Verfügbarkeit: Design of ship hull structures

Design of ship hull structures: a practical guide for engineers

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Bibliographische Detailangaben
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Berlin ; Heidelberg Springer 2009
Schlagworte:	Konstruktion Strukturoptimierung Schiffsrumpf
Online-Zugang:	BTU01 FHN01 FHR01 Volltext Inhaltsverzeichnis
Beschreibung:	Literaturangaben
Beschreibung:	1 Online-Ressource (XV, 578 S.) graph. Darst. 24 cm
ISBN:	9783540884446 9783540884453
DOI:	10.1007/978-3-540-88445-3

Internformat

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245	1	0	\|a Design of ship hull structures \|b a practical guide for engineers \|c Yasuhisa Okumoto ...
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Datensatz im Suchindex

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adam_text	CONTENTS PART I FUNDAMENTALS 1 PHILOSOPHY OF HUELL STRUCTURE DESIGN 3 . 1 IMPORTANCE OF HUELL STRUCTURE DESIGN 3 .2 DESIGN PROCEDURE OF STRUCTURES 5 .3 HUELL STRUCTURE DESIGN POLICY 7 .4 BASIC IDEA OF HUELL STRUCTURE DESIGN 8 .5 STUDIES ON LOADS APPLIED 9 .6 RELIABLE DESIGN 10 2 STRUCTURAL DESIGN LOADS 17 2.1 INTRODUCTION 17 2.2 LONGITUDINAL STRENGTH LOAD 20 2.3 TRANSVERSE STRENGTH LOAD 23 2.4 SHIP RESPONSE CALCULATION IN WAVES 27 2.4.1 INTRODUCTION 27 2.4.2 STRIP METHOD 27 2.4.3 SHORT-TERM PREDICTION 28 2.4.4 LONG-TERM PREDICTION 30 3 STRENGTH EVALUATION 33 3.1 GENERAL 33 3.1.1 INTRODUCTION 33 3.1.2 PROCEDURE OF STRUCTURAL STRENGTH EVALUATION 33 3.2 STRESS AND STRAIN 37 3.2.1 STRESS PATTERN 37 3.2.2 BIAXIAL STRESS CONDITION [12] 38 3.2.3 COMBINATION OF NORMAL STRESS AND SHEARING STRESS [12].... 39 3.2.4 PRINCIPAL STRESS AND PRINCIPAL SHEARING STRESS F 12] 40 3.2.5 EQUIVALENT STRESS 42 3.2.6 EVALUATION OF STRESS CALCULATED BY FEM 43 3.3 EVALUATION OF STRESS 45 3.3.1 CRITERIA OF FAILURE 45 3.3.2 ALLOWABLE STRESS 47 BIBLIOGRAFISCHE INFORMATIONEN HTTP://D-NB.INFO/990358615 DIGITALISIERT DURCH CONTENTS 3.4 FATIGUE STRENGTH 49 3.4.1 INTRODUCTION 49 3.4.2 S-N CURVE 49 3.4.3 FATIGUE DAMAGE 52 3.5 BUECKLING OF SHIP STRUCTURE 54 3.5.1 INTRODUCTION 54 3.5.2 COLUMN BUECKLING 55 3.5.3 PLATE BUECKLING 57 3.6 PLASTIC STRENGTH 60 3.6.1 PHILOSOPHY OF PLASTIC STRENGTH 60 3.6.2 PLASTIC BENDING 62 3.6.3 PLASTIC SECTION MODULUS 64 3.6.4 COLLAPSE OF A BEAM 65 3.6.5 COLLAPSE OF A PLATE 68 3.7 VIBRATION IN SHIP 69 3.7.1 INTRODUCTION 69 3.7.2 BASIC THEORY OF SINGLE DEGREE OF FREEDOM VIBRATION SYSTEM 70 3.7.3 VIBRATION PROBLEMS IN SHIPS 74 3.7.4 VIBRATION PREVENTION DESIGN 75 3.8 SELECTION OF STRENGTH ANALYSIS METHOD 76 3.8.1 INTRODUCTION 76 3.8.2 TYPE OF ANALYSIS