Mechanical vibrations in spacecraft design: with 29 tables
Gespeichert in:
1. Verfasser: | |
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Format: | Buch |
Sprache: | English |
Veröffentlicht: |
Berlin [u.a.]
Springer
2004
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Schriftenreihe: | Engineering online library
|
Schlagworte: | |
Online-Zugang: | Inhaltsverzeichnis |
Beschreibung: | Literaturverz. S. 417 - 426 |
Beschreibung: | XVI, 436 S. graph. Darst. : 24 cm |
ISBN: | 3540405305 |
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adam_text | JAAP WIJKER MECHANICAL VIBRATIONS IN SPACECRAFT DESIGN WITH 120 FIGURES
AND 29 TABLES SPRINGER TABLE OF CONTENTS 1 INTRODUCTION 1 1.1 WHY
ANOTHER BOOK ABOUT MECHANICAL VIBRATIONS? 1 1.2 A SHORT OVERVIEW OF
THEORY 5 1.2.1 SINGLE DEGREE OF FREEDOM (SDOF) SYSTEMS 5 1.2.2 DAMPED
VIBRATIONS 6 1.2.3 MULTI-DEGREES OF FREEDOM (MDOF) DYNAMIC SYSTEMS 7
1.2.4 MODAL ANALYSIS 8 1.2.5 MODAL EFFECTIVE MASS 9 1.2.6 RESPONSE
ANALYSIS 9 1.2.7 TRANSIENT RESPONSE ANALYSIS 10 1.2.8 RANDOM VIBRATIONS
11 1.2.9 SHOCK-RESPONSE SPECTRUM 12 1.2.10 ACOUSTIC LOADS, STRUCTURAL
RESPONSES 13 1.2.11 STATISTICAL ENERGY ANALYSIS 13 1.2.12 INERTIA-RELIEF
14 1.2.13 MODE ACCELERATION METHOD 14 1.2.14 RESIDUAL VECTORS 14 1.2.15
DYNAMIC MODEL REDUCTION 15 1.2.16 COMPONENT MODEL SYNTHESIS 16 1.2.17
LOAD TRANSFORMATION MATRICES 17 1.3 PROBLEMS 17 1.3.1 PROBLEM 1 17 2
SINGLE DEGREE OF FREEDOM SYSTEM 19 2.1 INTRODUCTION 19 2.2 UNDAMPED SDOF
SYSTEM 20 2.2.1 SOLUTION OF AN SDOF SYSTEM WITH INITIAL CONDITIONS 23 X
TABLE OF CONTENTS 2.2.2 SOLUTION OF AN SDOF SYSTEM WITH APPLIED FORCES
24 2.3 DAMPED VIBRATION AND THE DAMPING RATIO 27 2.3.1 SOLUTION OF THE
SDOF SYSTEM IN THE TIME DOMAIN 29 2.3.2 SOLUTION OF THE DAMPED SDOF
SYSTEM WITH APPLIED FORCES 32 2.3.3 SOLUTION IN THE FREQUENCY DOMAIN 34
2.3.4 STATE SPACE REPRESENTATION OF THE SDOF SYSTEM 42 2.4 PROBLEMS 45
2.4.1 PROBLEM 1 45 2.4.2 PROBLEM 2 46 2.4.3 PROBLEM 3 46 2.4.4 PROBLEM 4
46 2.4.5 PROBLEM 5 47 2.4.6 PROBLEM 6 47 2.4.7 PROBLEM 7 47 2.4.8
PROBLEM 8 48 3 DAMPING MODELS 49 3.1 INTRODUCTION 49 3.2 DAMPED
VIBRATION 50 3.2.1 LINEAR DAMPING 50 3.2.2 VISCOUS DAMPING 51 3.2.3
STRUCTURAL DAMPING 51 3.2.4 LOSS FACTOR 52 3.3 AMPLIFICATION FACTOR 53
3.3.1 MODAL VISCOUS DAMPING 53 3.3.2 MODAL STRUCTURAL DAMPING 54 3.3.3
DISCUSSION OF MODAL DAMPING 55 3.4 METHOD OF DETERMINING DAMPING FROM
MEASUREMENTS 56 3.4.1 THE HALF-POWER POINT METHOD 56 3.5 PROBLEMS . 57
3.5.1 PROBLEM 1 57 3.5.2 PROBLEM 2 58 4 MULTI-DEGREES OF FREEDOM LINEAR
DYNAMIC SYSTEMS 59 4.1 INTRODUCTION 59 4.2 DERIVATION OF THE EQUATIONS
OF MOTION 60 4.2.1 UNDAMPED EQUATIONS OF MOTION WITH NEWTON S LAW 60
4.2.2 UNDAMPED EQUATIONS OF MOTION USING ENERGIES 62 4.2.3 UNDAMPED
EQUATIONS OF MOTION USING LAGRANGE S EQUATIONS 63 TABLE OF CONTENTS X
