Article In: cienciavitae

Heterogeneity along the height in disc specimens of raphite/tungsten powder mixtures with sub-stoichiometric carbon atom ratios heated by concentrated solar beam to 1600°C

Materials Transactions

Nobumitsu Shohoji; Teresa Magalhães; Diego Martinez2010

Key information

Authors:

Nobumitsu Shohoji; Teresa Magalhães; Fernando de Almeida Costa (Fernando de Almeida Costa Oliveira); Luis G. Rosa (Luís Manuel Guerra da Silva Rosa); Jorge Cruz Fernandes (José Jorge Lopes da Cruz Fernandes); José Rodriguez; Inmaculada Cañadas; Diego Martinez

Published in

2010

Abstract

Compositional heterogeneity along the thickness of compacted disc specimens of graphite / tungsten powder mixtures with sub-stoichiometric carbon atom ratios (0.35, 0.50 and 1.00) heated by concentrated solar beam to 1600ºC was characterised by X-ray diffraction. Top surface of any examined test piece was consisted purely of mono-carbide WC while the bottom surface showed different constitution depending on the net initial C/W ratio of the test piece; almost pure metallic W for the C/W = 0.35 specimen, dominant metallic W associated with small proportion of W2C for the C/W = 0.50 and dominant W2C with trivial proportion of WC for the C/W = 1.0. In the intermediate zone between the top and the bottom layers, the constitution held virtually constant depending on the nominal C/W ratio of the starting material: co-existing metallic W and W2C for the C/W = 0.35, pure W2C for the C/W = 0.50 and predominant WC with trace W2C for the C/W = 1.00. Unlike for the top surface of the C/W = 0.35 test piece heated in a solar furnace to 1900ºC reported earlier, no evidence of formation of nano-meter scale WC whisker was detected for the top surface in any sample heated to 1600ºC in the present work.

Publication details

Publication version

AO - Author's Original

Title of the publication container

Materials Transactions

First page or article number

388

Last page

388

Volume

51

Issue

2

WoS (Web of Science)

WOS:000276538900035

Fields of Science and Technology (FOS)

materials-engineering - Materials engineering

Publication language (ISO code)

eng - English

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