METHOD 77 3.8.3 ANALYSIS PROCEDURE 78 3.8.4 EVALUATION OF ANALYSIS RESULT 79 HUELL STRUCTURE DESIGN SYSTEM 81 4.1 DESIGN FLOW 81 4.2 BASIC DESIGN OF HUELL STRUCTURES 84 4.2.1 ROLE OF BASIC DESIGN 84 4.2.2 CHECK OF GENERAL ARRANGEMENT 87 4.2.3 CHECK OF OTHER DRAWINGS 87 4.2.4 OPTIMIZATION TECHNIQUE IN BASIC DESIGN PROCESS 88 4.3 STRUCTURAL DRAWINGS 90 4.3.1 APPROVAL DRAWINGS 90 4.3.2 DETAIL DRAWINGS 90 4.3.3 PRODUCTION DATA 92 4.4 STANDARDIZATION 92 4.5 NEGOTIATION WITH OWNER 95 PROGRESS IN SHIP DESIGN 97 5.1 INCREASE IN SHIP DIMENSIONS OF TANKERS 97 5.2 SPECIALIZATION OF SHIPS 100 5.3 CHANGE OF HUELL FORM 104 5.4 SHIP VIBRATION CAUSED BY SOCIO-ECONOMICAL CHANGE 105 5.5 REGULATIONS FOR ENVIRONMENTAL CONSERVATION 108 5.6 TECHNICAL INNOVATION 109 CONTENTS IX 6 MATERIALS 111 6.1 HUELL STEEL 111 6.2 GRADES OF STEEL 112 6.3 HIGHER-STRENGTH STEEL 116 6.4 STEEL SECTIONS 116 6.5 OTHER MATERIALS 117 6.6 SCATTERING OF MATERIAL PROPERTIES 117 6.7 SCATTERING OF PHYSICAL PROPERTIES 121 6.8 RESIDUAL STRESS [42] 122 7 FINITE ELEMENT METHOD 125 7.1 CHARACTERISTICS OF FEM 125 7.2 FUNDAMENTALS OF FEM 126 7.2.1 STIFFNESS MATRIX [44] 126 7.2.2 PLANE STRESS [43] 128 7.3 PROCEDURE OF FEM 130 7.4 APPLICATION OF FEM 133 7.4.1 MESH DIVISION 133 7.4.2 LOADING AND SUPPORTING CONDITION 134 7.4.3 DEGREES OF FREEDOM 136 REFERENCES 139 PART II THEORY DESIGN OF BEAMS 143 1.1 EFFECTIVE BREADTH OF ATTACHED PLATES 143 1.1.1 BENDING IN ELASTIC CONDITIONS 144 1.1.2 EFFECTIVE WIDTH AFTER PLATE BUECKLING 144 .2 SPAN POINT OF BEAMS 146 .3 DESIGN OF CROSS SECTION 149 1.3.1 CALCULATION OF SECTION MODULUS 150 .4 BENDING MOMENT 152 .5 EASY SOLUTION OF STATICALLY INDETERMINATE BEAMS 154 .6 BOUNDARY CONDITION 156 .7 CROSS-SECTIONAL AREA OF BEAMS 161 .8 OPTIMUM DESIGN OF BEAM SECTION 162 1.8.1 ELASTIC DESIGN 163 1.8.2 PLASTIC DESIGN 165 1.8.3 OPTIMAL PROPORTION FOR BEAMS 166 1.9 SIMPLY SUPPORTED BEAMS AND CONTINUOUS BEAMS 167 1.10 EFFECT OF STRUTS 170 1.11 ADDITIONAL BENDING MOMENT DUE TO FORCED DISPLACEMENT 172 1.12 LATERAL MOVEMENT OF BEAMS 174 CONTENTS DESIGN OF GIRDERS 177 2.1 SHEARING FORCE 177 2.2 RATIONAL DESIGN OF GIRDERS 181 2.3 BOTTOM TRANSVERSES SUPPORTED BY CENTERLINE GIRDER [5] 184 2.4 DEFLECTION OF GIRDERS 187 DAMAGE OF GIRDERS 191 3.1 BUECKLING CAUSED BY COMPRESSION 191 3.2 BUECKLING CAUSED BY BENDING 194 3.3 BUECKLING CAUSED BY SHEARING 195 3.4 BUECKLING CAUSED BY CONCENTRATED LOADS 199 3.5 CRACKS AROUND SLOT 202 3.5.1 CRACKS OF FIRST GENERATION [8] 202 3.5.2 CRACKS PROPAGATING INTO LONGITUDINALS 208 3.5.3 CRACKS AROUND SLOTS DUE TO SHEAR STRESS ON TRANSVERSES.... 