Verfügbarkeit: Fluid power with applications

Fluid power with applications:

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Bibliographische Detailangaben
1. Verfasser:	Esposito, Anthony (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Upper Saddle River, NJ Prentice-Hall 2003
Ausgabe:	6. ed.
Schlagworte:	Fluidique Fluid power technology Hydraulik Fluidtechnik
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XIV, 656 S.
ISBN:	0130608998

Internformat

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Datensatz im Suchindex

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adam_text	FLUID POWER WITH APPLICATIONS SIXTH EDITION ANTHONY ESPOSITO PROFESSOR EMERITUS DEPARTMENT OF MANUFACTURING ENGINEERING MIAMI UNIVERSITY OXFORD, OHIO PRENTICE HALL UPPER SADDLE RIVER, NEW JERSEY COLUMBUS, OHIO CONTENTS I INTRODUCTION TO FLUID POWER LEARNING OBJECTIVES 1 1.1 WHAT IS FLUID POWER? 1 1.2 HISTORY OF FLUID POWER 3 1.3 ADVANTAGES OF FLUID POWER 6 1.4 APPLICATIONS OF FLUID POWER 10 1.5 COMPONENTS OF A FLUID POWER SYSTEM 14 1.6 THE FLUID POWER INDUSTRY 17 EXERCISES 18 PHYSICAL PROPERTIES OF HYDRAULIC FLUIDS LEARNING OBJECTIVES 21 2.1 INTRODUCTION 21 2.2 FLUIDS: LIQUIDS AND GASES 23 2.3 SPECIFIC WEIGHT, DENSITY, AND SPECIFIC GRAVITY 25 2.4 FORCE, PRESSURE, AND HEAD 30 2.5 THE SI METRIC SYSTEM 37 2.6 BULK MODULUS 40 2.7 VISCOSITY 41 2.8 VISCOSITY INDEX 48 2.9 ILLUSTRATIVE EXAMPLES USING THE SI METRIC SYSTEM 51 2.10 KEY EQUATIONS 52 EXERCISES 53 21 VII VIII CONTENTS 3 ENERGY AND POWER IN HYDRAULIC 57 SYSTEMS LEARNING OBJECTIVES 57 3.1 INTRODUCTION 57 3.2 REVIEW OF MECHANICS 59 3.3 MULTIPLICATION OF FORCE (PASCAL S LAW) 65 3.4 APPLICATIONS OF PASCAL S LAW 69 3.5 CONSERVATION OF ENERGY 76 3.6 THE CONTINUITY EQUATION 77 3.7 HYDRAULIC POWER 79 3.8 BERNOULLI S EQUATION 84 3.9 TORRICELLI S THEOREM 91 3.10 THE SIPHON 93 3.11 ENERGY, POWER, AND FLOW RATE IN THE SI METRIC SYSTEM 94 3.12 ILLUSTRATIVE EXAMPLES USING THE SI METRIC SYSTEM 96 3.13 KEY EQUATIONS 99 EXERCISES 102 FT FRICTIONAL LOSSES IN HYDRAULIC PIPELINES 111 LEARNING OBJECTIVES 111 4.1 INTRODUCTION 111 4.2 LAMINAR AND TURBULENT FLOW 113 4.3 REYNOLDS NUMBER 114 4.4 DARCY S EQUATION 117 4.5 FRICTIONAL LOSSES IN LAMINAR FLOW 117 4.6 FRICTIONAL LOSSES IN TURBULENT FLOW 118 4.7 LOSSES IN VALVES AND FITTINGS 122 4.8 EQUIVALENT-LENGTH