Kinisis Ventures Backs Innovative 3D Printing Technology
Kinisis Ventures (KV) has made a significant investment in Phase3D, a Chicago-based firm pioneering real-time quality assurance technology for 3D metal printing, as part of a $2 million seed financing round. This round marks a collaboration with several prominent investors, including New York Angels (NYA), Quest Venture Partners, and DMG Mori, further reinforcing Phase3D’s standing in the industrial additive manufacturing arena.
Advancements in Quality Assurance
Phase3D has introduced Fringe Inspection™, a proprietary technology that offers a universal quality assurance solution tailored for the metal additive manufacturing sector. Unlike traditional methods that rely heavily on artificial intelligence, this system employs high-resolution, camera-based sensing to deliver physics-based measurements.
This innovation is particularly crucial for industries such as aerospace and defence, where stringent certification requirements make post-build testing both costly and time-consuming. By providing real-time quality assurance throughout the printing process, Phase3D’s technology seeks to optimise the time and expenses associated with testing and part qualification.
Validation and Commercial Success
Phase3D’s technology has gained substantial validation, supported by $3.5 million in non-dilutive grants from prestigious organisations such as the US Air Force, NASA, and the US Navy. This endorsement underscores its applicability for high-specification industrial and governmental applications.
From 2023 to 2025, Phase3D has demonstrated a robust commercial track record, generating $4 million in revenue. The company has also secured over 25 paying deployments with notable customers, including aviation giants like Boeing, GE Aerospace, Lockheed Martin, and NASA.
Kinisis Ventures’ Strategic Focus
The investment from Kinisis Ventures exemplifies its ongoing commitment to supporting companies that merge proprietary hardware with intelligent software to tackle complex industrial and scientific problems. This strategy aligns with the objectives of other KV portfolio companies, including Autonomics and Embio Diagnostics.
Andreas Panayi, co-founder of Kinisis Ventures, remarked, “Investing in Phase3D through our New York Angels affiliation is a natural evolution for Kinisis Ventures.” He further stated, “It allows us to deepen our US sourcing capabilities while bringing industrial AI and additive manufacturing expertise into our portfolio. By participating in US deals as a Cypriot VC, we are helping demonstrate that Cyprus is an active and sophisticated player in the global venture ecosystem.”
Expanding Global Reach
The investment aligns with KV’s strategy to expand the reach of KV Fund II, which focuses on identifying and nurturing disruptive technologies with global potential. With the rapid advancements in additive manufacturing, the backing of innovative companies like Phase3D positions Kinisis Ventures at the forefront of a revolution in industrial production.
As the world increasingly adopts 3D printing techniques, the need for reliable quality assurance solutions will become ever more critical. Phase3D’s commitment to real-time monitoring and validation could set new industry standards, paving the way for greater efficiency and reliability in manufacturing processes.
The Future of 3D Metal Printing
The partnership between Kinisis Ventures and Phase3D signals a promising future for 3D metal printing technology. As industries strive for innovation, the emphasis on quality assurance will play a vital role in shaping the landscape of manufacturing.
With a foundation built on advanced technology and strategic partnerships, Phase3D is poised to thrive in a competitive market. The backing from Kinisis Ventures and other investors not only validates the company’s approach but also fuels its ambition to revolutionise additive manufacturing.
As the sector evolves, the ongoing collaboration between venture capital and cutting-edge technology firms will be essential in driving progress and ensuring that manufacturing meets the demands of modern engineering and production standards.