4.2.4 DAMPED EQUATIONS OF MOTION USING LAGRANGE S EQUATIONS 65 4.3
FINITE ELEMENT METHOD 70 4.4 PROBLEMS 70 4.4.1 PROBLEM 1 70 4.4.2
PROBLEM 2 71 5 MODAL ANALYSIS 73 5.1 INTRODUCTION 73 5.2 UNDAMPED LINEAR
DYNAMIC SYSTEMS 73 5.2.1 NATURAL FREQUENCIES AND MODE SHAPES : 74 5.2.2
ORTHOGONALITY RELATIONS OF MODES 77 5.2.3 RIGID-BODY MODES 80 5.2.4 LEFT
EIGENVECTORS 84 5.3 DAMPED LINEAR DYNAMIC SYSTEMS 86 5.3.1 THE STATE
VECTOR 86 5.3.2 EIGENVALUE PROBLEM 88 5.3.3 EIGENVECTORS 89 5.4 PROBLEMS
92 5.4.1 PROBLEM 1 92 5.4.2 PROBLEM 2 93 6 NATURAL FREQUENCIES, AN
APPROXIMATION 95 6.1 INTRODUCTION 95 6.2 STATIC DISPLACEMENT METHOD 95
6.3 RAYLEIGH S QUOTIENT 9& 6.4 DUNKERLEY S METHOD 101 6.5 PROBLEMS 107
6.5.1 PROBLEM 1 107 6.5.2 PROBLEM 2 107 6.5.3 PROBLEM 3 107 6.5.4
PROBLEM 4 108 6.5.5 PROBLEM 5 109 7 MODAL EFFECTIVE MASS 111 7.1
INTRODUCTION 111 7.2 ENFORCED ACCELERATION 111 7.3 MODAL EFFECTIVE
MASSES OF AN MDOF SYSTEM 114 7.4 PROBLEMS 122 XII TABLE OF CONTENTS
7.4.1 PROBLEM 1 I 122 7.4.2 PROBLEM 2 123 8 RESPONSE ANALYSIS 125 8.1
INTRODUCTION 125 8.2 FORCES AND ENFORCED ACCELERATION 125 8.2.1 RELATIVE
MOTIONS 126 8.2.2 ABSOLUTE MOTIONS 138 8.2.3 LARGE-MASS APPROACH 140 8.3
PROBLEMS 146 8.3.1 PROBLEM 1 146 8.3.2 PROBLEM 2 147 8.3.3 PROBLEM 3 148
9 TRANSIENT-RESPONSE ANALYSIS 149 9.1 INTRODUCTION 149 9.2 NUMERICAL
TIME INTEGRATION 151 9.2.1 DISCRETE SOLUTION CONVOLUTION INTEGRAL 151
9.2.2 EXPLICIT TIME-INTEGRATION METHOD 153 9.2.3 IMPLICIT
TIME-INTEGRATION METHODS 153 9.2.4 STABILITY 153 9.3 EXPLICIT
TIME-INTEGRATION 154 9.3.1 CENTRAL DIFFERENCE METHOD 154 9.3.2
RUNGE-KUTTA FORMULAE FOR FIRST-ORDER DIFFERENTIAL EQUATIONS 156 9.3.3
RUNGE-KUTTA-NYSTROEM METHOD FOR S-0 DIFFERENTIAL EQUATIONS 159 9.4
IMPLICIT TIME INTEGRATION 159 9.4.1 HOUBOLT METHOD 160 9.4.2
WILSON-THETA METHOD 162 9.4.3 NEWMARK-BETA METHOD 164 9.4.4 THE HUGHES,
HILBER AND TAYLOR (HHT) ALPHA-METHOD 166 9.4.5 THE WOOD, BOSSAK AND
ZIENKIEWICZ (WBZ) ALPHA-METHOD 167 9.4.6 THE GENERALISED-ALPHA ALGORITHM
168 9.5 PIECEWISE LINEAR METHOD 169 9.6 PROBLEMS 170 9.6.1 PROBLEM 1 170
9.6.2 PROBLEM 2 172 9.6.3 PROBLEM 3 : 172 TABLE OF CONTENTS XIII 10
SHOCK-RESPONSE SPECTRUM 173 10.1 INTRODUCTION 173 10.2 ENFORCED
ACCELERATION 174 10.3 NUMERICAL CALCULATION OF THE SRS, THE PIECEWISE
EXACT METHOD 176 10.4 RESPONSE ANALYSIS IN COMBINATION WITH
SHOCK-RESPONSE SPECTRA... 181 10.5 MATCHING SHOCK SPECTRA WITH
SYNTHESISED TIME HISTORIES 190 10.6 PROBLEMS 199 10.6.1 PROBLEM 1 199
10.6.2 PROBLEM 2 200 11 RANDOM VIBRATION OF LINEAR DYNAMIC SYSTEMS 201
11.1 INTRODUCTION 201 11.2 RANDOM PROCESS 201 11.3 POWER-SPECTRAL
DENSITY 207 11.4 DETERMINISTIC LINEAR DYNAMIC SYSTEM 212 11.4.1
FORCE-LOADED SDOF SYSTEM 214 11.4.2 ENFORCED ACCELERATION 216 11.4.3
MULTI-INPUTS AND SINGLE OUTPUT (MISO) 223 11.5 DETERMINISTIC MDOF LINEAR
DYNAMIC SYSTEM 224 11.5.1 RANDOM FORCES 224 11.5.2 RANDOM BASE
