Speira has introduced a new blockchain-enabled technology known as speira.ID, marking a significant step toward greater transparency and traceability in the metals industry. The solution has been developed as a digital product passport that consolidates detailed information about each individual aluminum coil into a single, secure record. By using blockchain infrastructure, the company aims to ensure that critical production and sustainability data remains consistent, verifiable, and accessible across the value chain.
The launch reflects Speira’s broader strategy to support circular economy principles by embedding transparency directly into its products. The company has positioned speira.ID as a tool that goes beyond traditional reporting by offering granular insights into material composition, environmental impact, and production history.
Sustainability and Corporate Purpose
Speira’s product leadership has indicated that the new platform aligns closely with the company’s stated purpose of building a circular economic model that functions effectively at scale. Management has emphasized that sustainability efforts extend beyond reducing emissions during production and also encompass full transparency across manufacturing processes and business operations.
According to the company, its internal culture plays a central role in shaping how teams collaborate with partners and customers. This approach is intended to help Speira anticipate regulatory and market expectations related to environmental, social, and governance standards. By embedding transparency into its products, the company aims to remain ahead of evolving ESG compliance requirements.
Detailed Data at the Coil Level
speira.ID is designed to provide comprehensive, coil-specific information. For each unique coil, the digital passport records its origin, including the casting facility, production date, batch number, and rolling mill. In addition, it documents the overall share of recycled material used in production and quantifies the carbon footprint in kilograms of carbon dioxide per kilogram of aluminum.
The platform also breaks down the input mix used in each coil. This includes the proportion of materials such as used beverage cans, post-consumer and pre-consumer scrap, internal production scrap, recycled alloys, runaround scrap, and primary metal. Chemical composition data is also included, enabling downstream users to understand material properties with a high degree of precision.
Controlled Access for Customers
With customer authorization, a streamlined version of the digital product passport can be made publicly accessible online. This lighter version can be viewed through a QR code, allowing customers and partners to retrieve essential information quickly without accessing sensitive data. Speira has indicated that this feature is intended to balance transparency with data protection, ensuring that information is shared responsibly.
Company representatives have suggested that this level of openness reflects growing customer expectations. They believe that providing clear and verifiable data will help establish trust and is likely to become a standard requirement for traceability, accountability, and responsible resource management across the industry.
Enabling Circularity and Compliance
By connecting data from production through to the finished product, speira.ID links the entire value chain within a single digital framework. This connectivity is expected to simplify the return of materials into recycling loops, as the known composition of each coil reduces uncertainty during reprocessing. In this way, the platform supports more efficient material recovery and reuse.
The introduction of speira.ID also signals a shift in expectations for companies operating in the metals sector. Businesses will increasingly be required to substantiate claims related to sustainability, material origin, and carbon emissions. By adopting a blockchain-based product passport, Speira is positioning itself to meet these demands proactively.
Overall, speira.ID represents a move toward data-driven transparency in industrial manufacturing. As regulatory scrutiny and customer demand for sustainable practices continue to rise, such solutions are likely to play a central role in shaping how materials are tracked, valued, and reused in the global economy.
