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Presents practical methods for detecting, diagnosing and correcting fluid power problems within a system. The work details the design, maintenance, and troubleshooting of pneumatic, hydraulic and electrical systems and components. This second edition stresses: developments in understanding the complex interactions of components within a fluid power system; cartridge valve systems, proportional valve and servo-systems, and compressed air drying and filtering; noise reduction and other environmental concerns; and more.;This work should be of interest to mechanical, maintenance, manufacturing, system and machine design, hydraulic, pneumatic, industrial, chemical, electrical and electronics, lubrication, plastics processing, automotive, process control, and power system engineers; manufacturers of hydraulic and pneumatic machinery; systems maintenance personnel; and upper-level undergraduate and graduate students in these disciplines.
Explains the easiest way to conquer the troubleshooting process: the simple, 12-step procedure that will transform you into a reliable and effective troubleshooter, no matter what your level of experience. This is the "master secret" of knowing what to do and when to do it.
Fluid Power Dynamics is a 12-chapter book in two sections covering the basics of fluid power through hydraulic system components and troubleshooting. The second section covers pneumatics from basics through to troubleshooting. This is the latest book in a new series published by Butterworth-Heinemann in association with PLANT ENGINEERING magazine. PLANT ENGINEERING fills a unique information need for the men and women who operate and maintain industrial plants: It bridges the information gap between engineering education and practical application. As technology advances at increasingly faster rates, this information service is becoming more and more important. Since its first issue in 1947, PLANT ENGINEERING has stood as the leading problem-solving information source for America's industrial plant engineers, and this book series will effectively contribute to that resource and reputation.
This unique single-source reference-the first book of its kind to address systematically the problems involved in the field-offers comprehensive coverage of hydraulic system troubleshooting and encourages change in the trial-and-error methods common in rectifying problems and restoring system downtime, furnishing a new paradigm for troubleshooting methodology. Covering typical circuitry found in industrial, agricultural, construction, transportations, utilities maintenance, and fire-fighting equipment as well as heavy presses, Fluid Power Maintenance Basics and Troubleshooting: Supplies the tools needed to investigate problems, including hydraulic component symbol identification Provides an understanding of the function of components in relation to the system Shows how to interpret the hydraulic system diagram Demonstrates how components within circuit diagrams interact to achieve machine performance Presents flow charts and operating descriptions for several types of machines Delineates the logical steps of problem analysis And much more Lavishly illustrated with nearly 400 drawings and photographs and written by two widely experienced authorities, Fluid Power Maintenance Basics and Troubleshooting is an indispensable day-to-day resource for mechanical, hydraulic, plant, control, maintenance, manufacturing, system and machine design, pneumatic, industrial, chemical, electrical and electronics, lubrication, plastics processing, automotive, and power system engineers; manufacturers of hydraulic and pneumatic machinery; systems maintenance personnel; machinery service and repair companies; and upper-level undergraduate, graduate, and continuing-education students in these disciplines.
This unique single-source reference-the first book of its kind to address systematically the problems involved in the field-offers comprehensive coverage of hydraulic system troubleshooting and encourages change in the trial-and-error methods common in rectifying problems and restoring system downtime, furnishing a new paradigm for troubleshooting
A fluid power professional should possess exceptional knowledge about the maintenance, troubleshooting, and safety aspects of hydraulic systems for his/her continuing professional development and career advancement. A faculty or a student in an engineering institution must acquire the knowledge of the maintenance, troubleshooting, and safety aspects of hydraulic systems to upgrade his/her knowledge. As the knowledge and skill of the reader improve, professional life is undoubtedly going to be more outstanding and comfortable.The book explains all aspects of maintenance, troubleshooting, and safety features of hydraulic systems, systematically to make this book more useful on the shop floor. The language of the book is simple, the topics are logically arranged, and information is most up-to-date.The book has been written by a professional trainer who has vast experience in the fluid power area and trained thousands of professionals and students, over 25 years. If you are looking for a more in-depth knowledge into fluid power, then this book is a valuable resource that will assist you in your quest for professional development.
HYDRAULIC FLUID POWER LEARN MORE ABOUT HYDRAULIC TECHNOLOGY IN HYDRAULIC SYSTEMS DESIGN WITH THIS COMPREHENSIVE RESOURCE Hydraulic Fluid Power provides readers with an original approach to hydraulic technology education that focuses on the design of complete hydraulic systems. Accomplished authors and researchers Andrea Vacca and Germano Franzoni begin by describing the foundational principles of hydraulics and the basic physical components of hydraulics systems. They go on to walk readers through the most practical and useful system concepts for controlling hydraulic functions in modern, state-of-the-art systems. Written in an approachable and accessible style, the book’s concepts are classified, analyzed, presented, and compared on a system level. The book also provides readers with the basic and advanced tools required to understand how hydraulic circuit design affects the operation of the equipment in which it’s found, focusing on the energy performance and control features of each design architecture. Readers will also learn how to choose the best design solution for any application. Readers of Hydraulic Fluid Power will benefit from: Approaching hydraulic fluid power concepts from an “outside-in” perspective, emphasizing a problem-solving orientation Abundant numerical examples and end-of-chapter problems designed to aid the reader in learning and retaining the material A balance between academic and practical content derived from the authors’ experience in both academia and industry Strong coverage of the fundamentals of hydraulic systems, including the equations and properties of hydraulic fluids Hydraulic Fluid Power is perfect for undergraduate and graduate students of mechanical, agricultural, and aerospace engineering, as well as engineers designing hydraulic components, mobile machineries, or industrial systems.
Reference book
Maintaining and enhancing the high standards and excellent features that made the previous editions so popular, this book presents engineering and application information to incorporate, control, predict, and measure the performance of all fluid power components in hydraulic or pneumatic systems. Detailing developments in the ongoing "electronic revolution" of fluid power control, the third edition offers new and enlarged coverage of microprocessor control, "smart" actuators, virtual displays, position sensors, computer-aided design, performance testing, noise reduction, on-screen simulation of complex branch-flow networks, important engineering terms and conversion units, and more.
Written by a seasoned expert, this authoritative and informative guide presents the technologies in the calculation of brushless DC motor time constants, material on drive sizing, and case studies illustrating key topics. The author details hardware specifications related to the operation of machine service drives and outlines troubleshooting methods for problems concerning machine nonlinearities, inertia, drive stiffness, and friction. He highlights recently developed simulation methods used to predict, assess, and improve the performance of service systems and their components and covers the function and assembly of drive systems, drive resolutions, drive ratios, and duty cycles.