Digital services company Ricoh has joined forces with industrial manufacturing firm Siemens to enhance its aluminum binder jetting (BJT) technology. By utilizing Siemens’ Additive Manufacturing Network digital platform, Ricoh aims to improve the efficiency and scalability of its BJT process to meet the demands of industrial production. The partnership seeks to optimize internal processes and manufacturing, covering the entire value chain from 3D print job preparation to the delivery of finished components. In particular, Ricoh is targeting the electric vehicle (EV) industry, aiming to “digitally transform” its process service offering for industrial additive manufacturing customers.
As part of the collaboration, Ricoh has incorporated Siemens’ Brownfield Connectivity, enabling the collection and storage of information crucial for production control and quality stabilization. This integration will enhance repeatability and consistency, allowing for the use of robust and repeatable aluminum additively manufactured parts in commercial applications. Both Ricoh and Siemens are eager to commercialize their new binder jet offering as soon as possible.
Ricoh’s binder jetting technology leverages its inkjet printing expertise to produce metal parts with complex geometries that conventional manufacturing methods cannot achieve. The process involves dispersing aluminum-alloy powder over the build area and solidifying it into a desired shape using a specially formulated binder. This layer-by-layer process is repeated until the final part is completed. The “green part” is then sintered in a furnace to create a dense end-use component. Ricoh’s binder jetting technology offers advantages such as weight reduction, improved heat exchange performance, time savings, and material recycling.
Through the partnership with Siemens, Ricoh aims to contribute to the realization of a zero-carbon society. The company is focused on achieving zero GHG emissions throughout its entire value chain and enabling the mass-production of highly energy-efficient products using its metal 3D printers. By combining Siemens’ solutions and knowledge with Ricoh’s aluminum BJT, the companies hope to provide customers with reliable and practical systems for mass production applications, ultimately promoting electrification and solving social issues.
The trend of scaling additive manufacturing for industrial mass production is becoming increasingly prominent in the 3D printing industry. Companies like Merit3D and Adhesive Technology Corporation are leveraging 3D printing to meet high-demand orders and deliver parts at a rapid rate. This demonstrates the growing adoption of 3D printing technologies for large-scale production.
In conclusion, Ricoh’s partnership with Siemens will enhance its aluminum binder jetting technology, allowing for more efficient and scalable production. This collaboration is in line with the industry trend of utilizing additive manufacturing for mass production applications. Ricoh aims to leverage its expertise in digital services and inkjet printing to contribute to the realization of a zero-carbon society and meet the evolving needs of industrial additive manufacturing customers.
**Reshaping the Future: Merit3D and Incus GmbH Revolutionize Mass Manufacturing with New 3D Printing Technologies**
Exciting developments in the world of 3D printing are set to transform mass manufacturing as we know it. Two leading technology companies, Merit3D and Incus GmbH, have recently unveiled groundbreaking advancements in 3D printing that will revolutionize the production process and bring a wave of benefits to industries worldwide.
Merit3D, an American-based additive manufacturing company, has announced a game-changing partnership with Adhesive Technology Corporation. This collaboration aims to re-shore mass production into the US, promoting job growth and economic prosperity. As part of their mission, Merit3D will be using their cutting-edge technologies to produce an impressive 40,000 pieces per week. This commitment to scale-up production in the US will undoubtedly have far-reaching positive effects on various sectors, setting a new standard for efficiency and quality.
Another major player in the industry, Incus GmbH, an Austrian engineering firm, has recently launched its latest 3D printer, the Hammer Pro40. This state-of-the-art machine, based on Lithography-based Metal Manufacturing (LMM), showcases a host of upgraded production capabilities. Notably, the Hammer Pro40 can be deployed directly on the factory floor, making it an incredibly convenient and efficient solution for mass manufacturing. Incus GmbH’s commitment to innovation and meeting the demands of today’s industrial landscape is evident in this groundbreaking release.
Excitement around the Hammer Pro40 is tangible, and the true potential of this innovative technology will be showcased for the first time at the upcoming Formnext 2023 in Frankfurt, Germany. The exhibition, scheduled between November 7-10, promises to be a platform that unveils cutting-edge technologies and fosters productive partnerships within the industry. Whether you’re an enthusiast, professional, or investor, this event is a must-attend for anyone interested in the future of manufacturing.
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In closing, the featured image showcases the outstanding capabilities of Ricoh’s aluminum Binder Jet Technology (BJT) system. This high-efficiency air-cooling heatsink, created using Ricoh’s cutting-edge technology, exemplifies the incredible potential of additive manufacturing in delivering innovative solutions for a wide range of industries.
As the advancements made by companies like Merit3D and Incus GmbH continue to reshape the future of mass manufacturing, it is clear that the world is on the brink of witnessing a new industrial revolution. These groundbreaking developments in 3D printing technology offer immense potential for improving efficiency, reducing costs, and driving economic growth. By staying informed and embracing the possibilities presented by additive manufacturing, individuals and industries alike can position themselves at the forefront of this transformative wave.
“Why did the 3D printer go to therapy? Because it had too many layers of unresolved issues!”
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