TECHNIQUE 127 4.9 HYDRAULIC CIRCUIT ANALYSIS 128 4.10 CIRCUIT ANALYSIS USING THE SI METRIC SYSTEM 131 4.11 KEY EQUATIONS 134 EXERCISES 135 E HYDRAULIC PUMPS 141 LEARNING OBJECTIVES 141 5.1 INTRODUCTION 142 CONTENTS 5.2 5.3 5.4 5.5 5.6 5.7 5.8 5.9 5.10 5.11 PUMPING THEORY 144 PUMP CLASSIFICATION 145 GEAR PUMPS 148 VANE PUMPS 156 PISTON PUMPS 162 PUMP PERFORMANCE 171 PUMP NOISE 178 PUMP SELECTION 184 PUMP PERFORMANCE RATINGS IN METRIC UNITS KEY EQUATIONS 188 EXERCISES 190 IX 185 HYDRAULIC CYLINDERS AND CUSHIONING DEVICES 195 LEARNING OBJECTIVES 195 6.1 INTRODUCTION 195 6.2 HYDRAULIC CYLINDER OPERATING FEATURES 197 6.3 CYLINDER MOUNTINGS AND MECHANICAL LINKAGES 199 6.4 CYLINDER FORCE, VELOCITY, AND POWER 201 6.5 CYLINDER LOADS DUE TO MOVING OF WEIGHTS 204 6.6 SPECIAL CYLINDER DESIGNS 207 6.7 CYLINDER LOADINGS THROUGH MECHANICAL LINKAGES 207 6.8 HYDRAULIC CYLINDER CUSHIONS 213 6.9 HYDRAULIC SHOCK ABSORBERS 216 6.10 KEY EQUATIONS 220 EXERCISES 222 HYDRAULIC MOTORS 227 LEARNING OBJECTIVES 227 7.1 INTRODUCTION 227 7.2 LIMITED ROTATION HYDRAULIC MOTORS 230 7.3 GEAR MOTORS 232 7.4 VANE MOTORS 235 7.5 PISTON MOTORS 238 7.6 HYDRAULIC MOTOR THEORETICAL TORQUE, POWER, AND FLOW-RATE 240 7.7 HYDRAULIC MOTOR PERFORMANCE 244 7.8 HYDROSTATIC TRANSMISSIONS 248 8 CONTENTS 7.9 HYDRAULIC MOTOR PERFORMANCE IN METRIC UNITS 251 7.10 KEY EQUATIONS 253 EXERCISES 255 HYDRAULIC VALVES 260 LEARNING OBJECTIVES 260 8.1 INTRODUCTION 261 8.2 DIRECTI6NAL CONTROL VALVES 262 8.3 PRESSURE CONTROL VALVES 275 8.4 FLOW CONTROL VALVES 284 8.5 SERVO VALVES 292 8.6 PROPORTIONAL CONTROL VALVES 295 8.7 CARTRIDGE VALVES 296 8.8 HYDRAULIC FUSES 303 8.9 KEY EQUATIONS 304 EXERCISES 304 HYDRAULIC CIRCUIT DESIGN AND ANALYSIS 308 LEARNING OBJECTIVES 308 9.1 INTRODUCTION 308 9.2 CONTROL OF A SINGLE-ACTING HYDRAULIC CYLINDER 309 9.3 CONTROL OF A DOUBLE-ACTING HYDRAULIC CYLINDER 310 9.4 REGENERATIVE CYLINDER CIRCUIT 312 9.5 PUMP-UNLOADING CIRCUIT 316 9.6 DOUBLE-PUMP HYDRAULIC SYSTEM 317 9.7 COUNTERBALANCE VALVE APPLICATION 320 9.8 HYDRAULIC CYLINDER SEQUENCING CIRCUITS 321 9.9 AUTOMATIC CYLINDER RECIPROCATING SYSTEM 322 9.10 LOCKED CYLINDER USING PILOT CHECK VALVES 322 9.11 CYLINDER SYNCHRONIZING CIRCUITS 323 9.12 FAIL-SAFE CIRCUITS 325 9.13 SPEED CONTROL OF A HYDRAULIC CYLINDER 328 9.14 SPEED CONTROL OF A HYDRAULIC MOTOR 332 9.15 HYDRAULIC