2.8 METHODS OF SOLUTION . 49 2.8.1 CLOSED-FORM SOLUTIONS . 50 2.8.2 THE METHOD OF EIGENFUNCTION ITERATION . 50 2.8.3 THE RAYLEIGHRITZ METHOD. 51 2.8.4 THE FINITE DIFFERENCE METHOD . 54 2.8.5 COLLOCATION. 58 2.8.6 COMPOSITE EVPS: DUNKERLEYS AND SOUTHWELLS FORMULAS. 59 2.8.7 OTHER METHODS . 60 CONTENTS XV 2.9 PROBLEMS. 60 3 NONLINEAR VIBRATIONS: CLASSICAL LOCAL THEORY . 65 3.1 INTRODUCTION . 65 3.2 SOURCES OF NONLINEARITY. 66 3.2.1 GEOMETRICAL NONLINEARITIES . 66 3.2.2 MATERIAL NONLINEARITIES . 68 3.2.3 NONLINEAR BODY FORCES . 69 3.2.4 PHYSICAL CONFIGURATION NONLINEARITIES . 70 3.3 MAIN EXAMPLE: PENDULUM WITH AN OSCILLATING SUPPORT . 71 3.3.1 EQUATION OF MOTION. 72 3.4 QUALITATIVE ANALYSIS OF THE UNFORCED RESPONSE. 73 3.4.1 RECASTING THE EQUATIONS INTO FIRST-ORDER FORM . 73 3.4.2 THE PHASE PLANE . 74 3.4.3 SINGULAR POINTS. 76 3.4.4 STABILITY OF SINGULAR POINTS . 77 3.4.5 ON THE BEHAVIOR OF ORBITS NEAR SINGULAR POINTS. 79 3.5 QUANTITATIVE ANALYSIS . 85 3.5.1 PERTURBATION METHODS. 85 3.5.2 THE STRAIGHTFORWARD EXPANSION . 86 3.5.3 THE METHOD OF MULTIPLE SCALES. 88 3.5.4 THE METHOD OF HARMONIC BALANCE. 92 3.5.5 THE METHOD OF AVERAGING. 94 3.6 THE FORCED RESPONSE MULTIPLE SCALES ANALYSIS. 96 3.6.1 POSING THE PROBLEM . 96 3.6.2 PERTURBATION EQUATIONS. 97 3.6.3 THE NON-RESONANT CASE. 99 3.6.4 THE NEAR-RESONANT CASE. 100 3.6.5 STABILITY OF STATIONARY SOLUTIONS . 102 3.6.6 DISCUSSING STATIONARY RESPONSES. 105 3.7 EXTERNALLY EXCITED DUFFING SYSTEMS . 110 3.7.1 TWO PHYSICAL EXAMPLES. 111 3.7.2 PRIMARY RESONANCE, WEAK EXCITATIONS . 116 3.7.3 NON-RESONANT HARD EXCITATIONS. 122 3.7.4 OBTAINING FORCED RESPONSES BY AVERAGING. 128 3.8 CONCLUDING REMARKS . 130 3.9 PROBLEMS. 130 4 NONLINEAR MULTIPLE-DOF SYSTEMS: LOCAL ANALYSIS . 137 4.1 INTRODUCTION . 137 4.2 THE AUTOPARAMETRIC VIBRATION ABSORBER. 138 4.2.1 THE SYSTEM . 138 4.2.2 FIRST-ORDER APPROXIMATE RESPONSE . 140 4.2.3 FREQUENCY AND FORCE RESPONSES . 144 XVI CONTENTS 4.2.4 CONCLUDING REMARKS ON THE VIBRATION ABSORBER. 147 4.3 NONLINEAR MODE-COUPLING OF NON-SHALLOW ARCHES. 147 4.3.1 THE MODEL. 148 4.3.2 LINEAR RESPONSE AND STABILITY . 149 4.3.3 NONLINEAR RESPONSE AND STABILITY. 150 4.4 OTHER SYSTEMS POSSESSING INTERNAL RESONANCE. 154 4.5 THE FOLLOWER-LOADED DOUBLE PENDULUM . 155 4.5.1 THE MODEL. 156 4.5.2 THE ZERO SOLUTION AND ITS STABILITY . 158 4.5.3 PERIODIC SOLUTIONS. 160 4.5.4 NON-PERIODIC AND NON-ZERO STATIC SOLUTIONS . 164 4.5.5 SUMMING UP. 164 4.6 PENDULUM WITH A SLIDING DISK. 165 4.6.1 INTRODUCTION. 