Aarni Heiskanen’s Post

3D Construction Printing Use Case (Home Foundations) 3D Construction Printing (3DCP) is rapidly transforming the construction industry, offering a revolutionary approach to building homes, including their foundations. Unlike traditional methods that rely on manual labour and formwork, 3DCP can be used to print foundations layer by layer, eliminating the need for formwork and ensuring precise measurements with complex designs. LUYTEN® is at the forefront of 3DCP technology, providing cutting-edge solutions for construction globally. Our advanced 3D printers are designed to deliver precision, efficiency, and sustainability, transforming the way homes are built. We invite you to share your thoughts on how 3DCP can revolutionize the construction industry and inspire future innovations or use cases. #robotics #construction #3dconstructionprinting #concrete #innovativetechnology #futureofconstruction #sustainabledevelopment #housingsolutions

Mark Winker, Thank you for introducing us to the fascinating world of high-temperature 3D glass printing, Mark. The merging of innovation and sustainability in this domain is truly commendable. It's inspiring to see how digital manufacturing continues to push boundaries, providing endless design possibilities while maintaining a focus on sustainable practices. The notion of sourcing on-demand and ceasing warehousing not only optimizes supply chain processes but also significantly reduces the industry's carbon footprint. This is a classic example of how technological advancement can work hand in hand with environmental responsibility. Maple Glass Printing's video is indeed a testament to the beauty that can be achieved through this technology. It will be interesting to see how these machines transform various industries as they become more widely adopted. I'll surely get in touch with Replique for deeper insights into industrial additive manufacturing. Keep enlightening us with such innovative concepts, Mark!

I just challenged with Max MÄNNEL the calculation of Mark Winkers video. To show you, that 3d printing is a valuable production method for even higher batches we have calculated the breakeven: MaxResolution3D could produce in 8 days 61538 parts for 0,63 € per piece in the material BASF Forward AM Ultracur3D ST 45 Black cheaper than injection molding. These numbers are for our current setup. Scalability is given! In the calculation of Replique the part costs are 0,50 €. If the part would cost just 0,10 € in injection molding the breakeven would be at 15094 parts. #3dprinting #seriesproduction #3ddruck #automation #injectionmolding

A Step Towards Construction Revolution https://lnkd.in/gUZdrVGi 3D printing in construction, also called 3DCP, makes use of robotics to deposit construction material in layers, creating walls, floors and roofs. Typically, a 2,000 square foot home takes about four months to construct. #3dprint #3dprintig #3dpostoffice #3dpostoffice #L&T

🔍 #3dprinting vs. injection moulding - When to choose what❓ We compared it for you in the below quick video, and it shows: 💡 When it comes to small/medium size volumes, or bridge manufacturing, 3D printing is already the best choice for a cost-efficient production. Why❓ Because there is no need for expensive molds, which means cost-efficiency right from the beginning. In the example in the video of a bushing locking system, it takes a volume of more than 5000 pieces for injection molding to become more profitable. This also comes with: 🔹 The possibility of complex designs 🔹 Fast time-to-market 🔹 Lower Investment 🔹 No minimum order quantities and excessive storage 🔹 High production flexibility It´s time to re-think manufacturing! 💯 To discover you´re potentials, just get in touch 📞, or upload your parts directly here 👉 https://replique.io/quote/ Kind regards, Mark #additivemanufacturing #maschinenbau #automation #robotics #digitalmanufacturing #supplychain

This is an impressive advancement in 3D manufacturing. What laser welding technology is used in this metal 3D printer? What are the main advantages of this technology compared to traditional welding processes in terms of quality, precision, and production speed? How does the combination of a tilting rotary table and a KR IONTEC robot arm ensure maximum precision as well as speed and flexibility in the manufacturing process? What technical innovations have enabled this integration? Thanks.

Robotic arms offer unparalleled multi-axis freedom for 3D printing, this capability excels when printing onto existing parts or surfaces. Conformal 3D printing grants immense design flexibility. Designers can now create the parts they envision without being limited by traditional manufacturing constraints. Leveraging the multi-axis capabilities of robotic arms in manufacturing eliminates the necessity for support structures, streamlining post processing and reducing material wastage. Our collaboration with Zaha Hadid Architects back in 2017 on Thallus, for the White City in #Milan, exemplifies our utilisation of this advanced printing strategy. The Thallus sculpture was 3D printed onto a curved mould, showcasing the true potential of innovation in design and fabrication. Contact us for more on conformal 3D printing: https://lnkd.in/dqh-P9d #additivemanufacturing #software #3dprint #3dprinting #architecture #zahahadid #thallus #design #conformal #manufacture #robotics #robot #construction

A useful way to recycle plastic, as plastic has a big impact on the environment, we should find as many methods in recycling it into other practical items.

😍 Watching this is really mesmerising 😍 🔐 REVEALING THE FUTURE OF 3D INTERLOCKING IN ROBOTICS 🤖 3D printing brings a new dimension to interlocking designs. ✅️ Intricate shapes ✅️ Increased toughness ✅️ Adaptable elements 🔧 Only achievable through sophisticated 3D printing, interlocking structures expand robotics' possibilities and enable previously unthinkable complex and robust designs. 🧩 These structures make it possible to design intricate geometries that combine to provide strong, durable parts for robotic applications. 🔄 The capacity to print components as a single unit with interlocking pieces, offering enhanced durability, ensures long-lasting performance and reduces the need for adhesives or fasteners. 🛠️ Adaptable components facilitate speedy prototyping and customised solutions, allowing engineers to effectively design and test new robotic parts, encouraging creativity and adaptability. How do you feel? #innovation #creativity #technology #letsconnect #future #engineering #robotics #3dprinting #interlocking #structure #research #science #design

🔍 #3dprinting vs. injection moulding - When to choose what❓ We compared it for you in the below quick video, and it shows: 💡 When it comes to small/medium size volumes, or bridge manufacturing, 3D printing is already the best choice for a cost-efficient production. Why❓ Because there is no need for expensive molds, which means cost-efficiency right from the beginning. In the example in the video of a bushing locking system, it takes a volume of more than 5000 pieces for injection molding to become more profitable. This also comes with: 🔹 The possibility of complex designs 🔹 Fast time-to-market 🔹 Lower Investment 🔹 No minimum order quantities and excessive storage 🔹 High production flexibility It´s time to re-think manufacturing! 💯 To discover you´re potentials, just get in touch 📞, or upload your parts directly here 👉 https://replique.io/quote/ Kind regards, Mark #additivemanufacturing #maschinenbau #automation #robotics #digitalmanufacturing #supplychain