Gary Jubb scite author profile

Gary Jubb

3Publications

3Citation Statements Received

40Citation Statements Given

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Affiliations

Morgan Advanced Materials (United Kingdom), Materials Technology (United Kingdom), State University of New York

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Durability of ceramic and novel man-made mineral fibers.

Alexander

Brown

Jubb

et al. 1994

Environ Health Perspect

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In vitro solubility testing is an important means of assessing the likely behavior of fibers that are respired and accumulate in the lung. The problem has been that such tests often do not mirror the dissolution and removal mechanisms seen in vivo. Comparison of iron and silica solubility values of various types of mineral fiber showed no obvious correlation. Treating a mineral fiber containing high levels of calcium with normal balanced salt solutions produces a precipitate of calcium phosphate on the fiber surface. This deposit was not seen in fibers isolated from the lung of exposed animals. New solutions have been developed and with variations in the methods of exposing fibers, results similar to those seen in vivo have been obtained. Suitable fluid phases have been examined in static and flow-through systems. The relationship of solubility to biological activity is discussed. -Environ Health Perspect 102(Suppl 5): 67-71 (1994)

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Thermal conductivity of refractory glass fibres

Modarresifar

Bingham

Jubb

2016

J Therm Anal Calorim

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In the present study, the current international standards and corresponding apparatus for measuring the thermal conductivity of refractory glass fibre products have been reviewed. Refractory glass fibres are normally produced in the form of low-density needled mats. A major issue with thermal conductivity measurements of these materials is lack of reproducibility in the test results due to transformation of the test material during the test. Also needled mats are inherently inhomogeneous, and this poses additional problems. To be able to compare the various methods of thermal conductivity measurement, a refractory reference material was designed which is capable of withstanding maximum test temperatures (1673 K) with minimum transformation. The thermal conductivity of this reference material was then measured using various methods according to the different standards surveyed. In order to compare different materials, samples have been acquired from major refractory glass fibre manufacturers and the results have been compared against the newly introduced reference material. Materials manufactured by melt spinning, melt blowing and sol-gel have been studied, and results compared with literature values.

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Biopersistence of Insulation Glass Fibres

Moore

Hanna²,

Grumm³

et al. 1997

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Gary Jubb

Durability of ceramic and novel man-made mineral fibers.

Thermal conductivity of refractory glass fibres

Biopersistence of Insulation Glass Fibres

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