MOTOR BRAKING SYSTEM 332 9.16 HYDROSTATIC TRANSMISSION SYSTEM 333 9.17 AIR-OVER-OIL CIRCUIT 335 9.18 ANALYSIS OF HYDRAULIC SYSTEM WITH FRICTIONAL LOSSES CONSIDERED 335 CONTENTS XI 9.19 MECHANICAL-HYDRAULIC SERVO SYSTEM 339 9.20 KEY EQUATIONS 340 EXERCISES 340 I A HYDRAULIC CONDUCTORS AND FITTINGS 349 LEARNING OBJECTIVES 349 10.1 INTRODUCTION 349 10.2 CONDUCTOR SIZING FOR FLOW RATE REQUIREMENTS 350 10.3 PRESSURE RATING OF CONDUCTORS 352 10.4 STEEL PIPES 356 10.5 STEEL TUBING 360 10.6 PLASTIC TUBING 365 10.7 FLEXIBLE HOSES 365 10.8 QUICK DISCONNECT COUPLINGS 371 10.9 METRIC STEEL TUBING 371 10.10 KEY EQUATIONS 374 EXERCISES 374 11 ANCILLARY HYDRAULIC DEVICES 377 LEARNING OBJECTIVES 377 11.1 INTRODUCTION 377 11.2 RESERVOIRS 378 11.3 ACCUMULATORS 381 11.4 PRESSURE INTENSIFIERS 392 11.5 SEALING DEVICES 395 11.6 HEAT EXCHANGERS 406 11.7 PRESSURE GAGES 410 11.8 FLOWMETERS 412 11.9 KEY EQUATIONS 416 EXERCISES 416 1 O MAINTENANCE OF HYDRAULIC SYSTEMS 420 LEARNING OBJECTIVES 420 12.1 INTRODUCTION 421 12.2 OXIDATION AND CORROSION OF HYDRAULIC FLUIDS 423 12.3 FIRE-RESISTANT FLUIDS 424 XII CONTENTS 12.4 FOAM-RESISTANT FLUIDS 426 12.5 FLUID LUBRICATING ABILITY 426 12.6 FLUID NEUTRALIZATION NUMBER 427 12.7 PETROLEUM-BASE VERSUS FIRE-RESISTANT FLUIDS 427 12.8 MAINTAINING AND DISPOSING OF FLUIDS 428 12.9 FILTERS AND STRAINERS 429 12.10 BETA RATIO OF FILTERS 434 12.11 FLUID CLEANLINESS LEVELS 436 12.12 WEAR OF MOVING PARTS DUE TO SOLID-PARTICLE CONTAMINATION OF THE FLUID 438 12.13 PROBLEMS CAUSED BY GASES IN HYDRAULIC FLUIDS 439 12.14 TROUBLESHOOTING HYDRAULIC SYSTEMS 442 12.15 SAFETY CONSIDERATIONS 446 12.16 ENVIRONMENTAL ISSUES 446 12.17 KEY EQUATIONS 447 EXERCISES 448 \| Q PNEUMATICS: AIR PREPARATION I O AND COMPONENTS 450 LEARNING OBJECTIVES 450 13.1 INTRODUCTION 451 13.2 PROPERTIES OF AIR 452 13.3 THE PERFECT GAS LAWS 454 13.4 COMPRESSORS 460 13.5 FLUID CONDITIONERS 469 13.6 ANALYSIS OF MOISTURE REMOVAL FROM AIR 477 13.7 AIR FLOW RATE CONTROL WITH ORIFICES 480 13.8 AIR CONTROL VALVES 482 13.9 PNEUMATIC ACTUATORS 490 13.10 KEY EQUATIONS 498 EXERCISES 499 14 PNEUMATICS: CIRCUITS AND APPLICATIONS 504 LEARNING OBJECTIVES 504 14.1 INTRODUCTION 504 14.2 PNEUMATIC CIRCUIT DESIGN CONSIDERATIONS 507 14.3 AIR PRESSURE LOSSES IN PIPELINES 508 14.4 ECONOMIC COST OF ENERGY LOSSES IN PNEUMATIC SYSTEMS 510 