Affiliation:
1. Western Regional Research Center, Science and Education Administration, U. S. Department of Agriculture, Berkeley, California 94710, U. S. A.
Abstract
Optimum treatment parameters for ozone-steam shrink-resisting of wool fabric and garments, hung in a chamber, were determined. Circulation of the vapor around the materials is necessary for rapid reaction. Fabric construction in; fluences the shrinkage control achieved; tight construction apparently limits the rate of diffusion of ozone into the fabric. Ozone consumption is low, (1.2% owf or less). Wool and lambs-wool sweaters were made shrink-resistant in a single-sweater batch treatment chamber. In batch treatments, since a large percentage (75 to 80%) of the injected ozone is exhausted unreacted from the chamber, excessively large and expensive ozone generators are required. Furthermore, these generators consume-excessive electricity (energy), and the excess ozone must be destroyed. Therefore a process was developed to utilize ozone efficiently. In this new process, garments are continuously moved through an open-ended tunnel; the ends are sloped downwards to confine the hot gasses. Ozone is injected at the center so that nearly all of it is consumed during its movement towards the ends. A pilot-scale continuous treater was constructed that utilizes 94% of the injected ozone; treated fabrics have excellent shrink resistance. The ozone-steam process has advantages over other shrink-proofing processes in that (1) no pre-wetting or post-drying stages are required (low energy requirement), (2) it is a continuous, single-stage process, (3) excellent, uniform shrinkage control is attained without significantly impairing fiber properties, and (4) treatment costs are low (efficient ozone utilization).
Subject
Polymers and Plastics,Chemical Engineering (miscellaneous)
Cited by
5 articles.
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