165 4.6.2 THE SYSTEM . 165 4.6.3 EQUATIONS OF MOTION . 166 4.6.4 INSPECTING THE EQUATIONS OF MOTION. 167 4.6.5 SEEKING QUASI-STATICAL EQUILIBRIUMS BY AVERAGING . 167 4.7 STRING WITH A SLIDING POINTMASS . 168 4.7.1 MODEL SYSTEM AND EQUATIONS OF MOTION. 169 4.7.2 ILLUSTRATION OF SYSTEM BEHAVIOR . 172 4.7.3 RESPONSE TO NEAR-RESONANT BASE EXCITATION . 174 4.7.4 RESPONSE TO SLOW FREQUENCY-SWEEPS . 177 4.7.5 RESPONSE TO NEAR-RESONANT AXIAL EXCITATION . 179 4.7.6 NON-TRIVIAL EFFECTS OF ROTARY INERTIA. 182 4.7.7 SUMMING UP. 182 4.8 VIBRATION-INDUCED FLUID FLOW IN PIPES . 183 4.9 PROBLEMS. 185 5 BIFURCATIONS . 189 5.1 INTRODUCTION . 189 5.2 SYSTEMS, BIFURCATIONS, AND BIFURCATION CONDITIONS. 190 5.2.1 SYSTEMS. 190 5.2.2 BIFURCATIONS. 190 5.2.3 BIFURCATION CONDITIONS: STRUCTURAL INSTABILITY. 191 5.3 CODIMENSION ONE BIFURCATIONS OF EQUILIBRIUMS . 192 5.3.1 THE PITCHFORK BIFURCATION . 192 5.3.2 THE SADDLE-NODE BIFURCATION . 194 5.3.3 THE TRANSCRITICAL BIFURCATION. 195 5.3.4 THE HOPF BIFURCATION. 196 5.4 CODIMENSION ONE BIFURCATIONS FOR N -DIMENSIONAL SYSTEMS . 197 5.4.1 SADDLE-NODE CONDITIONS . 198 5.4.2 TRANSCRITICAL AND PITCHFORK CONDITIONS . 199 5.4.3 HOPF CONDITIONS. 200 CONTENTS XVII 5.5 CENTER MANIFOLD REDUCTION . 201 5.5.1 THE CENTER MANIFOLD THEOREM . 202 5.5.2 IMPLICATIONS OF THE THEOREM. 203 5.5.3 COMPUTING THE CENTER MANIFOLD REDUCTION. 204 5.5.4 AN EXAMPLE . 206 5.5.5 SUMMING UP ON CENTER MANIFOLD REDUCTION . 207 5.6 NORMAL FORM REDUCTION. 208 5.7 BIFURCATING PERIODIC SOLUTIONS . 209 5.8 GROUPING BIFURCATIONS ACCORDING TO THEIR EFFECT . 210 5.9 ON THE STABILITY OF BIFURCATIONS TO PERTURBATIONS . 211 5.9.1 STABILITY OF A SADDLE-NODE BIFURCATION. 211 5.9.2 STABILITY OF A SUPERCRITICAL PITCHFORK BIFURCATION. 212 5.10 SUMMING UP ON DIFFERENT NOTIONS OF STABILITY. 213 5.11 EXAMPLES . 215 5.11.1 MIDPLANE STRETCHING (DUFFINGS EQUATION) . 215 5.11.2 PENDULUM WITH A MOVING SUPPORT (PARAMETRIC EXCITATION) . 217 5.11.3 THE AUTOPARAMETRIC VIBRATION ABSORBER . 219 5.11.4 THE PARTIALLY FOLLOWER-LOADED DOUBLE PENDULUM. 221 5.12 PROBLEMS. 222 6 CHAOTIC VIBRATIONS . 225 6.1 INTRODUCTION . 225 6.2 A FIRST EXAMPLE. 227 6.3 TOOLS FOR DETECTING CHAOTIC VIBRATIONS. 229 6.3.1 PHASE PLANES. 229 6.3.2 FREQUENCY SPECTERS . 231 6.3.3 POINCARE MAPS. 231 6.3.4 LYAPUNOV EXPONENTS . 234 6.3.5 HORIZONS OF PREDICTABILITY . 238 6.3.6 ATTRACTOR DIMENSIONS . 240 6.3.7 BASINS OF ATTRACTION . 241 6.3.8 SUMMARY ON DETECTING TOOLS . 242 6.4 UNIVERSAL ROUTES TO CHAOS . 