210 DESIGN OF PILLARS 211 4.1 SLENDERNESS RATIO OF PILLARS 211 4.2 SECTIONAL SHAPE OF PILLARS 214 4.3 PILLAR SUPPORTING TENSILE FORCE 217 4.4 CONNECTION OF PILLAR AT TOP AND BOTTOM 219 4.5 CROSS TIES 221 4.6 RADIUS OF GYRATION OF SQUARE SECTION 224 DESIGN OF PLATES 227 5.1 BOUNDARY CONDITIONS OF PLATES 227 5.2 STRENGTH OF PLATES UNDER LATERAL LOADS 230 5.3 STRENGTH OF PLATES BY IN-PLANE LOADS 237 5.4 PLATES SUPPORTING BENDING AND COMPRESSION SIMULTANEOUSLY 242 5.5 STRESS CONCENTRATION AROUND OPENINGS 244 5.6 MATERIAL AND ROLL DIRECTION 248 5.7 DAMAGE OF PLATES 251 DESIGN OF STIFFENED PANEL 253 6.1 GRILLAGE STRUCTURE 254 6.2 OPTIMUM SPACE OF GIRDERS 257 6.3 OPTIMUM SPACE OF BEAMS 258 6.3.1 DESIGN CONDITION AGAINST LATERAL LOAD LIKE WATER PRESSURE. 258 6.3.2 DESIGN CONDITIONS FRON VIBRATION VIEWPOINT 259 6.3.3 MINIMUM PLATE THICKNESS 260 6.3.4 OPTIMUM BEAM SPACE 260 TORSION 267 7.1 OVERVIEW OF THE THEORY 267 7.2 TORSION THEORY OF CLOSED SECTION BARS 268 7.3 TORSIONAL RIGIDITY OF VARIOUS SECTIONS 274 CONTENTS XI 7.4 TORSION THEORY OF I-SECTION 277 7.5 TORSION THEORY OF OPEN SECTION BARS 279 8 DEFLECTION OF HUELL STRUCTURES 285 8.1 DEFLECTION OF HUELL GIRDER 286 8.2 DEFLECTION OF BEAMS WITH OPTIMUM SECTION 291 8.3 DEFLECTION OF GIRDERS AND WEB FRAMES 292 8.4 ADDITIONAL STRESS CAUSED BY DEFLECTION 293 8.5 SHEARING DEFLECTION 295 9 WELDING 297 9.1 BUTT WELDING 298 9.2 FILLET WELDING 302 9.3 FILLET WELDING WITH HIGHER STRENGTH ELECTRODE 308 9.4 WATER STOPPING WELDING 309 9.5 SCALLOP AND SERRATION 309 9.6 CONVERSION OF BUTT WELDING TO FILLET WELDING 311 9.7 LONG INTERMITTENT WELDING 314 9.8 SHRINKAGE OF DEPOSIT METAL 315 9.9 ONE SIDE WELDING 317 10 FRACTURE CONTROL 319 10.1 JACK-KNIFED FAILURE OF LIBERTY SHIPS 319 10.2 FRACTURE MECHANICS 321 10.2.1 PRINCIPLES 321 10.2.2 LINEAR FRACTURE MECHANICS 322 10.2.3 NON-LINEAR FRACTURE MECHANICS 324 10.2.4 FRACTURE TOUGHNESS 325 10.2.5 GRADE OF STEEL 325 10.3 FATIGUE STRENGTH DESIGN 328 10.3.1 CRACK PROPAGATION CALCULATION BY PARIS S EQUATION 328 10.3.2 FATIGUE STRENGTH DESIGN TAKING INTO ACCOUNT CONSTRUCTION TOLERANCES [39] 330 11 HUELL STRUCTURAL VIBRATION 335 11.1 INTRODUCTION 335 11.2 BASIC FEATURES OF HUELL STRUCTURE VIBRATION 336 11.3 OVERVIEW OF SHIP VIBRATION 338 11.4 BOUNDARY CONDITIONS OF HUELL STRUCTURE VIBRATION 341 11.5 CURRENT BOUNDARY CONDITIONS OF HUELL STRUCTURE VIBRATION 345 REFERENCES 349 X JJ CONTENTS PART III APPLICATIONS 1 HUELL STRUCTURE ARRANGEMENT 353 1.1 HOLD ARRANGEMENT 353 1.2 CRITERIA OF DESIGN OF HUELL STRUCTURE ARRANGEMENT 355 1.2.1 WING TANKS OF TANKERS 355 1.2.2 BULKHEAD ARRANGEMENT OF BULK CARRIERS 358 1.3 BULKHEAD ARRANGEMENT BEYOND CARGO HOLD 359 1.3.1 BOW CONSTRUCTION WITHOUT EXTENDED