ROBOZE has launched the ARGO 500 HYPERSPEED MISSION READY (MR), a new additive manufacturing system designed to support the aerospace and defence sectors.
The company says the machine can produce high-performance polymer and composite parts for sectors where reliability, repeatability, and operational readiness are essential.
ROBOZE says it has released the new product in response to increasingly complex supply chains and operations. With the ARGO 500 HYPERSPEED MR, high-performance polymers can be leveraged to reduce weight, improve durability, and replace traditionally machined metal parts. The machine is said to have been optimised for industry-standard materials, such as SABIC’s ULTEM AM9085F resin for cabin interior applications, as well as advanced carbon fibre reinforced materials like ROBOZE’s Carbon PEEK for metal replacement and corrosive environments.
Advancements in mechanical precision, thermal stability, and advanced programmable logic control (PLC) architecture are other key features of the platform, while an integrated material conditioning architecture helps to protect sensitive materials throughout the manufacturing process.
“In today’s geopolitical and industrial landscape, technological sovereignty and supply-chain resilience are mission-critical capabilities,” said Alessio Lorusso, founder & CEO of ROBOZE. “ARGO 500 HYPERSPEED MISSION READY enables aerospace and defence organisations to produce advanced components on demand, strengthening operational readiness while reducing dependence on traditional, fragile supply chains.”
“As an industry, aerospace and defence constantly push the boundaries of innovation,” added Scott Sevcik, executive vice president of aerospace & defence at ROBOZE. “But delivering value to the operator in the field requires meeting the highest standards and performing under extreme conditions. ARGO 500 HYPERSPEED MISSION READY was engineered to deliver the repeatability, material control, and reliability required to meet the stringent qualification requirements and perform at the highest levels.”
