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Interactions of Spin Finishes with Partially Oriented Poly ( ethylene Terephthalate) Fibers : Part I: The Nature of Finish/Fiber Interactions

Selivansky, D. ; Walsh, W.K. ; Frushour, B.G.

SAGE Publications ; 1990

In: Textile Research Journal Vol. 60, No. 1 ( 1990-01), p. 33-41

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In: Textile Research Journal, SAGE Publications, Vol. 60, No. 1 ( 1990-01), p. 33-41

Abstract: A low temperature dyeing technique that was developed as a characterization method for poly(ethylene terephthalate) (PET) partially oriented yarns revealed thermally activated interactions between the fibers and spin finishes containing pure or close derivatives of poly(ethylene glycol) (PEG) that bring about dye blocking. Similar effects were also exerted by these spin finishes on the critical dissolution times and amine etching resistance of the fibers. The PEG interaction with the fibers is most effective in the narrow molecular weight range of M n = 500 ± 100 g/mol. Specific thermal (shrinkage, shrinkage stress relaxation) and other structural characterization techniques (WAXS, DSC, Raman, IR) indicated that the PEG interactions bring about higher degrees of intermolecular cohesion and order in the PET fibers. The PEG molecular weight dependence of the dyeblocking is rationalized in terms of the permeability and compatibility of PEG.

Type of Medium: Online Resource

ISSN: 0040-5175 , 1746-7748

URL: Article

DOI: 10.1177/004051759006000105

RVK:

ZS 0001

Language: English

Publisher: SAGE Publications

Publication Date: 1990

detail.hit.zdb_id: 2209596-2

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Electrochemical nature of lead contamination

Singley, J. Edward

Wiley ; 1994

In: Journal AWWA Vol. 86, No. 7 ( 1994-07), p. 91-96

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In: Journal AWWA, Wiley, Vol. 86, No. 7 ( 1994-07), p. 91-96

Abstract: When lead pipe is in contact with water, the rate of lead pickup can be affected by changing the availability of electron acceptors, but in the cases of lead‐based solder and lead‐containing fixtures, corrosion is largely independent of water quality. Because the minimization of lead pickup by water quality modification has not been predictable, one of the objectives of this work was to provide a basis for such predictions. There are three major situations in which lead is in contact with potable water: lead pipes, lead‐based solders, and brass and bronze fixtures. For lead pipes, the mechanism of corrosion is primarily that of establishing a concentration cell on the lead surface that results in electrons being transferred from one point on the surface to another. Increasing the pH or minimizing the dissolved oxygen or chlorine residual is an effective means of reducing the corrosion rate. For solders and alloys, the galvanic corrosion is due to the direct contact of the dissimilar metals. Water quality has very little effect on this type of corrosion. The author comments that it is hoped that a continuous decrease in lead violations will be seen as the ban on lead solders takes effect and the exposed lead surfaces are removed by corrosion.

Type of Medium: Online Resource

ISSN: 0003-150X , 1551-8833

URL: Issue

URL: Article

DOI: 10.1002/awwa.1994.86.issue-7

DOI: 10.1002/j.1551-8833.1994.tb06227.x

RVK:

ZM 1385

Language: English

Publisher: Wiley

Publication Date: 1994

detail.hit.zdb_id: 2144899-1

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Dynamic Water Vapor and Heat Transport through Layered Fabrics : Part II: Effect of the Chemical Nature of Fibers

Yasuda, T. ; Miyama, M. ; Yasuda, H.

SAGE Publications ; 1992

In: Textile Research Journal Vol. 62, No. 4 ( 1992-04), p. 227-235

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In: Textile Research Journal, SAGE Publications, Vol. 62, No. 4 ( 1992-04), p. 227-235

Abstract: Dynamic water vapor and heat transport in the transient state was investigated for fabrics made of polyester, acrylic, cotton, and wool fibers. The overall dissipation rate of water vapor depends on both the vapor transport rate and the vapor absorption by fibers, which are mutually interrelated. Water vapor transport is governed by the vapor pressure gradient that develops across a fabric layer. When a fabric is subjected to given environmental conditions, the actual water vapor transport rate greatly differs depending on the nature of the fibers, even when other parameters are nearly identical, such as density, porosity, and thickness. The actual differential vapor pressure that develops across a layer depends on the water vapor absorption characteristics of the fibers. The higher the water vapor absorption rate, the lower the differential vapor pressure for water vapor transport and thus the lower the overall water vapor transport rate. However, the water vapor transport rate (when considering the actual differential vapor pressure across a fabric layer) is nearly identical regardless of fiber type, providing the fabric structures are kept nearly the same. Water vapor transport occurs through the open air spaces confined by fibers, and the nature of fibers does not greatly affect the characteristic vapor transport rate through these spaces. The temperature of the air space between two layers of fabric rises when water vapor transport occurs. This rise is nearly proportional to the water vapor absorption rate of a fabric, which is determined by the chemical nature of the constituent fibers.

Type of Medium: Online Resource

ISSN: 0040-5175 , 1746-7748

URL: Article

DOI: 10.1177/004051759206200407

RVK:

ZS 0001

Language: English

Publisher: SAGE Publications

Publication Date: 1992

detail.hit.zdb_id: 2209596-2

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