IperionX successfully obtains crucial permits for the reshoring of Titanium & Rare Earth Mineral supply chains in the key Titan Project.

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Exciting News: Nominations Now Open for the 3D Printing Industry Awards 2023

If you are a 3D printing enthusiast, mark your calendars for November 30th! On this date, the winners of the prestigious 3D Printing Industry Awards will be announced during a live awards ceremony in London. This event is a platform to recognize and celebrate the leaders and innovators in the 3D printing industry across various categories.

But before we dive into the winners and the event itself, let’s take a look at an incredible development in the world of titanium. IperionX, a titanium developer based in North Carolina, has recently secured key development permits for the Titan Project in Tennessee. This project boasts the largest Joint Ore Reserve Committee (JORC)-compliant resource of titanium and rare earth-rich mineral sands in the US.

As one of the most advanced critical mineral projects in the country, the Titan Project plays a vital role in securing material supply chains for titanium and rare earths. These minerals are essential for industries such as defense, electric vehicles, and renewable energy applications. The project has received major development permits, including the National Pollutant Discharge Elimination System (NPDES) Permit and Surface Mining Permit.

IperionX CEO Taso Arima expressed his excitement about securing these permits, stating that it is a significant milestone in their plan to re-shore critical material supply chains. With a focus on building a sustainable and low-cost titanium metal supply chain, IperionX aims to create a strong domestic supply chain for titanium metal within the US. Additionally, the company is working towards closing the loop on this supply chain through the recycling of titanium material.

The Titan Project has gained tremendous support from the Tennessee community and has been the result of extensive community engagement and education on sustainable development. This project has the potential to reduce US reliance on mineral imports from foreign countries and strengthen low-carbon supply chains for US industries.

An Initial Assessment (Scoping Study) conducted for the Titan Project projected impressive economic benefits. These include a life-of-mine annual EBITDA of approximately $117 million, an after-tax NPV8 of $629 million, and an after-tax IRR of 40%. Building on this success, IperionX plans to assess the application of its titanium technologies to upgrade ilmenite at the Titan Project, with the aim of producing higher-grade, low-carbon, Green Rutile.

Away from the Titan Project, IperionX collaborates with various US government funding and incentive programs to further strengthen critical material supply chains. This includes partnerships with the Defense Production Act Title III program and Department of Energy programs facilitated by the Inflation Reduction Act and Bipartisan Infrastructure Law.

For IperionX, the Titan Project is part of their broader efforts to reshore supply chains and promote the sustainability of materials used in additive manufacturing. Earlier this year, the company signed a deal with Ford to supply them with 100% recycled titanium. An independent Life Cycle Assessment (LCA) conducted by EarthShift Global also highlighted the environmental benefits of IperionX’s titanium offering, emphasizing its low life cycle carbon footprint.

As we eagerly anticipate the winners of the 3D Printing Industry Awards 2023, let’s remember the groundbreaking developments happening in the world of titanium. IperionX’s Titan Project is not only reshaping supply chains but also paving the way for a more sustainable and environmentally friendly future in additive manufacturing. Stay tuned for more updates on this exciting project and the advancements in the 3D printing industry.

Title: Revolutionizing the Additive Manufacturing Industry: Reshaping Sustainable Supply Chains

Introduction:

The growing demand for additive manufacturing has prompted innovative solutions to ensure a sustainable and circular supply chain. A recent partnership announcement between 6K Additive, a leading producer of industrial 3D printing materials, and Australian-based Surgical Metal Recycling (SMR) has unveiled a groundbreaking method to recycle end-of-life surgical implants. This ingenious collaboration has the potential to radically transform the industry and reshape the future of sustainable manufacturing.

Recycling Surgical Implants:

Utilizing their production-scale microwave plasma platform, UniMelt, 6K Additive has developed a method to convert discarded surgical implants into high-quality titanium powder. The newly transformed powder can then be used to create 3D-printed implants, creating a closed-loop system that eliminates waste and minimizes environmental impact. This partnership is not only pioneering but also represents a significant step towards a more sustainable future.

The Benefits of a Circular Supply Chain:

By recycling end-of-life surgical implants, 6K Additive and SMR have established an incredibly sustainable and circular supply chain. Leslie Frost, Senior Director of Marketing at 6K Additive, emphasized how this innovative process resonates with their commitment to environmental responsibility. By collecting and repurposing surgical implants, these companies are reducing the need for raw materials while simultaneously addressing the global challenge of medical waste disposal.

Reducing Carbon Footprint:

One remarkable aspect of this collaboration is the low quantified life cycle carbon footprint achieved by 6K Additive’s titanium powder. According to data from IperionX, this innovative approach represents the lowest carbon footprint available for commercial titanium powder. By utilizing this eco-friendly alternative, the additive manufacturing industry can significantly reduce its carbon emissions and contribute to a healthier, cleaner planet.

Reshoring a Sustainable Supply Chain:

With the establishment of this partnership, a sustainable supply chain is now within reach. By repurposing titanium powder from recycled surgical implants, 6K Additive and SMR are helping reshape the manufacturing industry in the United States. This not only promotes the local economy but also reduces the reliance on foreign suppliers, ensuring a consistent and sustainable source of materials for the additive manufacturing sector.

Looking Ahead:

The collaboration between 6K Additive and SMR represents a significant breakthrough in additive manufacturing. This groundbreaking approach to recycling end-of-life surgical implants showcases the potential for companies to take responsibility for their environmental impact. As the demand for sustainable practices increases, it is encouraging to see innovative solutions emerge that prioritize circularity and reduced carbon emissions.

Conclusion:

The partnership between 6K Additive and SMR has paved the way for a renewed focus on sustainability and circularity within the additive manufacturing industry. By repurposing discarded surgical implants into high-quality titanium powder, these two companies are taking great strides towards reducing waste and carbon emissions. As this innovative process gains traction, it will inspire other companies to adopt more sustainable practices, ultimately reshaping the industry for the better.

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