S.H. Sutherland scite author profile

Summary A silicon carbide fibre‐reinforced glass‐ceramic composite, based upon a BaO–MgO–Al2O3–SiO2 (BMAS) matrix, has been used for a study of microstructural stability (specifically interface stability) after environmental exposure at elevated temperature. Characterization of the as‐received material demonstrated the presence of a thin ‘carbon‐rich’ interfacial layer between fibre and matrix, as typically observed in glass‐ceramic/silicon carbide fibre composite systems. Samples have been subjected to heat‐treatments in an oxidizing atmosphere at temperatures between 723 and 1473 K, for up to 500 h. Intermediate‐temperature ageing, between 873 and 1073 K, results in strong fibre/matrix bonding, with consequent degradation of strength and composite ‘ductility’. This is due to oxidative removal of the carbon interfacial layer and subsequent oxidation of the fibre surface, forming a silica bridge. Carbon is retained at higher ageing temperatures due to the formation of a protective surface oxide scale at exposed fibre ends. Attempts to pretreat the BMAS composite at high temperature (1273–1473 K), designed to inhibit intermediate‐temperature degradation via the formation of silica plugs at exposed fibre ends, has given mixed results due to the high residual porosity content in these materials, allowing paths of ‘easy’ oxygen ingress to be retained.

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The proposed EC packaging waste directive

Deanesly¹,

Sutherland²

1993

Eur. Env.

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ALARA studies on spent fuel and waste casks

Sutherland¹

1980

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In this report, some implications of applying the ALARA concept to cask designs for transporting spent fuel, high-level commercial and defense waste, and remote-handled transuranic waste are investigated. The XSDRNPM, one-dimensional radiation transport code, was used to obtain potential shield designs that would yield total dose rates at 1.8 ra from the cask surface of 10, 5, and 2 mrem/h. Gajnno shields of depleted uranium, lead, and steel were studied, the capacity of the casks was assumed to be 1, 4, or 7 elements or canisters, and the wastes were 1, 3, 5, and 10 yrs old. Depending on the dose rate, the cask empty weights and lifetime transportation costs were estimated.

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S.H. Sutherland

A method for determining the spent-fuel contribution to transport cask containment requirements

Experimental verification of scaling laws for punch-impact-loaded structures

Environmental ageing effects in a silicon carbide fibre‐reinforced glass‐ceramic matrix composite

The proposed EC packaging waste directive

ALARA studies on spent fuel and waste casks

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