EXCITATION 227 11.5.3 RANDOM STRESSES AND FORCES 229 11.6 ANALYSIS OF
NARROW-BAND PROCESSES 234 11.6.1 CROSSINGS, 234 11.6.2 FATIGUE DAMAGE
DUE TO RANDOM EXCITATION 238 11.7 SOME PRACTICAL ASPECTS 241 11.8
PROBLEMS 244 11.8.1 PROBLEM 1 244 11.8.2 PROBLEM 2 244 11.8.3 PROBLEM 3
245 11.8.4 PROBLEM 4 245 11.8.5 PROBLEM 5 246 12 LOW-FREQUENCY ACOUSTIC
LOADS, STRUCTURAL RESPONSES 247 12.1 INTRODUCTION 247 12.2 ACOUSTIC
LOADS : 247 12.3 EQUATIONS OF MOTION 249 12.4 PROBLEMS 260 XIV TABLE OF
CONTENTS 12.4.1 PROBLEM 1 260 12.4.2 PROBLEM 2 261 13 STATISTICAL ENERGY
ANALYSIS..., 263 13.1 INTRODUCTION 263 13.2 SOME BASICS ABOUT AVERAGED
QUANTITIES 264 13.3 TWO COUPLED OSCILLATORS 270 13.4 MULTIMODE
SUBSYSTEMS 277 13.5 SEA PARAMETERS 283 13.5.1 SUBSYSTEM MODAL DENSITIES
283 13.5.2 SOURCE POWER INPUT 288 13.5.3 SUBSYSTEM ENERGIES 289 13.5.4
DAMPING LOSS FACTOR 294 13.5.5 COUPLING LOSS FACTOR 295 13.6 STRESSES
AND STRAINS 298 13.7 PROBLEMS 299 13.7.1 PROBLEM 1 299 13.7.2 PROBLEM 2
299 13.7.3 PROBLEM 3 300 13.7.4 PROBLEM4 300. 13.7.5 PROBLEM 5 300
13.7.6 PROBLEM 6 301 13.7.7 PROBLEM 7 301 13.7.8 PROBLEM 8 302 14
FREE-FREE DYNAMIC SYSTEMS, INERTIA RELIEF 303 14.1 INTRODUCTION 303 14.2
RELATIVE MOTION 303 14.3 RELATIVE FORCES 304 14.4 FLEXIBILITY MATRIX 307
14.5 PROBLEMS 310 14.5.1 PROBLEM 1 310 15 MODE ACCELERATION METHOD 313
15.1 INTRODUCTION 313 15.2 DECOMPOSITION OF FLEXIBILITY AND MASS MATRIX
313 15.2.1 DECOMPOSITION OF THE FLEXIBILITY MATRIX 313 15.2.2
DECOMPOSITION OF THE MASS MATRIX 315 TABLE OF CONTENTS X 15.2.3
CONVERGENCE PROPERTIES OF RECONSTRUCTED MATRICES 316 15.3 MODE
ACCELERATION METHOD 318 15.4 PROBLEMS 325 15.4.1 PROBLEM 1 325 15.4.2
PROBLEM 2 325 15.4.3 PROBLEM 3 326 15.4.4 PROBLEM 4 326 15.4.5 PROBLEM 5
327 16 RESIDUAL VECTORS 331 16.1 INTRODUCTION 331 16.2 RESIDUAL VECTORS
331 16.2.1 DICKENS METHOD 331 16.2.2 ROSE METHOD 334 16.3 PROBLEMS 340
16.3.1 PROBLEM 1 340 17 DYNAMIC MODEL REDUCTION METHODS 343 17.1
INTRODUCTION 343 17.2 STATIC CONDENSATION METHOD 344 17.2.1 IMPROVED
CALCULATION OF ELIMINATED DOFS 350 17.3 DYNAMIC REDUCTION 351 17.4
IMPROVED REDUCED SYSTEM (IRS) 352 17.5 CRAIG-BAMPTON REDUCED MODELS 355
17.6 GENERALISED DYNAMIC REDUCTION 358 17.7 SYSTEM EQUIVALENT REDUCTION
EXPANSION PROCESS (SEREP) 362 17.8 RITZ VECTORS 365 17.9 CONCLUSION 367
18 COMPONENT MODE SYNTHESIS 369 18.1 INTRODUCTION 369 18.2 THE UNIFIED
CMS METHOD 370 18.2.1 MODAL TRUNCATION 371 18.2.2 GENERAL SYNTHESIS OF
TWO COMPONENTS 372 18.2.3 GENERAL EXAMPLE 374 18.3 SPECIAL CMS METHODS
379 18.3.1 CRAIG-BAMPTON FIXED-INTERFACE METHOD 379 18.3.2
FREE-INTERFACE METHOD 384 XVI TABLE OF CONTENTS 18.3.3 GENERAL-PURPOSE
CMS METHOD ;....391 18.4 PROBLEMS 396 18.4.1 PROBLEM 1 396 18.4.2
PROBLEM 2 , 397 19 LOAD TRANSFORMATION MATRICES 399 19.1 INTRODUCTION
399 19.2 REDUCED MODEL WITH BOUNDARY CONDITIONS 400 19.3 REDUCED
