Indian AM-focused training center Matrix Moon has recently acquired the EXT 1070 Titan Pellet 3D printer from 3D Systems, a renowned US-based 3D printer manufacturer. This purchase marks a significant milestone for Matrix Moon as they become the sole company in India to offer this cutting-edge technology. The EXT 1070 Titan Pellet 3D printer comes with an optional milling spindle tool head, allowing for hybrid additive and subtractive manufacturing. This means that Matrix Moon can efficiently deliver a wide range of applications, including molds, tooling, patterns, and end-use parts for various industries such as aerospace, automotive, HVAC, and consumer products.
The EXT Titan Pellet system offers numerous advantages over traditional manufacturing methods. With proprietary pellet extrusion technology, it enables 10 times faster 3D printing and reduced material expenses, making it a more cost-effective option. The large-format 3D printer is equipped with active chamber heating, which allows for the utilization of high-temperature engineering materials like ABS, Nylons, PC, PEI, and PEKK. Furthermore, the EXT Titan Pellet system facilitates large print volumes, making it suitable for full-scale prototyping and end-use production in new applications.
Matrix Moon sees great potential for the EXT 1070 Titan Pellet system in India’s casting industry. They believe that this technology can transform the country’s second-largest casting industry, following China. By combining additive and subtractive technologies along with pellet materials, Matrix Moon aims to address a broader range of applications and revolutionize manufacturing in India.
Deelip Menezes, Managing Director of 3D Systems India, commends Matrix Moon for their commitment to advancing additive manufacturing in India. He believes that by choosing the EXT Titan Pellet 3D printer, Matrix Moon is offering an unparalleled platform that can integrate pellet extrusion, filament extrusion, and subtractive milling on the same machine. This versatility will allow Matrix Moon to cater to a greater breadth of applications and further expand the adoption of the EXT Titan Pellet system in India.
In terms of technical specifications, the EXT 1070 Titan Pellet 3D printer offers a large build volume of 1070mm X x 1070mm Y x 1219mm Z, making it suitable for printing large-scale objects. It has a power input requirement of 208V Three Phase 100A and weighs 2041kg (4500lbs). The toolhead configurations include options for pellet extruders, filament extruders, and a spindle, providing flexibility in production processes.
Looking ahead, the future of 3D printing holds immense possibilities. As the technology continues to advance, it is expected to overcome engineering challenges and offer even more innovative solutions. With its game-changing capabilities, the EXT Titan Pellet system is poised to be at the forefront of this progress, transforming manufacturing processes and establishing India as a global manufacturing hub.
Overall, Matrix Moon’s acquisition of the EXT 1070 Titan Pellet 3D printer signifies a significant step towards revolutionizing manufacturing in India. With its unique features and capabilities, this cutting-edge technology has the potential to reshape the industry and pave the way for a more efficient and cost-effective production process.
The additive manufacturing sector has seen significant growth and development in recent years. As technology continues to advance, there are several challenges that the industry will need to tackle in the coming decade.
One of the major challenges is the need for improved material options. While there have been significant advancements in the range of materials that can be used in additive manufacturing, there is still a need for more options. This includes the development of materials that are stronger, more durable, and have better heat resistance. Additionally, there is a need for materials that are more environmentally friendly, as sustainability becomes an increasingly important consideration.
Another challenge is the need for increased speed and efficiency. While additive manufacturing has the potential to revolutionize production processes, there is still work to be done in terms of reducing print times and increasing the speed at which products can be produced. This will require advancements in both hardware and software, as well as the development of new printing techniques.
Quality control is another area that the additive manufacturing industry will need to address. As the technology becomes more widespread and is used in a wider range of applications, there will be an increased need for quality control measures. This includes the development of standards and guidelines for additive manufacturing, as well as the implementation of rigorous testing and inspection protocols.
Safety is also a concern in the additive manufacturing sector. As the technology evolves and becomes more widely used, there is a need for proper safety procedures and protocols. This includes the development of guidelines for handling and storing materials, as well as ensuring that printers are safe to use and operate.
Finally, there is a need for increased collaboration and knowledge sharing within the additive manufacturing industry. As the technology continues to advance, it is important for companies and researchers to work together to share insights and best practices. This includes collaboration on research and development projects, as well as the sharing of data and information.
In conclusion, the additive manufacturing sector will face several challenges in the coming decade. However, with continued innovation and collaboration, these challenges can be overcome, and the industry can continue to grow and evolve.