Markforged, creator of the integrated metal and carbon fiber additive manufacturing platform, The Digital Forge, today announced the acquisition of Teton Simulation Software (“Teton”), whose SmartSlice™ technology automates validation and optimizes part performance for additive manufacturing applications.
In an article recently published in the open-access journal Biomimetics, researchers presented the preparation of the mycelium composites reinforced with wood veneer for long-lasting building components.
In a review recently published in the journal Bioprinting, researchers discussed four-dimensional (4D) bioprinting and its potential for advanced tissue engineering applications.
Study: A review on four-dimension...
The production of meat to satisfy the demands of a growing world population has environmental, health, and ethical concerns. 3D printing meat products have been proposed to address these concerns, and a team of researche...
Writing in Polymers, a team of researchers from China have investigated the properties, applications, and challenges of 3D printed polymers for use as reinforcement materials in cements.
In an article recently published in the journal ACS Applied Polymer Materials, researchers discussed the preparation of ultra-stiff 3D-printed molds with ultraviolet (UV)-curable and low-viscosity resin having a high silica filler content.
From safes containing top-secret files to pill bottles, custodians of sensitive materials need containers that let them know instantly whether and when it was tampered with.
In an article recently published in the open-access journal Materials, researchers discussed the development of highly drug-loaded, reinforced, composite pharmaceutical printlets by using selective laser sintering towards the discovery of suitable excipients for pharmaceutical 3D printing.
Accurate pressure-controlled 3D printers ensure structural soundness of objects, enabling additive manufacturing to become mainstream.
In an article recently published in the open-access journal Polymers, researchers investigated the rheological characteristics of hydroxypropyl cellulose–derived filaments.
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