Cover; Half Title; Title Page; Copyright Page; Table of Contents; Dedication; Foreword; Preface; Chapter 1: Introduction to mechanics of textile machineries; 1.1 Introduction; 1.2 Equations of motion; 1.3 Introduction; 1.3.1 Linear motion; 1.3.2 Circular motion; Chapter 2: Transmission of motion by wheel gearing; 2.1 What is a gear drive?; 2.2 Classification of gear drives; 2.3 Spur gears; 2.3.1 Spur gear materials; 2.4 Helical gears; 2.4.1 Parallel helical gears; 2.4.2 Double helical gears; 2.4.3 Cross-helical gears; 2.5 Bevel gears; 2.6 Hypoid gears; 2.7 Worm and worm wheel gears
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2.7.1 Applications of worm and worm wheel in textile industry2.7.2 Rack and pinion gear; 2.7.3 Types of rack and pinion gears; 2.7.4 Applications; 2.8 Geneva; 2.8.1 Introduction; 2.8.2 Advantages of Geneva; 2.8.3 Disadvantages of Geneva; 2.8.4 Types of Genevas; 2.9 Ratchet and Pawl; 2.9.1 General features; 2.9.2 Applications of ratchet and pawl in textile industry; 2.9.3 Compound gear train; 2.9.4 Reverted gear train; 2.10 Sun and Planet gear or epicyclic gear or planetary gear -- Special types of gear; 2.10.1 Applications of epicyclic or planetary gears in textile industry
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3.10.2 Parallel face pulleys3.10.3 Crown face pulleys; 3.10.4 Pulley face width; 3.11 Design considerations; 3.11.1 Multiple slope and vertical curve conveyors; 3.12 Terminal troughing idler arrangements; 3.13 Take-up arrangements; 3.14 General data; 3.14.1 Belt mass and thickness; 3.14.2 Shipping dimensions and roll sizes; 3.15 Solid woven belting; 3.15.1 Belt construction; 3.15.2 The textile solid woven carcass; 3.15.3 PVC impregnation; 3.15.4 Cover material; 3.16 Belt joints; 3.16.1 Vulcanised spliced joint; 3.16.2 Mechanical fasteners; 3.17 Operating conditions
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3.6.2 Calculation of maximum tensions3.6.3 Graduated idler spacing; 3.6.4 Feeder belt calculations; 3.7 Acceleration and deceleration; 3.7.1 Accelerating belt conveyors; 3.7.2 Decelerating belt conveyors; 3.7.3 Hold back or anti-run devices; 3.7.4 Counterweight reaction -- Accelerating and braking; 3.7.5 Accelerating and braking forces; 3.7.6 Application of forces; 3.7.7 Coasting; 3.8 Belt carcass selection; 3.8.1 Belt construction requirements; 3.8.2 Considerations; 3.9 Cover gauges and qualities; 3.9.1 Considerations; 3.9.2 Selection; 3.10 Pulley side cover; 3.10.1 Pulley diameters
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Chapter 3: Belt, rope and chain drives3.1 History of belt drives; 3.2 Belt types; 3.2.1 V-belts; 3.2.2 Classical V-belts; 3.2.3 Synchronous belts; 3.2.4 Link belts; 3.3 Alignment; 3.3.1 Advantages belt drives; 3.3.2 Disadvantages of belt drives; 3.3.3 Belts used with gear drive; 3.3.4 Belt tension; 3.3.5 Materials of belt; 3.4 Applications of belt drives in textile machineries; 3.5 Reinforcements; 3.5.1 Fabrics; 3.5.2 Belt capacities; 3.5.3 Capacity calculations; 3.5.4 Properties of materials; 3.6 Belt power and tensions; 3.6.1 Belt power calculation formulae
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SUMMARY OR ABSTRACT
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Textile Mechanics and Calculations is written with exhaustive information on the mechanical elements used in power transmission and textile equipment and machines. For the first time, an attempt has been made to include all the theoretical data for each topic with solved numerical examples. The special feature of this book is the inclusion of a number of cams and tappets and stepped pulley construction found in engineering and textile applications. The book also has the displacement, velocity and acceleration diagrams with textile examples. In addition to mechanics of spinning, the book also has details of the mechanics of the weaving process with several derivations.