Red Syenite of the Pilanesberg Complex : a potential raw material source for the South African ceramics and glass industry

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dc.contributor.author Pantshi, Bukiwe
dc.contributor.author Theart, H.F.J.
dc.date.accessioned 2008-12-15T08:58:02Z
dc.date.available 2008-12-15T08:58:02Z
dc.date.issued 2008-03
dc.description.abstract The Red Syenite deposit on the farm Zanddvierspoort 210 JF, located on the pedphery of the Pilanesberg Alkaline Complex, is considered here as a potential source of nepheline syenite, a material that is used as a flux in the manifacturing of glass and ceramics. Glass and ceramics manufacturers have different specifications as far as the quality and the product for¡n is concerned. Local glass manufacturers generally require beneficiated material with a low Fe content, depending on the kind of glass being manufactured. Ceramics manufactures also require material with a low Fe content, but the material may be unbeneficiated as most of these factories already have facilities to remove Fe and other materials considered deleterious to the product or manufacturing process. The minimum requirement is that the material must be caished and milled to a specific size fraction (< 10 mm). A common concern expressed by the industry' is the requirement tor continuity of production, and an assurance of consistent quality from the supplying deposit. The availability of feldspar as an alternative starting material, al a lower cost than nepheline syenite, is responsible for an unwillingness of potential users to switch to nepheline syenite, despite its proven advantages. Extensive additional geological confirmation is required to estimate the sized and quality of the resource of the nepheline syenite in the Pilanesberg Alkaline Complex. To demonstrate its viability, a preliminary investigation has been undertaken on one such a deposit to show that the deposit will probably be able to sustain production over a considerable period and display internal homogeneity that would ensure the consistent qualíty of the material produced. Given the uncertainties in all parameter considered at this stage it must be stressed that the financial study is merely used to highlight the projects potential viability and to identify its risks. For this purpose a hypothetical project was designed which shows that such an operation would be most sensitive to the production rate, capital required, and the selling price of the product. Transport and operating costs show a less significant influence on the viability of the project. en_US
dc.identifier.citation Pantshi, B & Theart, HFJ 2008, ‘The Red Syenite of the Pilanesberg Complex : a potential raw material source for the South African ceramics and glass industry’, South African Journal of Geology, vol. 111, no. 1, pp. 1-13. [http://www.gssa.org.za] en_US
dc.identifier.issn 1012-0750
dc.identifier.other 10/2113/gssajg.111.1.27
dc.identifier.uri http://hdl.handle.net/2263/8418
dc.language.iso en en_US
dc.publisher Geological Society of South Africa en_US
dc.rights Geological Society of South Africa en_US
dc.subject Pilanesberg alkaline complex en_US
dc.subject Ceramics and glass industry en_US
dc.subject.lcsh Alkaline earth oxides -- Pilanesberg
dc.subject.lcsh Ceramic materials
dc.subject.lcsh Glass manufacture
dc.title Red Syenite of the Pilanesberg Complex : a potential raw material source for the South African ceramics and glass industry en_US
dc.type Article en_US


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