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Artificial cartilage with the help of 3D printing . Growing cartilage tissue in the lab could help patiens with injuries, but it is very hard to make the tissue grow in exactly the right shape. A new approach could solve this problem: Tiny spherical containers are created with a high-resolution 3D printer. These containers are then filled with cells and assembled into the desired shape. The cells from different containers connect, the container itself is degradable and eventually disappears. #ScienceDailynews #InnovativeResearch #NextGenScience #ExploringFrontiers

⭐️ Welcome you to read one of our highly cited papers published "#Biomaterials Adapted to Vat #Photopolymerization in 3D Printing: Characteristics and #Medical Applications" by Dr. Cristian Scheau et al. 📈 This review’s primary objective is to highlight #biofunctional and #biocompatible #materials that have been adapted to VPP. ✅ More details at: https://brnw.ch/21wMg7D 📌Special Issue Biomaterials in Medical #Diagnosis and #Treatment. #MDPI #openaccess #openscience #learning #research

🧊 3D Ice Printed Artificial Blood Vessels in Engineered Tissue! The one big challenge in tissue engineering is creating blood vessel networks in artificial organs that work like natural ones, from tiny capillaries to larger arteries. However, researchers from Carnegie Mellon University shows the possibility of using 3D ice printing to help create structures that resemble blood vessels in the body, mimicking their natural design and allowing them to function properly in the body. Researchers hope the 3D-printed vessels could eventually be used in artificial organ transplants or drug testing. Read more about 3D ice printing here: https://lnkd.in/gThfPW8R #3Diceprinting #3Dprinting #EngineeredTissues #biomedical

The Future is Here: Unpacking the Latest Breakthroughs in 3D Printing Technology In today's fast-paced world, technology is constantly evolving and shaping various industries. One such field that has seen remarkable advancements in recent years is 3D printing technology. From its humble beginnings as a niche concept to its widespread adoption across multiple sectors, 3D printing has come a long way. At its core, 3D printing involves the creation of three-dimensional objects by layering materials based on digital designs. This innovative process allows for greater accuracy and customization than traditional manufacturing methods. Originally used primarily for prototyping purposes, it has now expanded to include production-grade applications across industries such as aerospace, healthcare, automotive, and even fashion. Staying updated with the latest breakthroughs in this cutting-edge technology is crucial for anyone involved or interested in the field. As discoveries are made and advancements are achieved, it opens up possibilities and opportunities. By keeping abreast of these developments, individuals can stay ahead of the curve and leverage them to their advantage. Over the years, this innovative field has made incredible strides, transforming how we create objects and pushing the boundaries of what is possible. Here, we will discuss the latest breakthroughs in 3D printing technology and explore why it is crucial to stay updated with these advancements. Read more at https://lnkd.in/eEfFYjqG #3Dprinting #AdditiveManufacturing #AdvancedMaterials #PolymerPrinting #MetalPrinting #Biomaterials #MedicalApplications #HighSpeedPrinting #ContinuousPrinting #ParallelPrinting #highresolution #highprecision #CustomizableProducts #RapidPrototyping #InnovativeManufacturing #FutureOfManufacturing #EmergingTechnology #DisruptiveTech

Our research on the potential of micro 3D printing is being featured on 3Dnatives - check the article in full. #additivemanufacturing #research #cfam #micro3dprinting

HEMANTH LINGAMGUNTA With the latest advancements in 3D printing technology, it is now possible to create concept cars from scratch using metal 3D printing and other 3D printing infrastructure machines. This technology allows for rapid prototyping, design flexibility, and the production of complex parts that were previously challenging to manufacture[2][5][7]. Nico Rosberg Metal 3D printing, in particular, has opened up new opportunities for automotive manufacturers to produce cars more efficiently and effectively. It enables the creation of lightweight, high-performance parts with complex geometries, which can be used in various automotive applications[6][7]. Several examples of 3D printing in the automotive industry include the production of end-use parts for vehicles such as the Cadillac Blackwing V-Series, Aston Martin Callum Vanquish 25 by R-Reforged, and Ford Mustang Shelby GT500[6]. These applications demonstrate the potential of 3D printing to transform the automotive manufacturing process. Moreover, the automotive 3D printing market is projected to grow significantly, from USD 2.9 billion in 2022 to USD 7.9 billion by 2027, at a CAGR of 21.7%[3]. This growth is driven by the increasing adoption of 3D printing technology in the automotive industry for its design freedoms, lightweighting capabilities, and material options. In summary, the latest cutting-edge technology in 3D printing enables the creation of concept cars from scratch using metal 3D printing and other 3D printing infrastructure machines, offering rapid prototyping, design flexibility, and the production of complex parts. Citations: [1] The Future is Here: Unpacking the Latest Breakthroughs in 3D Printing https://lnkd.in/gXZV9HDh [2] 3D printing in the automotive industry - 3DGence https://lnkd.in/gAEw4_gK [3] Automotive 3D Printing Market Share, Size, Trends - [2022- 2027] https://lnkd.in/gSQkYujV [4] 10 Exciting Examples of 3D Printing in the Automotive Industry in 2021 https://lnkd.in/gZbYMHGm [5] How the Concept Cars of Tomorrow Are Made With 3D Printing https://lnkd.in/ghRzyiKB [6] Real Examples of 3D Printing in the Automotive Industry https://lnkd.in/gtem_QiK [7] Metal 3D printing for the automotive industry https://lnkd.in/gsXUf64s [8] 10 Of The Most Iconic 3D Printed Vehicles - Prototal UK https://lnkd.in/geYp-Cnv

#AMNews || Artificial Cartilage with the help of 3D Printing || AM Chronicle #3dprinting #additivemanufacturing “Cultivating cartilage cells from stem cells is not the biggest challenge. The main problem is that you usually have little control over the shape of the resulting tissue,” says Oliver Kopinski-Grünwald from the Institute of Materials Science and Technology at TU Wien, one of the authors of the current study. “This is also due to the fact that such stem cell clumps change their shape over time and often shrink.” To prevent this, the research team at TU Wien – Academy for Continuing Education is working with a new approach: specially developed laser-based high-resolution 3D printing systems are used to create tiny cage-like structures that look like mini footballs and have a diameter of just a third of a millimeter. They serve as a support structure and form compact building blocks that can then be assembled into any shape. #engineering #development #design #biomedicalengineering https://lnkd.in/dNWNZCcB

The intersection of engineering and medicine is where the magic happens! The healthcare industry is on the brink of a huge innovation, and the combination of knowledge and innovation will bring it to fruition. I share with you a study on 3D printing techniques for artificial blood vessels. Check it out and let me know what you think! #healthcareinnovation #engineering #medicine #3Dprinting #artificialbloodvessels

3D ice printing can create artificial blood vessels in engineered tissue . A new 3D printing method uses ice to build a template for artificial blood vessels in engineered tissue. Researchers hope the vessels could eventually be used in artificial organ transplants or drug testing. #ScienceDailynews #InnovativeResearch #NextGenScience #ExploringFrontiers

Nano Dimension’s micro-3D printing advances biomedical research. The study centres around the accurate recording of neuronal activity in mice, with the aim to elucidate the neuronal circuits and mechanisms involved in the processing of somatosensory information. The results of the project underscore the vital role played by innovative manufacturing solutions in the advancement of biomedical research and the development of cutting-edge medical devices. #3dprinting #additivemanufacturing #biomedical #research #micro3dprinting #medical