|Author:||Louis I Weiner|
|Title:||Textile fabric design tables;: Solutions of maximum weavability equations for fabrics made from single fiber species and blends|
|Format:||lrf mbr azw txt|
|ePUB size:||1310 kb|
|FB2 size:||1580 kb|
|DJVU size:||1592 kb|
|Publisher:||Technomic Pub. Co (1971)|
Download Textile Fabrics book in pdf, epub, mobi. Also, you can read online Textile Fabrics full free. Tables of Solutions of Equations for Maximum Weavability Fabrics Made from Single Fiber Species and Blends. Author: Louis I. Weiner. The report contains in tabular form the solutions of the maximum weavability equations for the plain, oxford, 3- and 4-harness twills, and 5-harness sateen in terms of warp and filling cover factors and yarn number ratio (Beta) for fabrics made from any fiber species and from blends. The tables are set up for yarn bulk densities ranging from . 4 to . ; this includes fibers as light as polyethylene and as heavy as stainless steel.
Maximum Construction Tables tor Fabrics of. Creslan Acrylic Fiber and Other Fibers. Paper presented at. National Meeting of AATCC, Philadelphia, PA, USA, 1960. A Direct Method tor Measuring Yam. Diameters and Bulk Densities under Conditions of Thread. Weavability Limit of Yarns with Thickness. Variation in Shuttleless Weaving: The Single Weft Yarn. Res. 2000, 70, 129-134. Seyam and A. EI-Shiekh.
There are many ways of making fabrics from textile fibers. The most common and most complex category comprises fabrics made from interlaced yarns. These are the traditional methods of manufacturing textiles. The properties of the fabric for such weaves can be easily predicted. Examples of some of the common regular weaves are given in figure 2. ww. ntechopen. Here vf, vF are respectively fiber and fabric specific volume. A knowledge of fiber specific volume helps in calculating the packing of fibers in the fabric. Such studies are useful in evaluating the fabric properties such as warmth, permeability to air or liquid. Computation of fabric parameters. The basic equations derived from the geometrical model are not easy to handle.
Textile Fabric Design Tables; Solutions Of Maximum Weavability Equations For Fabrics Made From Single Fiber Species And Blends. Pages: 0. Publisher: Release date: 0000-00-00.
Fabrics made from different weaves cannot be compared easily with regard to their physical and mechanical properties unless the weave effect is normalized. The concept of average float has long been in use, particularly for calculating maximum threads per cm. It is defined as the average ends per intersection in a unit repeat. 4. Weiner, . extile Fabric Design Tables. Textile Progress, The Textile Institute. It has been found useful for weaving of maximum sett structures and also in the analysis and interpretation of structure–property relationship of woven fabrics. Mathematical deductions obtained from simple geometrical form and physical characteristics of yarn combined together help in understanding various phenomena in fabrics. A simple geometric model of woven fabric structure.
Woven fabrics used as technical textiles are subjected to forces, which are parallel and perpendicular to fabric plane also. The effects of forces, which are parallel to fabric plane, and behaviours of fabric against these forces can be evaluated by measuring breaking strengths and elongation at breaks of fabrics along both warp and weft directions. On the other end, the effects of forces, which are perpendicular to fabric plane, and behaviours of fabric against these forces can be evaluated by bursting strength and impact tests. As a result, we need to consider here only the single thread testing results to predict the fabric strength from the yarn. Representation of Woven Fabric.
The making of modern fabrics is an intricate and complex process. Success in the textile field does not just happen. It is the result of much thought and much planning. It is the end product of an ability to bring into focus a body of knowledge which involves the proper use of men, material, and machinery. Sizing operation is to produce weavability in the warp. This short description relates to a rather complex process to obtain the desired results. A very important point to make is that errors in warp sizing can have a disastrous effect in the weaving room and in the finishing department and thus on the final product. Textile and Management Consultant Fabtech Solutions, India. Ashok Hakoo is a technical textile and management consultant, who undertake projects on mill operational activities and provides solutions to technical and management shop floor problems.
This is a textile fiber made from Acrylic a plastic component (85% acrylonitrile). The fiber is extremely soft, lightweight and very close to the characteristics of wool. Moda acrylic is a superior kind of acrylic fiber. One disadvantage of acrylic fiber is that it does not absorb moisture. Olefin fiber is a very strong abrasion and stain resistant and colour fast synthetic fiber. It is a popular fiber for making fabrics for Activewear and sportswear. You now have a basic.
Textile Sizing by BHUVENESH C. GOSWAMI. Fabric Structure and Design. A Manual of Weave Construction. Theory of Silk Weaving. Reference Books of Textile Technologies Cotton & Wool Spinning. Reference Books of Textile Technologies Man Made Fibers. Reference Books of Textile Technologies Weaving. Textile Reference Book of Technologies Nonwovens. Textile Reference Book for Technologies Finishing. Fundamentals of Spun Yarn Technology. Basic Principles of Textile Coloration.