CONTENTS XIII 14.5 BASIC PNEUMATIC CIRCUITS 512 14.6 PNEUMATIC VACUUM SYSTEMS 518 14.7 SIZING OF GAS-LOADED ACCUMULATORS 522 14.8 PNEUMATIC CIRCUIT ANALYSIS USING METRIC UNITS 525 14.9 KEY EQUATIONS 528 EXERCISES 528 15 16 17 BASIC ELECTRICAL CONTROLS FOR FLUID POWER CIRCUITS 535 LEARNING OBJECTIVES 535 15.1 INTRODUCTION 535 15.2 ELECTRICAL COMPONENTS 539 15.3 CONTROL OF A CYLINDER USING A SINGLE LIMIT SWITCH 542 15.4 RECIPROCATION OF A CYLINDER USING PRESSURE OR LIMIT SWITCHES 543 15.5 DUAL-CYLINDER SEQUENCE CIRCUITS 544 15.6 BOX-SORTING SYSTEM 545 15.7 ELECTRICAL CONTROL OF REGENERATIVE CIRCUIT 548 15.8 COUNTING, TIMING, AND RECIPROCATION OF HYDRAULIC CYLINDER 549 EXERCISES 551 FLUID LOGIC CONTROL SYSTEMS 555 LEARNING OBJECTIVES 555 16.1 INTRODUCTION 555 16.2 MOVING-PART LOGIC (MPL) CONTROL SYSTEMS 557 16.3 MPL CONTROL OF FLUID POWER CIRCUITS 561 16.4 INTRODUCTION TO BOOLEAN ALGEBRA 565 16.5 ILLUSTRATIVE EXAMPLES USING BOOLEAN ALGEBRA 571 16.6 KEY EQUATIONS 576 EXERCISES 576 ADVANCED ELECTRICAL CONTROLS 580 FOR FLUID POWER SYSTEMS LEARNING OBJECTIVES 580 17.1 INTRODUCTION 580 17.2 COMPONENTS OF AN ELECTROHYDRAULIC SERVO SYSTEM 585 17.3 ANALYSIS OF ELECTROHYDRAULIC SERVO SYSTEMS 588 XIV CONTENTS 17.4 PROGRAMMABLE LOGIC CONTROLLERS (PLCS) 596 17.5 KEY EQUATIONS 606 EXERCISES 607 APPENDIXES A SIZES OF. STEEL PIPE (ENGLISH UNITS) 611 B SIZES OF STEEL PIPE (METRIC UNITS) 613 C SIZES OF STEEL TUBING (ENGLISH UNITS) 615 D SIZES OF STEEL TUBING (METRIC UNITS) 617 E UNIT CONVERSION FACTORS 618 F NOMENCLATURE 620 G FLUID POWER SYMBOLS 623 H ANSWERS TO SELECTED ODD-NUMBERED EXERCISES 626 I DERIVATION OF KEY EQUATIONS 631 J COMPUTER ANALYSIS OF FLUID POWER SYSTEMS 636 K EXERCISES FOR COMPUTER SOLUTIONS 644 INDEX 647
adam_txt	FLUID POWER WITH APPLICATIONS SIXTH EDITION ANTHONY ESPOSITO PROFESSOR EMERITUS DEPARTMENT OF MANUFACTURING ENGINEERING MIAMI UNIVERSITY OXFORD, OHIO PRENTICE HALL UPPER SADDLE RIVER, NEW JERSEY COLUMBUS, OHIO CONTENTS I INTRODUCTION TO FLUID POWER LEARNING OBJECTIVES 1 1.1 WHAT IS FLUID POWER? 