Power Mechanisms of Rotational and Cyclic Motions
Auteurs : Klebanov Boris M., Groper Morel
From the Physiology of Machines to the Anatomy of Machines
An offshoot stemming from the author?s previous book detailing the makeup and composition of a machine, Power Mechanisms of Rotational and Cyclic Motions provides an in-depth analysis of machine structure and operation. An important reference for practicing mechanical engineers, this book presents the kinematic diagrams of driving mechanisms in detail, analyzes their motion characteristics and efficiency, and addresses the lubricating problems that impact the reliability and operating life of machines. The diagrammatic representation of mechanisms is accompanied by examples of their general and detailed design, main geometry calculations, and recommendations for an approximate evaluation of principal dimensions. The authors consider the main stages of design, including the choice and analysis of kinematic diagrams, preliminary sizing, embodiment, and the design and dimensioning of specific elements including gears, shafts, bearings, springs, cams, fasteners, and others.
A pivotal work, the book contains details of design that include:
- Analysis of diagrams of mechanisms (for their kinematic effects and efficiency)
- Rough dimensioning of the main elements
- Examples of the design of mechanisms and their elements (with relevant calculations of geometry and for strength)
- Design of specific subassemblies and parts (including their materials and heat treatment)
- Choice and design of lubrication systems
Intended for engineering postgraduates, engineers, and designers of machines, Power Mechanisms of Rotational and Cyclic Motions also describes the main metals used in machinery and their mechanical characteristics and provides expressions for strength calculation. Covering a wide range of mechanisms, it contains numerous examples of design of mechanisms and accompanying calculations and design hints based on the authors? vast experience.
MECHANISMS OF ROTATIONAL MOTION. VARIABLE-SPEED DRIVES. MECHANISMS OF CYCLIC MOTION. LUBRICATION SYSTEMS. COMPONENTS OF MECHANISMS.
.
Boris M. Klebanov, PhD, has accumulated approximately 50 years of professional experience in the design of diesel engines and drive units for marine and land applications, reduction gears, hydraulic devices, and mine-clearing equipment. Dr. Klebanov is the author of many articles and the coauthor of three books in the field of machinery. He worked from 1959 to 1990 in St. Petersburg, Russia, as a designer and head of the gear department in a company in the heavy engine industry and then at Israel Aerospace Industry (IAI) as a principal mechanical engineer until 2009. Dr. Klebanov is now retired.
Morel Groper, PhD, served from 1987 to 2010 in the Israeli Navy as a design engineer, a navy shipyard chief marine engineer, and as the navy head of Naval Architecture and Marine Engineering. Dr. Groper earned his PhD in 1999 from the Faculty of Mechanical Engineering at the Technion, Israel Institute of Technology in Haifa. In 2010, Dr. Groper retired from the navy and launched his R&D company to provide comprehensive mechanical engineering and naval architecture services to naval, marine, offshore, and industrial sectors. In 2014, Dr. Groper joined the University of Haifa to promote his research work.
Date de parution : 12-2015
21x28 cm
Thèmes de Power Mechanisms of Rotational and Cyclic Motions :
Mots-clés :
Kinematic Diagrams; Gear Ratio; Planetary Gear Drive; Sun Gear; Speed Variators; Output Shaft; Friction Drive; Friction Coefcient; Geneva Mechanism; Input Shaft; Oil Filter Rate; Planet Gears; Bearings Lubrication; Roller Bearings; Gear Rim; Planetary Gear Drives; Elliptical Gears; Worm Drive; Triangle Cam; Gear Drives; Rotational Motion; Gear Pair; Cylindrical Drives; Worm Gear; Bevel Gear Drives; Pressure Angle; Worm Drives; Ring Gear; Chain Drives; Planet Carrier; Belt Drives; Geneva Mechanisms; Rope Drives; Cylindrical Roller Bearing; Friction Drives; Planetary Stage; Wave Gear Drives (Harmonic Drives); Ratchet Wheel; Hydrostatic Transmissions; Cotter Pins; Pneumatic Drives; Bevel Gear; Link Transmissions; Stress Concentration Factor; Variable-Speed Drives; Roller Chains; Step Speed Variation; Worm Thread; Reversible Gear Drives; Cyclic Motion; Oil Lubrication; Grease Lubrication; Mechanical Linkage; Shafts; Axles; Cams; Followers; Sliders; Guides; Pistons; Cylinders; Ropes; Sheaves; Drums; Drive Belts; Pulleys; Chains; Sprockets; Ratchets; Pawls; Gears; Pinions; Worms; Worm Gears; Bearings; Fasteners; Structural Ferrous Metals