LONGITUDINAL BULKHEADS 360 1.3.2 ENGINE ROOM CONSTRUCTION WITHOUT EXTENDED LONGITUDINAL BULKHEADS 360 2 LONGITUDINAL STRENGTH OF HUELL GIRDER 363 2.1 ALLOWABLE STRESS FOR LONGITUDINAL STRENGTH 363 2.2 POSITION OF MAXIMUM LONGITUDINAL BENDING MOMENT 367 2.3 CALCULATION OF SECTION MODULUS OF HUELL GIRDER 369 2.4 LONGITUDINAL STRENGTH AND HUELL STEEL WEIGHT 370 2.5 APPLICATION OF HIGH TENSILE STEEL 372 2.6 LONGITUDINAL STRENGTH ANALYSIS IN WAVES 374 2.7 ARRANGEMENT OF LONGITUDINAL STRENGTH MEMBERS 379 2.8 STRESS CONCENTRATION ON LONGITUDINAL STRENGTH MEMBERS 381 2.9 ADDITIONAL BENDING OF LOCAL MEMBERS DUE TO HUELL GIRDER BENDING 383 2.10 LONGITUDINAL BENDING STRESS IN FORE & AFT PARTS OF SHIP 385 2.11 HUELL STEEL WEIGHT REDUCE TO ULTIMATE STRENGTH 386 3 TRANSVERSE STRENGTH OF SHIP 387 3.1 ALLOWABLE STRESS FOR TRANSVERSE STRENGTH 388 3.2 LONG TAPER & SNAKE HEAD 391 3.3 SHAPE OF BOTTOM TRANSVERSE IN CENTER TANK 392 3.4 SHAPE OF BOTTOM TRANSVERSE IN WING TANK 393 3.5 TRANSVERSE STRENGTH OF TANKER 394 3.5.1 CROSS TIES 394 3.5.2 LOAD APPLIED ON TRANSVERSE STRENGTH MEMBERS 397 3.5.3 INSIDE PRESSURE IN WIDE TANKS 399 3.5.4 CONNECTION BETWEEN TRANSVERSE RING AND SIDE SHELL 400 3.5.5 BUECKLING ON WEB OF TRANSVERSE RINGS 401 3.5.6 STRAIGHT TYPE AND CIRCULAR TYPE CONSTRUCTION 403 3.5.7 TRANSVERSE RINGS AT FORE & AFT PARTS OF TANK 405 3.6 TRANSVERSE STRENGTH OF ORE CARRIER 405 3.7 TRANSVERSE STRENGTH OF BULK CARRIER 410 3.8 TRANSVERSE STRENGTH OF CONTAINER SHIPS 415 CONTENTS TORSIONAL STRENGTH 417 4.1 STRUCTURAL DAMAGE DUE TO TORSION (EXAMPLE NO. 1) 418 4.2 STRUCTURAL DAMAGE DUE TO TORSION (EXAMPLE NO. 2) 420 SHELL STRUCTURE 423 5.1 THICKNESS OF SHELL PLATES 423 5.2 SHELL AT BOTTOM FORWARD 425 5.3 SHELL AT BOW FLARE 426 5.4 BILGE SHELL 428 5.5 SHELL NEAR STERN FRAME 428 5.6 SHELL DAMAGE 429 BULKHEADS 431 6.1 STRENGTH OF BULKHEAD PLATES 431 6.2 HORIZONTAL GIRDERS ON TRANSVERSE BULKHEADS (IN CENTER TANK) 433 6.3 HORIZONTAL GIRDER ARRANGEMENT ON BULKHEADS 436 6.4 VERTICAL STIFFENERS ON TRANSVERSE BULKHEADS 439 6.5 SWASH BULKHEADS 440 6.6 HORIZONTAL STIFFENERS ON TRANSVERSE BULKHEADS 443 6.7 MINIMUM THICKNESS OF LONGITUDINAL BULKHEAD PLATES 447 6.8 SHARING RATIO OF SHEARING FORCE 449 6.9 CORRUGATED BULKHEADS 451 6.10 HORIZONTAL GIRDERS ON CORRUGATED BULKHEADS 454 6.11 STIFFNESS OF CORRUGATED BULKHEADS AGAINST IN-PLANE LOADS 456 DECK STRUCTURE 461 7.1 STRESS CONCENTRATION AT HATCH CORNERS 461 7.1.1 GENERAL 461 7.1.2 CONTOUR SHAPE OPTIMIZATION OF CONTAINER SHIP HATCH CORNERS 464 7.2 DECK STRENGTH FOR LOCALLY DISTRIBUTED LOADS 467 7.3 DECK SUSTAINING UPWARD LOADS 471 7.4 DAMAGE TO DECK STRUCTURE 472 DOUBLE HUELL STRUCTURE 