1 1.2 HISTORY OF FLUID POWER 3 1.3 ADVANTAGES OF FLUID POWER 6 1.4 APPLICATIONS OF FLUID POWER 10 1.5 COMPONENTS OF A FLUID POWER SYSTEM 14 1.6 THE FLUID POWER INDUSTRY 17 EXERCISES 18 PHYSICAL PROPERTIES OF HYDRAULIC FLUIDS LEARNING OBJECTIVES 21 2.1 INTRODUCTION 21 2.2 FLUIDS: LIQUIDS AND GASES 23 2.3 SPECIFIC WEIGHT, DENSITY, AND SPECIFIC GRAVITY 25 2.4 FORCE, PRESSURE, AND HEAD 30 2.5 THE SI METRIC SYSTEM 37 2.6 BULK MODULUS 40 2.7 VISCOSITY 41 2.8 VISCOSITY INDEX 48 2.9 ILLUSTRATIVE EXAMPLES USING THE SI METRIC SYSTEM 51 2.10 KEY EQUATIONS 52 EXERCISES 53 21 VII VIII CONTENTS 3 ENERGY AND POWER IN HYDRAULIC 57 SYSTEMS LEARNING OBJECTIVES 57 3.1 INTRODUCTION 57 3.2 REVIEW OF MECHANICS 59 3.3 MULTIPLICATION OF FORCE (PASCAL'S LAW) 65 3.4 APPLICATIONS OF PASCAL'S LAW 69 3.5 CONSERVATION OF ENERGY 76 3.6 THE CONTINUITY EQUATION 77 3.7 HYDRAULIC POWER 79 3.8 BERNOULLI'S EQUATION 84 3.9 TORRICELLI'S THEOREM 91 3.10 THE SIPHON 93 3.11 ENERGY, POWER, AND FLOW RATE IN THE SI METRIC SYSTEM 94 3.12 ILLUSTRATIVE EXAMPLES USING THE SI METRIC SYSTEM 96 3.13 KEY EQUATIONS 99 EXERCISES 102 FT FRICTIONAL LOSSES IN HYDRAULIC PIPELINES 111 LEARNING OBJECTIVES 111 4.1 INTRODUCTION 111 4.2 LAMINAR AND TURBULENT FLOW 113 4.3 REYNOLDS NUMBER 114 4.4 DARCY'S EQUATION 117 4.5 FRICTIONAL LOSSES IN LAMINAR FLOW 117 4.6 FRICTIONAL LOSSES IN TURBULENT FLOW 118 4.7 LOSSES IN VALVES AND FITTINGS 122 4.8 EQUIVALENT-LENGTH TECHNIQUE 127 4.9 HYDRAULIC CIRCUIT ANALYSIS 128 4.10 CIRCUIT ANALYSIS USING THE SI METRIC SYSTEM 131 4.11 KEY EQUATIONS 134 EXERCISES 135 E HYDRAULIC PUMPS 141 LEARNING OBJECTIVES 141 5.1 INTRODUCTION 142 CONTENTS 5.2 5.3 5.4 5.5 5.6 5.7 5.8 5.9 5.10 5.11 PUMPING THEORY 144 PUMP CLASSIFICATION 145 GEAR PUMPS 148 VANE PUMPS 156 PISTON PUMPS 162 PUMP PERFORMANCE 171 PUMP NOISE 178 PUMP SELECTION 184 PUMP PERFORMANCE RATINGS IN METRIC UNITS KEY EQUATIONS 188 EXERCISES 190 IX 185 HYDRAULIC CYLINDERS AND CUSHIONING DEVICES 195 LEARNING OBJECTIVES 195 6.1 INTRODUCTION 195 6.2 HYDRAULIC CYLINDER OPERATING FEATURES 197 6.3 CYLINDER MOUNTINGS AND MECHANICAL LINKAGES 199 6.4 CYLINDER FORCE, VELOCITY, AND POWER 201 6.5 CYLINDER LOADS DUE TO MOVING OF WEIGHTS 204 6.6 SPECIAL CYLINDER DESIGNS 207 6.7 CYLINDER LOADINGS THROUGH MECHANICAL LINKAGES 207 6.8 HYDRAULIC CYLINDER CUSHIONS 213 6.9 HYDRAULIC SHOCK ABSORBERS 216 6.10 KEY EQUATIONS 220 EXERCISES 222 HYDRAULIC MOTORS 227 LEARNING OBJECTIVES 227 7.1 INTRODUCTION 227 7.2 LIMITED ROTATION HYDRAULIC MOTORS 230 7.3 GEAR MOTORS 232 7.4 VANE MOTORS 235 7.5 PISTON MOTORS 238 7.6 HYDRAULIC MOTOR THEORETICAL TORQUE, POWER, AND FLOW-RATE 240 7.7 