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The main objective of the AGROSEC project is to develop high-efficiency desiccant systems through 3D printing, focused on the valorization of olive pruning remains, transforming them into a new ecological and biodegradable material that can be used in 3D printing.
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In a significant advancement for material science, a team of researchers from the University of Jaen: MaDolores La Rubia, Daniel Carazo Alvarez, Mj Grande Burgos and for Smart Materials 3D Anyul López has developed an innovative composite material capable of drastically reducing the presence of viruses on surfaces.
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The REGEMAT 3D Biofabrication laboratory published a research titled "Comparison of printable biomaterials for use in neural tissue engineering: an in vitro characterization and an in vivo biocompatibility evaluation."
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3D printing has revolutionized numerous industries by providing an innovative way to manufacture prototypes, custom parts, and final products with unprecedented precision and flexibility. In this dynamic scenario, the choice of printing material plays a crucial role in the quality and durability of the end product. Today, we will delve into the world of Smartfil ASA, a 3D printing material known for its strength and versatility.
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In the constantly evolving world of 3D printing, the choice of the right material plays a crucial role in the success of any project. One of the most widely used and versatile materials in 3D printing is acrylonitrile butadiene styrene, better known as ABS. And in this article, we will delve into the depths of Smartfil ABS material, manufactured by Smart Materials 3D, to understand its characteristics, applications, and advantages in the fascinating world of additive manufacturing.
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In the realm of 3D printing, selecting the right material is crucial to achieving optimal results for projects of all kinds. INNOVATEFIL® TPU Hardness Temperature + from Smart Materials 3D is a material from the family of thermoplastic polyurethanes, with a hardness of 83 D on the Shore scale, and is available in both filament and pellet forms for robotic arms. This high-quality material is distinguished by its stiffness and ability to withstand high temperatures, but it also adds a vital property: its machinability.
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SMART MATERIALS 3D joins the FAUNO project as a leader, a cutting-edge project in the aeronautical industry that seeks to transform the manufacturing of composite materials. The main objective of FAUNO is to develop a new generation of multifunctional molds and tooling using Multimaterial Additive Manufacturing (AF) technology.
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At Smart Materials 3D we have developed the HIGH-SPEED seal, which certifies that our filaments are high speed. Our passion is innovation and excellence in 3D printing and as a team of industry experts, we have a wide range of printers of various brands and models. However, for high-speed testing, we chose the BambuLab P1S printer as our primary testing tool.
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Discover the 3D Printing Revolution with PELLETSMART
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In the constant pursuit of merging sustainability, innovation, and cutting-edge design, Smart Materials 3D has taken a significant step by joining forces with the renowned Spanish design firm Nagami Studio.
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INNOVATEFIL® PVDF (Polyvinylidene Fluoride) is an opaque semi-crystalline thermoplastic fluoropolymer with advanced properties that is suitable for technical, engineering, or research applications in the industrial market.
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This high-quality filament has revolutionized the way we print objects in 3D. Let's begin by highlighting some of the most outstanding advantages of Smartfil PLA 3D850.
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