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3D Printing - PubAg

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Last Updated: 16 October 2021

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The emerging role of 3D printing in water desalination

For thermal desalination, this entails the usage of 3D published parts that enhance water evaporation and energy harvesting with new materials and designs. For membrane-based desalination, 3D printing supplies membranes and various other component parts with personalized materials and geometries for much better fouling resistance and efficiency. Other special advantages supplied by 3D printing for water desalination along with the associated challenges are additionally reviewed in this testimonial. Finally, the future leads and study instructions are highlighted pertaining to the application of 3D printing in the water desalination sector.

Source link: https://pubag.nal.usda.gov/catalog/7404353


Assessment of a novel window of dimensional stability for screening food inks for 3D printing

The applicability of a window of dimensional stability has been analyzed for evaluating food inks for 3D food printing based on rheological measurements of their rigidities. Filaments of molten food ink call for time to set completely on being squeezed out to hold their form and assistance layers published above them.

Source link: https://pubag.nal.usda.gov/catalog/7107498


Forensic 3D printing from micro-CT for court use- process validation

Forensic application of 3D scanning and printing technology is getting momentum with 3D printed evidence beginning to be created for court. This research study aimed to evaluate the mistake rates connected with forensic 3D published toolmarks and models, developed using three various printing modern technologies, based on micro-CT information. Where possible, the writers advise micro-CT imaging for generating forensic 3D printed bone versions especially when injuries are present.

Source link: https://pubag.nal.usda.gov/catalog/7162107


Vat photopolymerization 3D printing for advanced drug delivery and medical device applications

Barrel photopolymerization 3D printing technology combines the advantages of high resolution and good printing rate, offering an innovative approach to produce bespoke medical gadgets and medication delivery systems. Here, an introduction of the barrel polymerization methods, their one-of-a-kind applications in the areas of medicine shipment and clinical tool construction, material instances and the benefits they supply within medical care, is supplied.

Source link: https://pubag.nal.usda.gov/catalog/7133726


Conductive MXene/melamine sponge combined with 3D printing resin base prepared as an electromagnetic interferences shielding switch

With the rapid development of wireless interaction and electronic gadgets, current electro-magnetic disturbance securing materials can not meet the needs of smart EMI securing in the future generation of electronic equipment. The EMI protecting switch gives an unique way to fabricate effective EMI protecting materials for actual cordless communication demands.

Source link: https://pubag.nal.usda.gov/catalog/7272209


Customized Fading Scaffolds: Strong Polyorthoester Networks via Thiol–Ene Cross-linking for Cytocompatible Surface-Eroding Materials in 3D Printing

The movement of the polymer chains and the cross-linking density within the polymer structure can be tuned through the choice of the monomer, which in turn presents customizable thermal and mechanical properties in the resulting materials. Post-processing conditions and design are important to material degradability and are manipulated for set bulk-release applications with deterioration rate and release time linearly depending on the specimen dimensions, such as hair or covering density. Comparable to acid-releasing polylactide materials, destruction products of the POETE materials show cytocompatibility listed below a particular concentration/acidity threshold.

Source link: https://pubag.nal.usda.gov/catalog/7337581


Food 3D printing: Effect of heat transfer on print stability of chocolate

Food 3D Printing is an unique modern technology which permits producing 3 dimensional edible objects with customized form and structure, by extruding and depositing gradually several layers. This research study concentrates on the interaction between the rheological and thermal properties of delicious chocolate products, and printing problems, in order to predict the security of 3D printed structures. The result of printing speed and ecological temperature on chocolate published framework was checked out using IR thermography to identify the regional air conditioning dynamics. 3 D edible frameworks can be manufactured successfully just below an important print speed which depends on the ecological temperature level.

Source link: https://pubag.nal.usda.gov/catalog/7197788


The emerging role of 3D printing in the fabrication of detection systems

The majority of works evaluated within the moment period of mid-2018 to mid-2020 encompassed the fabrication of numerous parts of the detection systems, yet recent records on totally printed electrochemical detectors are leading the way of 3D printing towards self-dedicated completely published detectors. From the application viewpoint, the merits and weak points of the new picking up platforms as contrasted with commercially offered detectors will be critically analyzed to discover the real benefits of making use of 3D published materials and devices.

Source link: https://pubag.nal.usda.gov/catalog/7227665


3D printing of highly flexible, cytocompatible nanocomposites for thermal management

The capacity to thermally refine these materials into useful structures making use of additive production methods opens new opportunities for its use in bespoke frameworks. Via a simple remedy worsening strategy, a very adaptable and thermally conductive BN nanoparticle/ PU compound has been developed and consequently refined into simple bio-scaffolds frameworks by means of a 3D pneumatically-driven melt extrusion printing procedure. The thermal conductivity of 20% w/w BN/PU composite boosts by 74% with respect to the unmodified PU. The 3D printed BN/PU composite scaffolds show great biocompatibility and cell attachment improvement with L929 fibroblast cells.

Source link: https://pubag.nal.usda.gov/catalog/7257477


Programmable texture properties of cereal-based snack mediated by 3D printing technology

3D food printing produces edible structures by a layer-by-layer deposition with the main purpose of creating customized food frameworks. We studied the ability to produce 3D printed grain snacks with different appearance by a controlled generation of pores. The treats well recorded the overall features of the virtual design with size reduction less than 8%. The version of Gibson and Ashby satisfying fitted the experimental data revealing that published treats with regulated spaces adhere to the policy of cellular material.

Source link: https://pubag.nal.usda.gov/catalog/6966450

* Please keep in mind that all text is summarized by machine, we do not bear any responsibility, and you should always check original source before taking any actions

* Please keep in mind that all text is summarized by machine, we do not bear any responsibility, and you should always check original source before taking any actions