HYDRAULIC MOTOR PERFORMANCE 244 7.8 HYDROSTATIC TRANSMISSIONS 248 8 CONTENTS 7.9 HYDRAULIC MOTOR PERFORMANCE IN METRIC UNITS 251 7.10 KEY EQUATIONS 253 EXERCISES 255 HYDRAULIC VALVES 260 LEARNING OBJECTIVES 260 8.1 INTRODUCTION 261 8.2 DIRECTI6NAL CONTROL VALVES 262 8.3 PRESSURE CONTROL VALVES 275 8.4 FLOW CONTROL VALVES 284 8.5 SERVO VALVES 292 8.6 PROPORTIONAL CONTROL VALVES 295 8.7 CARTRIDGE VALVES 296 8.8 HYDRAULIC FUSES 303 8.9 KEY EQUATIONS 304 EXERCISES 304 HYDRAULIC CIRCUIT DESIGN AND ANALYSIS 308 LEARNING OBJECTIVES 308 9.1 INTRODUCTION 308 9.2 CONTROL OF A SINGLE-ACTING HYDRAULIC CYLINDER 309 9.3 CONTROL OF A DOUBLE-ACTING HYDRAULIC CYLINDER 310 9.4 REGENERATIVE CYLINDER CIRCUIT 312 9.5 PUMP-UNLOADING CIRCUIT 316 9.6 DOUBLE-PUMP HYDRAULIC SYSTEM 317 9.7 COUNTERBALANCE VALVE APPLICATION 320 9.8 HYDRAULIC CYLINDER SEQUENCING CIRCUITS 321 9.9 AUTOMATIC CYLINDER RECIPROCATING SYSTEM 322 9.10 LOCKED CYLINDER USING PILOT CHECK VALVES 322 9.11 CYLINDER SYNCHRONIZING CIRCUITS 323 9.12 FAIL-SAFE CIRCUITS 325 9.13 SPEED CONTROL OF A HYDRAULIC CYLINDER 328 9.14 SPEED CONTROL OF A HYDRAULIC MOTOR 332 9.15 HYDRAULIC MOTOR BRAKING SYSTEM 332 9.16 HYDROSTATIC TRANSMISSION SYSTEM 333 9.17 AIR-OVER-OIL CIRCUIT 335 9.18 ANALYSIS OF HYDRAULIC SYSTEM WITH FRICTIONAL LOSSES CONSIDERED 335 CONTENTS XI 9.19 MECHANICAL-HYDRAULIC SERVO SYSTEM 339 9.20 KEY EQUATIONS 340 EXERCISES 340 I A HYDRAULIC CONDUCTORS AND FITTINGS 349 LEARNING OBJECTIVES 349 10.1 INTRODUCTION 349 10.2 CONDUCTOR SIZING FOR FLOW RATE REQUIREMENTS 350 10.3 PRESSURE RATING OF CONDUCTORS 352 10.4 STEEL PIPES 356 10.5 STEEL TUBING 360 10.6 PLASTIC TUBING 365 10.7 FLEXIBLE HOSES 365 10.8 QUICK DISCONNECT COUPLINGS 371 10.9 METRIC STEEL TUBING 371 10.10 KEY EQUATIONS 374 EXERCISES 374 11 ANCILLARY HYDRAULIC DEVICES 377 LEARNING OBJECTIVES 377 11.1 INTRODUCTION 377 11.2 RESERVOIRS 378 11.3 ACCUMULATORS 381 11.4 PRESSURE INTENSIFIERS 392 11.5 SEALING DEVICES 395 11.6 HEAT EXCHANGERS 406 11.7 PRESSURE GAGES 410 11.8 FLOWMETERS 412 11.9 KEY EQUATIONS 416 EXERCISES 416 1 O MAINTENANCE OF HYDRAULIC SYSTEMS 420 LEARNING OBJECTIVES 420 12.1 INTRODUCTION 421 12.2 OXIDATION AND CORROSION OF HYDRAULIC FLUIDS 423 12.3 FIRE-RESISTANT FLUIDS 424 XII CONTENTS 12.4 FOAM-RESISTANT FLUIDS 426 12.5 FLUID LUBRICATING ABILITY 426 12.6 FLUID NEUTRALIZATION