Scandium Canada Ltd. has announced notable advancements in creating a fully integrated scandium supply chain, from mining to various downstream applications. Since 2021, Scandium Canada has partnered with McMaster University to innovate the 3D printing process using aluminium-scandium powders.
Advancements in 3D printing
These proprietary powders, developed by Scandium Canada, are specifically designed to produce parts that are difficult to manufacture using conventional methods. The company is pleased to announce the successful 3D printing of two aluminium alloys enhanced with scandium.
Previous challenges related to solidification cracking have been effectively addressed. The company prioritises integrating these innovations into industries characterised by rapid adoption cycles. Ongoing discussions with industrial partners are in progress to conduct testing on the printed products and evaluate their properties across diverse applications.
The company's flagship project, Crater Lake in northeastern Quebec, is one of the few primary scandium deposits worldwide. This initiative aims to meet the increasing demand from manufacturers seeking dependable scandium supplies for their value chains.
"We strongly believe in the development of a scandium ecosystem including multiple producers and users to promote a sustainable scandium market. Our results are an important step towards establishing a fully integrated scandium supply chain to realise the full potential of our Crater Lake project.
Our research efforts support developing new market applications of aluminium scandium alloys. Developing new markets for aluminium scandium alloys is crucial because potential users have hesitated to rely two on foreign sources of scandium. By establishing domestic sources and integrating them into various industries, we can ensure a stable and reliable supply of this valuable material, encouraging broader adoption and innovation," said Guy Bourassa, CEO of Scandium Canada.
Use of the aluminium-scandium alloys
Scandium Canada has identified several industrial applications for aluminium-scandium alloys, highlighting their potential in solar panel frames. These alloys feature a unique blend of lightweight properties and high strength, effectively enhancing the efficiency and performance of solar panel frames. With the rapid growth of the solar panel industry, it is critical to minimise its carbon footprint.
Utilising aluminium-scandium alloys in solar panel frames can contribute significantly to this objective by reducing weight and enhancing frame durability. The company is presently developing test alloys for extruding intricate profiles intended for solar panel frames, which will undergo testing by a leading solar panel manufacturer. Updates on this agreement and the testing program will be disclosed to the market as advancements are achieved.
Solar photovoltaic industry's growth
The global solar photovoltaic industry has seen substantial annual growth, fuelled by increasing adoption of renewable energy and advancements in solar technology. The sector has expanded significantly due to growing environmental awareness and favourable government policies, contributing to carbon emission reduction and sustainable energy solutions.
Moreover, declining costs and enhanced efficiency of solar panels have bolstered global expansion, positioning solar energy as a pivotal player in the global energy landscape. Scandium Canada remains dedicated to advancing innovation and sustainability through its integrated Scandium supply chain, bolstering the future of renewable energy and advanced manufacturing technologies.
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