242 6.4.1 THE PERIOD-DOUBLING ROUTE. 243 6.4.2 THE QUASIPERIODIC ROUTE . 245 6.4.3 THE TRANSIENT ROUTE. 246 6.4.4 THE INTERMITTENCY ROUTE . 248 6.4.5 SUMMARY ON THE ROUTES TO CHAOS . 249 6.5 TOOLS FOR PREDICTING THE ONSET OF CHAOS . 249 6.5.1 CRITERIA RELATED TO THE UNIVERSAL ROUTES OF CHAOS . 249 6.5.2 SEARCHING FOR HOMOCLINIC TANGLES AND SMALE HORSESHOES. 251 6.5.3 THE MELNIKOV CRITERION . 255 6.5.4 CRITERIA BASED ON LOCAL PERTURBATION ANALYSIS. 259 6.5.5 CRITERIA FOR CONSERVATIVE CHAOS. 263 XVIII CONTENTS 6.6 MECHANICAL SYSTEMS AND CHAOS . 263 6.6.1 THE LORENZ SYSTEM ( D = 3) . 263 6.6.2 DUFFING-TYPE SYSTEMS ( D = 3). 264 6.6.3 PENDULUM-TYPE SYSTEMS ( D = 3). 265 6.6.4 PIECEWISE LINEAR SYSTEMS ( D 3) . 267 6.6.5 COUPLED AUTONOMOUS SYSTEMS ( D * 4) . 268 6.6.6 AUTOPARAMETRIC SYSTEMS ( D * 5) . 273 6.6.7 HIGH-ORDER SYSTEMS ( D 5). 277 6.6.8 OTHER SYSTEMS. 277 6.7 ELASTOSTATICAL CHAOS. 278 6.8 SPATIAL AND SPATIOTEMPORAL CHAOS. 281 6.9 CONTROLLING CHAOS . 282 6.10 CLOSING COMMENTS . 283 6.11 PROBLEMS. 284 7 SPECIAL EFFECTS OF HIGH-FREQUENCY EXCITATION. 287 7.1 INTRODUCTION . 287 7.2 THE METHOD OF DIRECT PARTITION OF MOTIONS (MDPM). 288 7.2.1 OUTLINE OF THE MDPM. 288 7.2.2 THE CONCEPT OF VIBRATIONAL FORCE . 291 7.2.3 THE MDPM COMPARED TO OTHER PERTURBATION APPROACHES. 291 7.3 SIMPLE EXAMPLES. 292 7.3.1 PENDULUM ON A VIBRATING SUPPORT (STIFFENING AND BIASING) . 292 7.3.2 MASS ON A VIBRATING PLANE (SMOOTHENING AND BIASING) . 297 7.3.3 BRUMBERGS PIPE (SMOOTHENING AND BIASING). 300 7.4 A SLIGHT BUT USEFUL GENERALIZATION . 302 7.5 A FAIRLY GENERAL CLASS OF DISCRETE SYSTEMS . 303 7.5.1 THE SYSTEM . 303 7.5.2 EXAMPLE FUNCTIONS . 304 7.5.3 THE AVERAGED SYSTEM GOVERNING THE SLOW* MOTIONS . 304 7.5.4 INTERPRETATION OF AVERAGED FORCING TERMS . 307 7.5.5 THE EFFECTS. 308 7.5.6 STIFFENING . 309 7.5.7 BIASING . 312 7.5.8 SMOOTHENING . 315 7.6 A GENERAL CLASS OF LINEAR CONTINUOUS SYSTEMS . 318 7.6.1 THE GENERALIZED NO-RESONANCE PREDICTION (GNRP). 320 7.6.2 THE GENERALIZED ANALYTICAL RESONANCE PREDICTION (GARP). 322 7.6.3 EXAMPLE 1: CLAMPED STRING WITH HF BASE EXCITATION. 324 7.6.4 EXAMPLE 2: SQUARE MEMBRANE WITH IN-PLANE HF EXCITATION. 325 7.7 SPECIFIC SYSTEMS AND RESULTS * SOME EXAMPLES . 327 7.7.1 USING HF EXCITATION TO QUENCH FRICTION-INDUCED VIBRATIONS . 327 7.7.2 DISPLACEMENT DUE TO HF EXCITATION AND ASYMMETRIC FRICTION . 329 7.7.3 CHELOMEIS PENDULUM RESOLVING A PARADOX. 329 CONTENTS XIX 7.7.4 STIFFENING OF A FLEXIBLE STRING. 332 7.8 CONCLUDING REMARKS . 