Braiding Technology for Textiles Principles Design and Processes 1st Edition by Y Kyosev 0857091352 9780857091352

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ISBN 10 : 0857091352
ISBN 13 : 9780857091352
Author: Y. Kyosev

Braided fabrics are made by interlacing yarns or strips of fabric. Braiding produces a wide range of structures for technical textile applications from medical sutures to cables for anchoring ships. Written by one of the world’s leading experts in the field, the book reviews the basic principles, design and processes used in braiding. The book also discusses specialised braiding techniques such as spiral braiding and lace technology.

Braiding Technology for Textiles 1st Edition Table of contents:

1. Introduction: the main types of braided structure using maypole braiding technology
Abstract
1.1 Introduction
1.2 Maypole braiding
1.3 Spiral braiding
1.4 Lace braiding
1.5 Bobbinet machines
1.6 Cartesian braiding
1.7 Machine and product classification
Part One: Patterning and design of braided structures manufactured using maypole braiding technology
2. Patterning of braided products
Abstract
2.1 Introduction
2.2 Horn gears
2.3 Carrier and bobbin arrangement
2.4 Structural and pattern representation of maypole braids
2.5 Braiding pattern basics
2.6 Pattern type and carrier arrangement
2.7 Quality and length issues of using ply yarns
3. Structural design of flat and tubular braids
Abstract
3.1 Introduction
3.2 Flat braids
3.3 Application examples
3.4 Tubular braids
3.5 Advanced patterning
4. Colour design of tubular braids
Abstract
4.1 Introduction
4.2 Colour patterning basics
4.3 General remarks about the colour design of tubular braids
4.4 Pattern development sequence for tubular braids
4.5 Common patterns for tubular structures
4.6 Conclusions
5. Colour design of flat braids
Abstract
5.1 Introduction
5.2 Basics of colour patterning of flat braids
5.3 Pattern development sequence for flat braids
5.4 Popular patterns for flat structures with a floating length of 1
5.5 Popular patterns for flat structures with a floating length of 2 (2:2-1)
5.6 Popular patterns for flat structures with a floating length of 3 (3:3-1)
5.7 Conclusions
Part Two: Maypole braiding machines and mechanics
6. Braiding machine components
Abstract
6.1 Introduction
6.2 Carrier motion systems
6.3 Track plate
6.4 Braiding zone and the take-off
6.5 Additional elements in the braiding machine
6.6 Some special configurations
6.7 Sources of further information and advice
7. Carriers for braiding machines
Abstract
7.1 Introduction
7.2 Carrier features
7.3 Yarn length compensation devices
7.4 Bobbin brakes and bobbin form
7.5 Yarn guides (eyelets, rollers, other elements)
7.6 Carrier modifications for special applications or materials
7.7 Sources of further information and advice
8. The mechanics of the braiding process
Abstract
8.1 Introduction
8.2 Braiding point parameters
8.3 Forces on the braid building yarn segment
8.4 Relationship between take-off velocity and braiding angle
8.5 Braid tension variances during tubular braiding and overbraiding
8.6 Influence of the braiding needles over the braiding process of flat braids
8.7 Bobbin winding tension and the braiding process
8.8 Braiding tension influences over the braided product
8.9 Control of the yarn tension in the braid former
8.10 Sources of further information and advice
9. Carrier mechanics in braiding operations
Abstract
9.1 Introduction
9.2 Bobbin mass and yarn tension
9.3 Unwinding angle and yarn tension
9.4 Yarn velocity during length compensation
9.5 Yarn tension fluctuations for spring-balanced carriers
9.6 Maximum velocity of weight-balanced carriers
9.7 Future trends
10. Yarn winding operations in braiding
Abstract
10.1 Introduction
10.2 Unwinding
10.3 Control and regulation devices
10.4 Winding
10.5 Machines
10.6 Winding calculations
Part Three: Specialist braided structures using maypole braiding technology
11. Spiral braiding
Abstract
11.1 Introduction
11.2 Terminology
11.3 Machine types for producing spiral braids
11.4 Spiral braiding machines
11.5 Equation of motion of the carriers
11.6 Patterning basics for spiral braids
11.7 Colour patterning of spiral braids
11.8 Special properties and applications of spiral braids
11.9 Machines
11.10 Conclusions
12. Square and other types of form braiding
Abstract
12.1 Introduction
12.2 Terminology
12.3 Applications of square-braided gaskets
12.4 Patterning for two-track braids
12.5 Patterning for three-track braids
12.6 Patterning for four-track braids
12.7 A braiding machine with variable tracks
12.8 Form braids with more complex forms
12.9 Conclusions
Part Four: Computer assisted design (CAD), other software and productivity calculations for braiding
13. Computer assisted design (CAD) software for the design of braided structures
Abstract
13.1 Introduction
13.2 Colour design of braided structures
13.3 3D geometrical models
13.4 Custom machine configurator
13.5 Calculations for braiding
13.6 Summary
14. Productivity calculations in braiding
Abstract
14.1 Introduction
14.2 Required yarn length
14.3 Weight per metre
14.4 Time for preparation
14.5 Take-off speed, braiding time and productivity
14.6 Calculation examples
14.7 Sources of further information and advice
15. Using MATLAB® for calculations in braiding
Abstract
15.1 Introduction
15.2 MATLAB background
15.3 Data Acquisition Toolbox™ and yarn tension measurement
15.4 Conclusions

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Tags: Braiding Technology, Textiles Principles, Design, Processes, Kyosev