FREE-FREE DYNAMIC MODEL 404 19.4 CONTINUOUS DYNAMIC SYSTEMS 409 19.5
PROBLEMS . 413 19.5.1 PROBLEM 1 413 19.5.2 PROBLEM 2 414 19.5.3 PROBLEM
3 415 19.5.4 PROBLEM 4 415 REFERENCES 417 AUTHOR INDEX 427 SUBJECT INDEX
431
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id | DE-604.BV019392819 |
illustrated | Illustrated |
indexdate | 2024-07-09T19:59:15Z |
institution | BVB |
isbn | 3540405305 |
language | English |
oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-012855441 |
oclc_num | 249564881 |
open_access_boolean | |
owner | DE-91G DE-BY-TUM DE-83 DE-706 |
owner_facet | DE-91G DE-BY-TUM DE-83 DE-706 |
physical | XVI, 436 S. graph. Darst. : 24 cm |
publishDate | 2004 |
publishDateSearch | 2004 |
publishDateSort | 2004 |
publisher | Springer |
record_format | marc |
series2 | Engineering online library |
spelling | Wijker, Jaap Verfasser aut Mechanical vibrations in spacecraft design with 29 tables Jaap Wijker Berlin [u.a.] Springer 2004 XVI, 436 S. graph. Darst. : 24 cm txt rdacontent n rdamedia nc rdacarrier Engineering online library Literaturverz. S. 417 - 426 Raumfahrzeug (DE-588)4048579-1 gnd rswk-swf Modalanalyse (DE-588)4226177-6 gnd rswk-swf Mechanische Schwingung (DE-588)4138305-9 gnd rswk-swf Raumfahrzeug (DE-588)4048579-1 s Mechanische Schwingung (DE-588)4138305-9 s DE-604 Modalanalyse (DE-588)4226177-6 s HEBIS Datenaustausch Darmstadt application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=012855441&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
spellingShingle | Wijker, Jaap Mechanical vibrations in spacecraft design with 29 tables Raumfahrzeug (DE-588)4048579-1 gnd Modalanalyse (DE-588)4226177-6 gnd Mechanische Schwingung (DE-588)4138305-9 gnd |
subject_GND | (DE-588)4048579-1 (DE-588)4226177-6 (DE-588)4138305-9 |
title | Mechanical vibrations in spacecraft design with 29 tables |
title_auth | Mechanical vibrations in spacecraft design with 29 tables |
title_exact_search | Mechanical vibrations in spacecraft design with 29 tables |
title_full | Mechanical vibrations in spacecraft design with 29 tables Jaap Wijker |
title_fullStr | Mechanical vibrations in spacecraft design with 29 tables Jaap Wijker |
title_full_unstemmed | Mechanical vibrations in spacecraft design with 29 tables Jaap Wijker |
title_short | Mechanical vibrations in spacecraft design |
title_sort | mechanical vibrations in spacecraft design with 29 tables |
title_sub | with 29 tables |
topic | Raumfahrzeug (DE-588)4048579-1 gnd Modalanalyse (DE-588)4226177-6 gnd Mechanische Schwingung (DE-588)4138305-9 gnd |
topic_facet | Raumfahrzeug Modalanalyse Mechanische Schwingung |
url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=012855441&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
work_keys_str_mv | AT wijkerjaap mechanicalvibrationsinspacecraftdesignwith29tables |