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Recent developments in polymers/polymer nanocomposites for additive manufacturing
Progress in Materials Science, 2020Abstract In recent years, there have been significant advances on materials development for additive manufacturing (AM) applications. However, the use of composites or nanocomposite materials for improved performance and multifunctionality are still limited.
Nanzhu Zhao +8 more
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Rethinking digital manufacturing with polymers
Science, 2017Data-driven approaches and improved resin materials can expand ...
Jason P. Rolland, Justin Poelma
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Intelligent manufacturing of polymers
Computers & Chemical Engineering, 1996Abstract Integrated multivariable process control can have a significant strategic impact on polymer plant operability and economics. Polymer manufacturers face increasing pressures for production cost reductions and more stringent “polymer quality” requirements. The main goals in operating a polymer reactor (e.g.
Julian Morris, Costas Kiparissides
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Manufacturing of Wood Polymer Composites
2021Wood polymer composites (WPCs) is a category of natural fiber composites (NFCs) in which comparatively short fibers such as saw dust and wood flour are used to reinforce the plastics. Besides all the advantages of NFCs which are concern to sustainable material and environment, WPCs are easier to manufacture and economic.
Rajesh Purohit, Neeraj Dubey, R.S. Rana
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Precision Mold Manufacturing for Polymer Optics
Materials and Manufacturing Processes, 2013Ophthalmic lenses, sensors, and sunglasses, among other things, are commonly made of polymer materials. Therefore, polymer optics is a growing market mainly for medium quality but also for precision optics. Polymer optics are usually produced in an injection molding process.
Rainer Börret +4 more
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Process simulation in polymer manufacturing
Computers & Chemical Engineering, 1992Abstract A prototype simulator for applications in polymer manufacturing is presented. This prototype results from the integration of extensive development and application efforts in modeling a wide range of commercial polymerization processes using ASPEN PLUS™, a well-established process flowsheet simulator with a graphical user interface called ...
G.H. Ko +4 more
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An Overview on Additive Manufacturing of Polymers
JOM, 2018We present an overview on additive manufacturing (AM), also called three-dimensional printing, with a focus on polymers. First, we introduce the AM concept. Next, we outline several AM processes, including their advantages and limitations, and list common polymers that are used in commercial printers.
Iwona Jasiuk +5 more
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Manufacturing of polymer light-emitting device structures [PDF]
SPIE Proceedings, 2006 The gravure printing technique is currently under investigation as a possible method for the roll-to-roll production of OLEDs in the 6th framework EU funded project entitled ROLLED - "Roll-to-roll manufacturing technology for flexible OLED devices and arbitrary size and shape displays".
Suhonen, Riikka +11 more
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Piezoelectric Polymers–Materials and Manufacture [PDF]
Japanese Journal of Applied Physics, 1985 Recent progress in improvement of the piezoelectric activity in ferroelectric polymers of technical importance is reviewed with relation to manufacturing process of polarized films. The polymers described are PVDF (polyvinylidene fluoride), P(VDF–TrFfE) (copolymers of vinylidene fluoride and trifluoroethylene), P(VDF–TeFE) (copolymers of vinylidene ...
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Biodegradable Polymers for Biomedical Additive Manufacturing
Applied Materials Today, 2020Abstract The tremendous interest received by additive manufacturing (AM) within the biomedical community is a consequence of the great versatility offered in terms of processing approach, materials selection, and customization of the resulting device.
Puppi D., Chiellini F.
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