
Honeywell’s Qualification of 6K Additive’s Ni718 Powder for Aerospace Manufacturing
6K Additive, a division of 6K, has announced that its Ni718 nickel alloy powder has been officially qualified by Honeywell Aerospace Technologies for use in aerospace Additive Manufacturing (AM). This marks a significant achievement for both companies. It advances sustainable practices in the aerospace sector.
Honeywell, a global leader in aerospace and avionics, now utilizes 6K’s Ni718 powder for producing aerospace components through AM technologies. This collaboration enhances the potential of high-temperature, corrosion-resistant materials in the development of advanced aerospace parts.
Ni718 Powder’s Role in Aerospace Additive Manufacturing
The Ni718 powder, developed by 6K Additive, is a precipitation hardening alloy composed of nickel, chromium, molybdenum, and titanium. It is specifically designed to withstand high temperatures and resist oxidation, properties crucial for aerospace applications. The alloy’s advanced features make it ideal for producing components in environments subject to extreme heat, such as aerospace engines and turbines.
The certification of 6K Additive’s Ni718 powder by Honeywell signifies a breakthrough in sustainable AM practices. Honeywell’s qualification process ensures the powder meets the stringent standards for aerospace applications. It offers better performance in manufacturing processes. As a result, this certification opens up new possibilities for creating highly durable, high-performance aerospace parts with reduced waste and energy consumption. It aligns with Honeywell’s sustainability initiatives.
SuperMetalPrice Commentary:
Honeywell’s qualification of 6K Additive’s Ni718 powder represents a pivotal step in the integration of sustainable Additive Manufacturing within the aerospace sector. As aerospace manufacturers increasingly focus on improving performance while reducing environmental impacts, the development and certification of high-quality materials like Ni718 will be key in driving innovation. This collaboration also demonstrates the growing demand for advanced alloys capable of enduring extreme operational conditions. It ensures aerospace components are both reliable and cost-effective.
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