NUMBER 427 12.7 PETROLEUM-BASE VERSUS FIRE-RESISTANT FLUIDS 427 12.8 MAINTAINING AND DISPOSING OF FLUIDS 428 12.9 FILTERS AND STRAINERS 429 12.10 BETA RATIO OF FILTERS 434 12.11 FLUID CLEANLINESS LEVELS 436 12.12 WEAR OF MOVING PARTS DUE TO SOLID-PARTICLE CONTAMINATION OF THE FLUID 438 12.13 PROBLEMS CAUSED BY GASES IN HYDRAULIC FLUIDS 439 12.14 TROUBLESHOOTING HYDRAULIC SYSTEMS 442 12.15 SAFETY CONSIDERATIONS 446 12.16 ENVIRONMENTAL ISSUES 446 12.17 KEY EQUATIONS 447 EXERCISES 448 \| Q PNEUMATICS: AIR PREPARATION I O AND COMPONENTS 450 LEARNING OBJECTIVES 450 13.1 INTRODUCTION 451 13.2 PROPERTIES OF AIR 452 13.3 THE PERFECT GAS LAWS 454 13.4 COMPRESSORS 460 13.5 FLUID CONDITIONERS 469 13.6 ANALYSIS OF MOISTURE REMOVAL FROM AIR 477 13.7 AIR FLOW RATE CONTROL WITH ORIFICES 480 13.8 AIR CONTROL VALVES 482 13.9 PNEUMATIC ACTUATORS 490 13.10 KEY EQUATIONS 498 EXERCISES 499 14 PNEUMATICS: CIRCUITS AND APPLICATIONS 504 LEARNING OBJECTIVES 504 14.1 INTRODUCTION 504 14.2 PNEUMATIC CIRCUIT DESIGN CONSIDERATIONS 507 14.3 AIR PRESSURE LOSSES IN PIPELINES 508 14.4 ECONOMIC COST OF ENERGY LOSSES IN PNEUMATIC SYSTEMS 510 CONTENTS XIII 14.5 BASIC PNEUMATIC CIRCUITS 512 14.6 PNEUMATIC VACUUM SYSTEMS 518 14.7 SIZING OF GAS-LOADED ACCUMULATORS 522 14.8 PNEUMATIC CIRCUIT ANALYSIS USING METRIC UNITS 525 14.9 KEY EQUATIONS 528 EXERCISES 528 15 16 17 BASIC ELECTRICAL CONTROLS FOR FLUID POWER CIRCUITS 535 LEARNING OBJECTIVES 535 15.1 INTRODUCTION 535 15.2 ELECTRICAL COMPONENTS 539 15.3 CONTROL OF A CYLINDER USING A SINGLE LIMIT SWITCH 542 15.4 RECIPROCATION OF A CYLINDER USING PRESSURE OR LIMIT SWITCHES 543 15.5 DUAL-CYLINDER SEQUENCE CIRCUITS 544 15.6 BOX-SORTING SYSTEM 545 15.7 ELECTRICAL CONTROL OF REGENERATIVE CIRCUIT 548 15.8 COUNTING, TIMING, AND RECIPROCATION OF HYDRAULIC CYLINDER 549 EXERCISES 551 FLUID LOGIC CONTROL SYSTEMS 555 LEARNING OBJECTIVES 555 16.1 INTRODUCTION 555 16.2 MOVING-PART LOGIC (MPL) CONTROL SYSTEMS 557 16.3 MPL CONTROL OF FLUID POWER CIRCUITS 561 16.4 INTRODUCTION TO BOOLEAN ALGEBRA 565 16.5 ILLUSTRATIVE EXAMPLES USING BOOLEAN ALGEBRA 571 16.6 KEY EQUATIONS 576 EXERCISES 576 ADVANCED ELECTRICAL CONTROLS 580 FOR FLUID POWER SYSTEMS LEARNING OBJECTIVES 580 17.1 INTRODUCTION 580 17.2 COMPONENTS OF AN ELECTROHYDRAULIC SERVO SYSTEM 585 17.3 ANALYSIS OF ELECTROHYDRAULIC SERVO SYSTEMS 