| With the rapid development of industrial production, synthetic fibers have been universally used as raw materials in textile industry. The products made synthetic fibers become people's favor for their washing fastness and durability, elegancy and good taste as well as being exempt from ironing and quick drying. But its water repellency properties insulation may bring about charged phenomenon both in textile processing and dressing, also some troubles or difficulties may arouse in manufacture or everyday's life, which sometimes go so far as to disturb the normal industrial procedure or to cause some accidents. Especially the speedy development of electronics, medicine, precision instruments, with the purpose of concrete actions and safety in operating, put forward higher demand for the antistatic conductive ability of the fibers and textile products.At present the main antistatic methods are fabric finish, fabric chemical modifications, embed; but they have only got some defects, respective just like permanence of antistatic quality, limit of its application area, reduction of antistatic effect after rupture of conductive filament. Another way is to blend organic conductive staple fiber and synthetic fiber. Its principle, that is, to discharge by adopting the halo of conductive fiber, with that of embed. This way solve above defects. It becomes an important variety that antistatic fabric is developed.The purpose of this text is mainly to inquire into as well as analyze the technology and property of blending by two organic conductive fibers with different proportions, to formulate the technological process for making a reasonable decision of choosing the technologic parameter for each working procedure, both from the theoretical and practical angle, so as to spin the yarn with perfect quality as well a make detailed analysis and description on blending technology. Through close analysis of the weaving ability and those factors that may take effects on it is realized by testing the property of yarns. Staple conductive fiber can reach the effect of being well-distributed in yarns by employing those reasonably-designed technological parameters. The result shows that during the procedure of blending organic conductive fibers the process goes on without any problems related to static phenomenon just like fiber winding parts. Compared with the traditional blending process, the employment of conductive staple fibers takes apositive effect in evidence the side affect caused by static phenomenon. Antistatic fibers my be devised by taking four factors into consideration which are respectively called the blending proportion of conductive fiber, the organizational structure of fabrics, density of warp and weft as well as types of yarn in weft. This paper also gives a brief description about the textile drafts of fabric including conductive staple fiber and as an experiment 15 pieces of fabrics were woven with different proportion of conductive fiber, different structure, warp and weft density. These fabrics possess excellent and favourable property for clothing; outer wear for those unique advantages just like deformed under lower load and firmness property of being exempt from ironing. Through studying antistatic property of fabrics; I've search into various effects on antistatic property that are taken by fiber and fabric of different structures and proportions, explain the relationship between the fiber blending ratio with the effects of antistatic property make an analysis of these main factors affecting the antistatic of fabrics. At the end I've come to the conclusion of the method of achieving perfect antistatic property by employing lowest cost and apply relative technology and data for its industrialization. |
PDF Full Text Request