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Polymers for Additive Manufacturing

2022
Nowadays, additive manufacturing (AM) represents a pillar of Industry 4.0 that specifically addresses deep smart technology automation. In this context, the skills of additive manufacturing can be successfully exploited for efficient information technology integration and for increasing industrial economic competitiveness.
Rossella Arrigo, Giulio Malucelli
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Additive manufacturing with biodegradable polymers

2022
Introduction: Since human behavior in the last century has been found to affect the global Earth’s climate, extraction of raw materials and manufacturing processes are gaining a fundamental role in preserving our environment (DellaSala, 2013a; 2013b; Ebi, 2011).
Rigotti, Daniele, Pegoretti, Alessandro
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Rethinking digital manufacturing with polymers

Science, 2017
Data-driven approaches and improved resin materials can expand ...
Justin, Poelma, Jason, Rolland
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Recent developments in polymers/polymer nanocomposites for additive manufacturing

Progress in Materials Science, 2020
Abstract 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.
H. Wu   +8 more
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Intelligent manufacturing of polymers

Computers & Chemical Engineering, 1996
Abstract 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.
C. Kiparissides, J. Morris
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Additive manufacturing of polymer-derived ceramics

Science, 2016
Printing ceramics into complex shapes Some materials, such as thermoplastics and metals, are naturally suited to being 3D printed because the individual particles can be fused together by applying heat. In contrast, ceramics do not fuse together the same way. Eckel et al.
Zak C, Eckel   +5 more
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Precision Mold Manufacturing for Polymer Optics

Materials and Manufacturing Processes, 2013
Ophthalmic 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.
Speich, Marco   +4 more
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Polymer Microsieves Manufactured by Inkjet Technology

Langmuir, 2008
Liquid sessile drops can be used as sacrificial templates for the creation of pores in polymeric microsieves. Using inkjet printing, we deposit sessile drops of a water-based liquid onto a hydrophobic solid support and cover them with a thin liquid layer of a polymer solution in such a way that the sessile drops penetrate through the top interface of ...
Stephan F, Jahn   +4 more
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Terahertz spectroscopy for polymer manufacturing

Optica Sensing Congress 2023 (AIS, FTS, HISE, Sensors, ES), 2023
Terahertz spectroscopy is recognized as a valuable tool for polymer inspection and for monitoring polymer manufacturing processes. This talk will review the field and will present new results in polymer studies, including observations of adhesive cure, crystalline phase transition, effects of compositional variations, and porosity in structured ...
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