3D printed tools
The CBAM 25: Revolutionizing 3D Printing with Unmatched Speed and Performance
CBAM 25 – Unleashing the World’s Fastest 3D Printing Technology
Experience Breakthrough Speed: Introducing CBAM 25, the world’s fastest 3D printer that redefines the boundaries of speed in additive manufacturing. Witness printing speeds reaching a mind-blowing 25 feet per minute, surpassing any technology on the market.
Unmatched Efficiency: With CBAM 25, you’ll achieve unparalleled efficiency in your production process. Say goodbye to long waiting times and hello to rapid results, empowering you to bring your ideas to life at lightning speed.
Precision and Performance Redefined with CBAM 25
Supreme Dimensional Accuracy: CBAM 25 sets a new standard for dimensional accuracy in 3D printing. Enjoy precise and reliable output, ensuring your parts fit seamlessly and function flawlessly.
Unbeatable Strength-to-Weight Ratios: Elevate your designs with high-performance composite materials like Carbon Fiber PEEK. CBAM 25 produces parts with exceptional strength-to-weight ratios, outperforming traditional materials like aluminum.
Revolutionary Materials for Unmatched Performance
High-Temperature Performance: CBAM 25 is not just about speed; it’s about performance too. Experience the advantage of high-temperature performance with our advanced composite materials, taking your projects to new heights.
Strength and Durability: Our materials boast unmatched strength and durability, making them ideal for even the most demanding applications. From aerospace to automotive, CBAM 25 parts excel in any industry.
Impossible Objects is at the forefront of the additive manufacturing and composites manufacturing industries, operating as a prominent 3D printer and materials company. Through extensive research and development, they have pioneered an innovative composite-based additive manufacturing technology (CBAM), setting it apart from conventional additive manufacturing methods.
Dedicated exclusively to composites, the CBAM process yields parts that surpass the strength of other additive manufacturing technologies. Notably, it outpaces traditional composite methods in terms of speed while offering increased design flexibility and a diverse range of materials, including carbon fiber and fiberglass combined with Nylon and PEEK. Yet, this is only the beginning for Impossible Objects. Their vision is to create additively manufactured composite parts of unprecedented strength, rivaling those produced through hand layup techniques but with the efficiency of injection molding speeds.