333 7.9 PROBLEMS. 334 APPENDIX A * PERFORMING NUMERICAL SIMULATIONS . 339 A.1 SOLVING DIFFERENTIAL EQUATIONS . 339 A.2 COMPUTING CHAOS-RELATED QUANTITIES . 340 A.3 INTERFACING WITH THE ODE-SOLVER. 340 A.4 LOCATING SOFTWARE ON THE INTERNET . 343 APPENDIX B * MAJOR EXERCISES. 347 B.1 TENSION CONTROL OF ROTATING SHAFTS . 347 B.1.1 MATHEMATICAL MODEL . 348 B.1.2 EIGENVALUE PROBLEM, NATURAL FREQUENCIES AND MODE SHAPES . 348 B.1.3 DISCRETISATIONS, CHOICE OF CONTROL LAW . 349 B.1.4 LOCAL BIFURCATION ANALYSIS FOR A BALANCED SHAFT ( P = ME = 0) . 350 B.1.5 QUANTITATIVE ANALYSIS OF THE CONTROLLED SYSTEM . 351 B.1.6 USING A DITHER SIGNAL FOR OPEN-LOOP CONTROL . 352 B.1.7 NUMERICAL ANALYSIS OF THE CONTROLLED SYSTEM . 352 B.1.8 CONCLUSIONS. 353 B.2 VIBRATIONS OF A SPRING-TENSIONED BEAM. 353 B.2.1 MATHEMATICAL MODEL . 353 B.2.2 EIGENVALUE PROBLEM, NATURAL FREQUENCIES AND MODE SHAPES . 355 B.2.3 DISCRETE MODELS . 355 B.2.4 LOCAL BIFURCATION ANALYSIS FOR THE UNLOADED SYSTEM . 356 B.2.5 QUANTITATIVE ANALYSIS OF THE LOADED SYSTEM . 356 B.2.6 NUMERICAL ANALYSIS. 357 B.2.7 CONCLUSIONS. 358 B.3 DYNAMICS OF A MICROBEAM. 358 B.3.1 SYSTEM DESCRIPTION . 359 B.3.2 MATHEMATICAL MODEL . 360 B.3.3 EIGENVALUE PROBLEM, NATURAL FREQUENCIES AND MODE SHAPES . 361 B.3.4 DISCRETE MODELS, MODE SHAPE EXPANSION. 361 B.3.5 LOCAL BIFURCATION ANALYSIS FOR THE STATICALLY LOADED SYSTEM. 362 B.3.6 QUANTITATIVE ANALYSIS OF THE LOADED SYSTEM . 362 B.3.7 NUMERICAL ANALYSIS. 363 B.3.8 CONCLUSIONS. 364 APPENDIX C * MATHEMATICAL FORMULAS . 365 C.1 FORMULAS TYPICALLY USED IN PERTURBATION ANALYSIS . 365 C.1.1 COMPLEX NUMBERS. 365 C.1.2 POWERS OF TWO-TERM SUMS. 365 C.1.3 DIRACS DELTA FUNCTION ( ). 366 C.1.4 AVERAGING INTEGRALS:. 366 XX CONTENTS C.1.5 FOURIER SERIES OF A PERIODIC FUNCTION. 366 C.2 FORMULAS FOR STABILITY ANALYSIS . 366 C.2.1 THE ROUTH-HURWITZ CRITERION. 366 C.2.2 MATHIEUS EQUATION:STABILITY OF THE ZERO-SOLUTION . 367 APPENDIX D VIBRATION MODES AND FREQUENCIES FOR STRUCTURAL ELEMENTS. 371 D.1 RODS. 372 D.1.1 LONGITUDINAL VIBRATIONS . 372 D.1.2 TORSIONAL VIBRATIONS . 372 D.2 BEAMS . 372 D.2.1 BERNOULLI-EULER THEORY. 372 D.2.2 TIMOSHENKO THEORY. 373 D.3 RINGS. 375 D.3.1 IN-PLANE BENDING . 375 D.3.2 OUT-OF-PLANE BENDING . 376 D.3.3 EXTENSION . 376 D.4 MEMBRANES . 376 D.4.1 RECTANGULAR MEMBRANE. 376 D.4.2 CIRCULAR MEMBRANE . 377 D.5 PLATES . 377 D.5.1 RECTANGULAR PLATE . 377 D.5.2 CIRCULAR PLATE . 378 D.6 OTHER STRUCTURES. 378 APPENDIX E* PROPERTIES OF ENGINEERING MATERIALS . 379 E.1 FRICTION AND THERMAL EXPANSION COEFFICIENTS . 379 E.2 DENSITY AND ELASTICITY CONSTANTS. 380 REFERENCES. 381 INDEX. 393
