3D Systems is pleased to announce CuNi30, a corrosion-resistant, copper-nickel alloy for use with its DMP Flex 350 metal 3D printer. This material resulted from the company’s collaboration with HII’s Newport News Shipbuilding division to develop materials and process parameters for laser powder bed fusion additive manufacturing.
Various pipe fittings printed by Newport News Shipbuilding using Certified CuNi30 material on 3D Systems’ Direct Metal Printing hardware.
- 3D Systems & HII co-developed CuNi30 to enable production of traditionally cast parts, potentially reducing lead time by up to 75%
- Direct metal printing of copper-nickel (CuNi30) results in average relative density of 99.88% - a significant improvement compared to casting
- Material to be commercially available to address existing need for CuNi casting alternatives in marine, offshore oil & gas, and chemical & nuclear industries
The companies’ deep domain expertise facilitated the development of CuNi30 and is allowing Newport News Shipbuilding to use additive manufacturing in place of its traditional casting technologies. Direct metal printing parts using CuNi30 to meet Newport News Shipbuilding’s low-volume, high-mix hardware needs can improve supply chain efficiency – with an anticipated 75% reduction in lead times as well as lowered inventory costs.
Copper-nickel alloys are used extensively in salt water, petroleum, and acidic environments due to the material’s excellent corrosion resistance, and its anti-microbial and anti-algae properties that enable resistance to algae growth during extended exposure to water. CuNi30 is often used to manufacture pipe fittings and valves for the marine (e.g., shipbuilding and repair), offshore oil and gas, and chemical and nuclear industries. These alloys also possess stable mechanical, physical, and thermal properties (from 400°C down to -270°C) which make them suitable for cryogenic applications.
CuNi alloys are historically difficult to cast, which often adds costly cycles of rework and reinspection to meet quality standards. This leads to very long lead times and a limited number of capable and willing suppliers who can support production of quality hardware. HII recognized the potential to realize significant benefits if the DMP hardware, material, and process could be qualified for their production components, and partnered with 3D Systems to make this a reality.
“3D Systems has earned a reputation as a trusted partner for advanced R&D and commercialization of novel additive manufacturing materials and applications,” said Dr. Michael Shepard, vice president, aerospace & defense segment, 3D Systems. “We’ve had a decades-long relationship with the U.S. Navy which has helped drive innovation for a variety of applications including aircraft parts and submersible components. Our latest project with Newport News Shipbuilding yielded a copper-nickel alloy specifically designed for AM that results in better part density and mechanical properties as compared to traditional casting. We look forward to seeing how direct metal printing and CuNi30 will be able to accelerate Newport News Shipbuilding’s production workflows and its innovation pipeline.”
“We’re excited to announce the completion of a significant milestone in the development of a CuNi alloy with 3D Systems,” said Dave Bolcar, vice president of engineering and design for Newport News Shipbuilding, a division of HII. “Earlier this year we completed a multi-year effort with 3D Systems related to the research and development of a Corrosion Performance Design Guide for Direct Metal Printing of a nickel-based alloy. We’re looking forward to continuing to expand our parameter development efforts with 3D Systems into other alloys of interest to our industry. These developments allow us to further expand the use of additive manufacturing into our platforms in ways that provide positive quality, schedule, and performance benefits to the customer.”
3D Systems intends to add CuNi30 to its industry-leading materials portfolio to enable the direct metal printing of corrosion-resistant parts for additional industries. The material is anticipated for general availability in the fourth quarter of 2022.