Space & Aerospace
From Sky to Galaxy, Explore the Potential of Precision with RX Industries.
Superior Satellite and Advanced Technology Manufacturing
RX Industries provides machined satellite structural frames, milled control moment gyroscope parts, and satellite communication items.
Our state-of-the-art CNC technology ensures the strength and minimized weight required for satellite support structures, as well as the complex metal components for satellite attitude control. With precision surface contouring, we can create parabolic structures that push the boundaries of communication technology.
From high-precision CNC work for space components to intricate machining for antennas, we set the standard for quality and innovation in aerospace manufacturing.
Precision Rocket and Spacecraft Component
RX Industries thrives at the intersection of precision and innovation, we are capable of machining rocket engine components, heat intensive products, nozzles, and bulkheads.
With our advanced CNC machining capabilities, we can craft intricate tubing, valves, pump components, injectors, casings, and nozzles that withstand high heat and pressure in rocket engines.
Whether it is shaping the curved and angled surfaces of spacecraft parts or constructing aluminum or exotic materials brackets for rockets, we deliver customized solutions that meet the rigorous demands of space exploration and technology.
Cutting-Edge Aviation & Energy Systems Solutions
With a relentless pursuit of excellence, RX Industries offers cutting-edge CNC solutions for manufacturing turbine blades, constructing aerial drone airframes, and milling parts for jet engines and power generators.
Our precision CNC machining crafts turbine blades to optimal shapes, ensuring efficiency and performance in both aviation and energy systems.
Whether the component is an exotic alloy of Monel, Inconel, titanium or aluminum, our commitment to accuracy, customization, and quality resonates through our diverse capabilities, fostering innovation in aviation, energy, and beyond.