Polymers for 3D Printing and Customized Additive Manufacturing
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TLDR
Polymers are by far the most utilized class of materials for AM and their design, additives, and processing parameters as they relate to enhancing build speed and improving accuracy, functionality, surface finish, stability, mechanical properties, and porosity are addressed.Abstract:
Additive manufacturing (AM) alias 3D printing translates computer-aided design (CAD) virtual 3D models into physical objects. By digital slicing of CAD, 3D scan, or tomography data, AM builds objects layer by layer without the need for molds or machining. AM enables decentralized fabrication of customized objects on demand by exploiting digital information storage and retrieval via the Internet. The ongoing transition from rapid prototyping to rapid manufacturing prompts new challenges for mechanical engineers and materials scientists alike. Because polymers are by far the most utilized class of materials for AM, this Review focuses on polymer processing and the development of polymers and advanced polymer systems specifically for AM. AM techniques covered include vat photopolymerization (stereolithography), powder bed fusion (SLS), material and binder jetting (inkjet and aerosol 3D printing), sheet lamination (LOM), extrusion (FDM, 3D dispensing, 3D fiber deposition, and 3D plotting), and 3D bioprinting....read more
Citations
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Material extrusion-based additive manufacturing of polypropylene: A review on how to improve dimensional inaccuracy and warpage
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Polymer Design for 3D Printing Elastomers: Recent Advances in Structure, Properties, and Printing
TL;DR: In this paper, the authors provide an in-depth discussion of the current state of silicone and polyurethane polymers for AM, and also discuss polyesters/polycarbonates, liquid crystalline elastomers, and monomer compositions that provide elastomeric properties upon photocuring.
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Polymeric Systems for Bioprinting.
TL;DR: A review of recent bioprinting innovations, such as increasing architectural complexity and cell viability in heterogeneous tissue constructs, which allow for the investigation of biological questions that could not be addressed before.
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Additive manufacturing of metals: Microstructure evolution and multistage control
TL;DR: In this article, the formation and binding of melt pools is studied, and a comprehensive processing map is proposed that integrates melt pool energy and geometry-related process parameters together, based on which additively manufactured microstructures are developed during and after the solidification of constituent melt pool.
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4D printed thermally activated self-healing and shape memory polycaprolactone-based polymers
TL;DR: In this paper, a shape memory polymer with thermally induced healing abilities is first presented and achieved by digital light projection (DLP) technology, where shape memory and self-healing functionalities are thermally triggered and obtained respectively using polycaprolactone (PCL) chains and 2-ureido-4[1H]-pyrimidinone (UPy) units co-crosslinked in this newly prepared material.
References
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