588 XIV CONTENTS 17.4 PROGRAMMABLE LOGIC CONTROLLERS (PLCS) 596 17.5 KEY EQUATIONS 606 EXERCISES 607 APPENDIXES A SIZES OF. STEEL PIPE (ENGLISH UNITS) 611 B SIZES OF STEEL PIPE (METRIC UNITS) 613 C SIZES OF STEEL TUBING (ENGLISH UNITS) 615 D SIZES OF STEEL TUBING (METRIC UNITS) 617 E UNIT CONVERSION FACTORS 618 F NOMENCLATURE 620 G FLUID POWER SYMBOLS 623 H ANSWERS TO SELECTED ODD-NUMBERED EXERCISES 626 I DERIVATION OF KEY EQUATIONS 631 J COMPUTER ANALYSIS OF FLUID POWER SYSTEMS 636 K EXERCISES FOR COMPUTER SOLUTIONS 644 INDEX 647
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index_date	2024-07-02T21:36:50Z
indexdate	2024-07-09T21:19:41Z
institution	BVB
isbn	0130608998
language	English
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spelling	Esposito, Anthony Verfasser aut Fluid power with applications Anthony Esposito 6. ed. Upper Saddle River, NJ Prentice-Hall 2003 XIV, 656 S. txt rdacontent n rdamedia nc rdacarrier Fluidique Fluid power technology Hydraulik (DE-588)4026288-1 gnd rswk-swf Fluidtechnik (DE-588)4154793-7 gnd rswk-swf Fluidtechnik (DE-588)4154793-7 s DE-604 Hydraulik (DE-588)4026288-1 s HEBIS Datenaustausch Darmstadt application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016660050&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Esposito, Anthony Fluid power with applications Fluidique Fluid power technology Hydraulik (DE-588)4026288-1 gnd Fluidtechnik (DE-588)4154793-7 gnd
subject_GND	(DE-588)4026288-1 (DE-588)4154793-7
title	Fluid power with applications
title_auth	Fluid power with applications
title_exact_search	Fluid power with applications
title_exact_search_txtP	Fluid power with applications
title_full	Fluid power with applications Anthony Esposito
title_fullStr	Fluid power with applications Anthony Esposito
title_full_unstemmed	Fluid power with applications Anthony Esposito
title_short	Fluid power with applications
title_sort	fluid power with applications
topic	Fluidique Fluid power technology Hydraulik (DE-588)4026288-1 gnd Fluidtechnik (DE-588)4154793-7 gnd
topic_facet	Fluidique Fluid power technology Hydraulik Fluidtechnik
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016660050&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT espositoanthony fluidpowerwithapplications

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