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illustrated	Illustrated
indexdate	2024-08-01T00:27:52Z
institution	BVB
isbn	3540401407
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-010441263
oclc_num	249220963
open_access_boolean
owner	DE-91G DE-BY-TUM DE-20 DE-706 DE-634
owner_facet	DE-91G DE-BY-TUM DE-20 DE-706 DE-634
physical	XXI, 404 S. graph. Darst.
publishDate	2003
publishDateSearch	2003
publishDateSort	2003
publisher	Springer
record_format	marc
series2	Springer complexity
spelling	Thomsen, Jon Juel Verfasser aut Vibrations and stability advanced theory, analysis, and tools Jon Juel Thomsen 2. ed. Berlin [u.a.] Springer 2003 XXI, 404 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Springer complexity Vibration Mechanische Schwingung (DE-588)4138305-9 gnd rswk-swf Nichtlineare Schwingung (DE-588)4042100-4 gnd rswk-swf Mechanische Schwingung (DE-588)4138305-9 s DE-604 Nichtlineare Schwingung (DE-588)4042100-4 s SWB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=010441263&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Thomsen, Jon Juel Vibrations and stability advanced theory, analysis, and tools Vibration Mechanische Schwingung (DE-588)4138305-9 gnd Nichtlineare Schwingung (DE-588)4042100-4 gnd
subject_GND	(DE-588)4138305-9 (DE-588)4042100-4
title	Vibrations and stability advanced theory, analysis, and tools
title_auth	Vibrations and stability advanced theory, analysis, and tools
title_exact_search	Vibrations and stability advanced theory, analysis, and tools
title_full	Vibrations and stability advanced theory, analysis, and tools Jon Juel Thomsen
title_fullStr	Vibrations and stability advanced theory, analysis, and tools Jon Juel Thomsen
title_full_unstemmed	Vibrations and stability advanced theory, analysis, and tools Jon Juel Thomsen
title_short	Vibrations and stability
title_sort	vibrations and stability advanced theory analysis and tools
title_sub	advanced theory, analysis, and tools
topic	Vibration Mechanische Schwingung (DE-588)4138305-9 gnd Nichtlineare Schwingung (DE-588)4042100-4 gnd
topic_facet	Vibration Mechanische Schwingung Nichtlineare Schwingung
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=010441263&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT thomsenjonjuel vibrationsandstabilityadvancedtheoryanalysisandtools

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