A genetic and exploration model for syenite-hosted scandium mineralisation

正长岩型钪矿化成因与勘探模型

• 批准号: 538926-2019
• 负责人: WilliamsJones, AnthonyAE
• 金额: $ 2.15万
• 依托单位: McGill University
• 依托单位国家: 加拿大
• 项目类别: Collaborative Research and Development Grants
• 财政年份: 2022
• 资助国家: 加拿大
• 起止时间: 2022-01-01 至 2023-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=751003
• 关键词: genetic; exploration; model; syenite; hosted

Recent advances in materials science have led to the development of high tensile strength, thermally and corrosion resistant aluminium-scandium alloys that have great potential in the increasingly green aerospace and automotive industry. As most current production of scandium is in China and Russia, there is an urgent need to find scandium resources in the West. Imperial Mining Group Ltd., a Canadian junior mining company specialising in the exploration and development of mineral properties with the potential for hosting rare earth elements, controls the Crater Lake property in northern Québec, and has demonstrated that the underlying syenite ring dyke complex contains potentially mineable concentrations of scandium. Imperial Mining requires that a genetic model be developed to understand the factors that favour the concentration of scandium to economic levels in syenites in order to devise an effective exploration strategy for the Crater Lake complex. The starting point for developing such a model is to establish where (in what rocks/minerals) and how the metal is concentrated. As a result of our recent research (Williams-Jones and Vasyukova, 2018) we know that Sc is an incompatible element and concentrates in early fractionating (from the magma) ferromagnesian minerals, particularly clinopyroxene. Results of analyses of a small number of samples supplied to the applicant by Imperial Mining suggest that clinopyroxene may be the host to some or all of the scandium at Crater Lake. The proposed research will trace the path of scandium enrichment at Crater Lake by reconstructing the evolution of the magma and possible subsolidus hydrothermal alteration using a combination of major and trace element analyses of bulk rocks, minerals and melt inclusions. This will lead to a genetic model that will be used by Imperial to target the scandium mineralisation in the Crater Lake complex and will promote generally the exploration for and discovery of economic syenite-hosted scandium deposits elsewhere in Canada.

材料科学的最新进展导致了高抗拉强度、耐热和耐腐蚀的铝-钪合金的开发，这些合金在日益绿色的航空航天和汽车工业中具有巨大的潜力。由于目前大部分钪的生产都在中国和俄罗斯，因此迫切需要在西方寻找钪资源。帝国矿业集团有限公司是一家加拿大初级矿业公司，专门勘探和开发具有蕴藏稀土元素潜力的矿产资源，该公司控制着魁北克北部的火山口湖矿产，并已证明其下伏的正长岩环状堤坝杂岩中含有潜在的可开采浓度的钪。帝国矿业要求开发一个成因模型，以了解有利于正长岩中钪的浓缩到经济水平的因素，以便为火山口湖复合体制定有效的勘探战略。开发这种模型的起点是确定金属在哪里(在什么岩石/矿物中)以及如何聚集。由于我们最近的研究(Williams-Jones和Vasyukova，2018)，我们知道Sc是一种不相容的元素，集中在早期分馏(来自岩浆)的铁镁矿物中，特别是单斜辉石。帝国矿业公司提供给申请人的少量样品的分析结果表明，单斜辉石可能是火山口湖部分或全部钪的宿主。这项拟议的研究将结合主体岩石、矿物和熔体包裹体的常量元素和微量元素分析，通过重建岩浆的演化和可能的固相线下热液蚀变来追踪陨石坑湖中钪的富集路径。这将导致一种成因模型，Imperial将使用该模型来瞄准火山口湖复合体中的钪矿化，并将普遍促进加拿大其他地区经济正长岩赋存的钪矿床的勘探和发现。