475 8.1 STRUCTURAL SYSTEM OF DOUBLE HUELL STRUCTURE 475 8.2 DOUBLE HUELL STRUCTURE AND SINGLE HUELL STRUCTURE 477 8.3 EXAMPLES OF DOUBLE HUELL STRUCTURES 478 8.3.1 CARGO SHIPS 478 8.3.2 TANKERS 479 8.3.3 CONTAINER SHIPS 480 8.3.4 NUCLEAR SHIPS 480 8.3.5 LARGE BULK CARRIERS 481 X J V CONTENTS 9 FORE CONSTRUCTION 483 9.1 STRUCTURAL ARRANGEMENT 483 9.2 STRUCTURE OF SHELL CONSTRUCTION 485 9.3 VERTICAL ACCELERATION DEPENDING ON PITCHING 486 9.4 DECK STRUCTURE 487 9.5 STRUCTURAL CONTINUITY 488 9.6 LARGE DAMAGE IN FORE CONSTRUCTION 488 10 ENGINE ROOM CONSTRUCTION 491 10.1 ENGINE AND PUMP ROOMS ARRANGEMENT 492 10.2 RIGIDITY CRITERIA IN ENGINE ROOM STRUCTURE DESIGN 494 10.2.1 DOUBLE BOTTOM IN ENGINE ROOM 495 10.2.2 PANEL, WEB, STIFFENER ETC 496 10.3 DESIGN OF STRUCTURAL MEMBERS IN ENGINE ROOM 497 10.4 GIRDERS AND FLOORS IN ENGINE ROOM DOUBLE BOTTOM 499 10.5 PROBLEMS CAUSED BY DEFLECTION OF ENGINE ROOM DOUBLE BOTTOM... 501 10.6 DEFLECTION OF ENGINE ROOM DOUBLE BOTTOM 503 10.6.1 BENDING AND SHEARING DEFLECTION OF HUELL GIRDER IN THE VICINITY OF ENGINE ROOM 503 10.6.2 DEFORMATION OF WEB FRAME WHICH SUPPORTS ENGINE ROOM DOUBLE BOTTOM 505 10.6.3 BENDING AND SHEARING DEFLECTIONS OF ENGINE ROOM DOUBLE BOTTOM ITSELF 505 10.7 ALLOWABLE LIMIT OF DEFLECTION OF ENGINE ROOM DOUBLE BOTTOM .... 506 10.8 CONTROL OF DEFLECTION OF ENGINE ROOM DOUBLE BOTTOM 509 10.9 SEA CHEST IN ENGINE ROOM DOUBLE BOTTOM 511 11 STERN CONSTRUCTION AND STERN FRAME 513 11.1 AFT PEAK TANK CONSTRUCTION 514 11.2 VIBRATION OF STERN STRUCTURE 515 11.2.1 VIBRATION OF STERN OVERHANG 515 11.2.2 TRANSVERSE VIBRATION OF STERN BOSSING OF A SINGLE SCREW VESSEL 518 11.2.3 VERTICAL VIBRATION OF TWIN BOSSING IN TWIN SCREW VESSEL... 518 11.3 STERN FRAME 521 12 VIBRATION PRAEVENTION 527 12.1 EXCITING FORCES 528 12. 12. 12. 12. 12. . 1 MAGNITUDE OF PROPELLER EXCITATION 529 .2 MAGNITUDE OF DIESEL ENGINE EXCITATION 532 .3 MAGNIFKATION OF EXCITING FORCE BY RESONATOR 534 .4 CANCELLATION OF EXCITING FORCE 541 .5 REDUCTION OF MAIN ENGINE EXCITING FORCE BY ELASTIC MOUNTING 543 CONTENTS XV 12.2 PREVENTION OF SHIP VIBRATION 545 12.2.1 FLEXURAL VIBRATION OF HUELL GIRDER 546 12.2.2 VIBRATION OF SUPERSTRUCTURE 548 12.2.3 ACTIVE MASS DAMPER FOR SUPERSTRUCTURE VIBRATION 550 12.2.4 VIBRATION OF IN-TANK STRUCTURES 552 12.2.5 CALCULATION METHODS OF NATURAL FREQUENCY OF IN- TANK STRUCTURES 552 13 SUPERSTRUCTURE 559 13.1 EXAMPLE OF DAMAGE TO LONG SUPERSTRUCTURES 559 13.2 INTERACTION OF SUPERSTRUCTURES AND MAIN HUELL 559 13.3 MAGNITUDE OF LONGITUDINAL BENDING STRESS 561 13.4 PREVENTION OF STRUCTURAL FAILURES 564 13.4.1 STRUCTURAL DISCONTINUITY 564 13.4.2 ROUND SHAPE OF SIDE WALL OPENING CORNER 565 13.4.3 BUECKLING 568 13.4.4 EXPANSION JOINTS 570 REFERENCES 571 INDEX 573
