Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Spheroidal halloysites from Patagonia, Argentina: Some aspects of their formation and applications
Abstract Halloysite deposits in Argentina have been identified in the province of Río Negro (Patagonia). The mineralized area occurs as altered zones in Eocene volcanic–pyroclastic rocks, dacitic to rhyolitic in composition. A comprehensive study of these deposits was carried out by means of mineralogical, geochemical and isotopic analyses. Intense weathering has transformed the whole rock to a white mass composed of 75% –90% halloysite+kaolinite, with cristobalite, tridymite, and quartz, as the main non-clay minerals. Ferruginous beidellite and titanium minerals are also present in minor amounts. The halloysite–kaolinite ratio ranges from 75 to 25 to 100–0. Due to the alteration of very dense rocks, halloysite morphology is predominantly spheroidal. Tubular halloysite is the main constituent in more porous rocks, but the latter are scarce in the area. Because of the predominance of the spheroidal type, the use of halloysite as HNT (halloysite nanotube) is not feasible. Nonetheless, this mineral can be modified by different organic molecules, and used to remove pollutants such as emulsified hydrocarbons and heavy metals. A special product made with this halloysite is used as sunscreen when sprayed on fruits in areas of intense solar radiation. The whiteness of this mineral is not very high due to the amount of titanium oxide present in its composition (about 1%). Nevertheless, titanium oxide is present as individual particles, so it could be removed by a mechanical process. New applications for spheroidal halloysite are currently being investigated. Moreover, depending on the price and demand, the tubular halloysite of low grade deposits could be exploited.
Highlights Halloysite deposits in Patagonia are extremely pure, 80–90% of halloysite (predominantly spheroidal)/kaolinite in a 75/25 to 100/0 ratio. Halloysite was the alteration product of volcanic-pyroclastic rocks under wet temperate conditions during the low Tertiary. The modification of the spheroidal halloysite is similar to that performed in tubular halloysites elsewhere The chemical modified mined mineral has given good results for petroleum and Ag removal from contaminated waters. Impurities of smectite and titanium oxides in the mined material restrict the use of the halloysite in the ceramic industry.
Spheroidal halloysites from Patagonia, Argentina: Some aspects of their formation and applications
Abstract Halloysite deposits in Argentina have been identified in the province of Río Negro (Patagonia). The mineralized area occurs as altered zones in Eocene volcanic–pyroclastic rocks, dacitic to rhyolitic in composition. A comprehensive study of these deposits was carried out by means of mineralogical, geochemical and isotopic analyses. Intense weathering has transformed the whole rock to a white mass composed of 75% –90% halloysite+kaolinite, with cristobalite, tridymite, and quartz, as the main non-clay minerals. Ferruginous beidellite and titanium minerals are also present in minor amounts. The halloysite–kaolinite ratio ranges from 75 to 25 to 100–0. Due to the alteration of very dense rocks, halloysite morphology is predominantly spheroidal. Tubular halloysite is the main constituent in more porous rocks, but the latter are scarce in the area. Because of the predominance of the spheroidal type, the use of halloysite as HNT (halloysite nanotube) is not feasible. Nonetheless, this mineral can be modified by different organic molecules, and used to remove pollutants such as emulsified hydrocarbons and heavy metals. A special product made with this halloysite is used as sunscreen when sprayed on fruits in areas of intense solar radiation. The whiteness of this mineral is not very high due to the amount of titanium oxide present in its composition (about 1%). Nevertheless, titanium oxide is present as individual particles, so it could be removed by a mechanical process. New applications for spheroidal halloysite are currently being investigated. Moreover, depending on the price and demand, the tubular halloysite of low grade deposits could be exploited.
Highlights Halloysite deposits in Patagonia are extremely pure, 80–90% of halloysite (predominantly spheroidal)/kaolinite in a 75/25 to 100/0 ratio. Halloysite was the alteration product of volcanic-pyroclastic rocks under wet temperate conditions during the low Tertiary. The modification of the spheroidal halloysite is similar to that performed in tubular halloysites elsewhere The chemical modified mined mineral has given good results for petroleum and Ag removal from contaminated waters. Impurities of smectite and titanium oxides in the mined material restrict the use of the halloysite in the ceramic industry.
Spheroidal halloysites from Patagonia, Argentina: Some aspects of their formation and applications
Cravero, F. (Autor:in) / Fernández, L. (Autor:in) / Marfil, S. (Autor:in) / Sánchez, M. (Autor:in) / Maiza, P. (Autor:in) / Martínez, A. (Autor:in)
Applied Clay Science ; 131 ; 48-58
13.01.2016
11 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
Spheroidal halloysites from Patagonia, Argentina: Some aspects of their formation and applications
| Online Contents | 2016
Spheroidal halloysites from Patagonia, Argentina: Some aspects of their formation and applications
| Online Contents | 2016
Mineralogy of halloysites and their interaction with porphyrine
| British Library Online Contents | 2013