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illustrated	Not Illustrated
indexdate	2024-07-09T21:38:45Z
institution	BVB
isbn	9783540884446 9783540884453
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-017545171
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physical	1 Online-Ressource (XV, 578 S.) graph. Darst. 24 cm
psigel	ZDB-2-ENG
publishDate	2009
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publisher	Springer
record_format	marc
spelling	Design of ship hull structures a practical guide for engineers Yasuhisa Okumoto ... Berlin ; Heidelberg Springer 2009 1 Online-Ressource (XV, 578 S.) graph. Darst. 24 cm txt rdacontent c rdamedia cr rdacarrier Literaturangaben Konstruktion (DE-588)4032231-2 gnd rswk-swf Strukturoptimierung (DE-588)4183811-7 gnd rswk-swf Schiffsrumpf (DE-588)4198196-0 gnd rswk-swf Schiffsrumpf (DE-588)4198196-0 s Konstruktion (DE-588)4032231-2 s Strukturoptimierung (DE-588)4183811-7 s DE-604 Okumoto, Yasuhisa Sonstige oth https://doi.org/10.1007/978-3-540-88445-3 Verlag Volltext DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=017545171&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Design of ship hull structures a practical guide for engineers Konstruktion (DE-588)4032231-2 gnd Strukturoptimierung (DE-588)4183811-7 gnd Schiffsrumpf (DE-588)4198196-0 gnd
subject_GND	(DE-588)4032231-2 (DE-588)4183811-7 (DE-588)4198196-0
title	Design of ship hull structures a practical guide for engineers
title_auth	Design of ship hull structures a practical guide for engineers
title_exact_search	Design of ship hull structures a practical guide for engineers
title_full	Design of ship hull structures a practical guide for engineers Yasuhisa Okumoto ...
title_fullStr	Design of ship hull structures a practical guide for engineers Yasuhisa Okumoto ...
title_full_unstemmed	Design of ship hull structures a practical guide for engineers Yasuhisa Okumoto ...
title_short	Design of ship hull structures
title_sort	design of ship hull structures a practical guide for engineers
title_sub	a practical guide for engineers
topic	Konstruktion (DE-588)4032231-2 gnd Strukturoptimierung (DE-588)4183811-7 gnd Schiffsrumpf (DE-588)4198196-0 gnd
topic_facet	Konstruktion Strukturoptimierung Schiffsrumpf
url	https://doi.org/10.1007/978-3-540-88445-3 http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=017545171&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT okumotoyasuhisa designofshiphullstructuresapracticalguideforengineers

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