approaches with photoresists and polydimethylsiloxane (PDMS) [ 4 ]. However, these routes need complex steps and skillful hands, and difficult yet to realize sophisticated design of microfluidic devices [ 5 ]. Therefore, three-dimensional (3D) printing
References [1] Zhang J. , Xiao P. ( 2018 ), 3D printing of photopolymers . Polymer Chemistry , 9 , 1530 – 1540 . DOI: 10.1039/C8
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Abstract
Information-based modeling technology is supported by advanced information technology solutions in the building industry. The integration of its methodology into construction and design processes is already going on. However, many areas still have development possibilities; for instance, building surveys belong to these fields. Countless survey tools and methodologies endeavor to support and ease the work of professionals in design and construction, yet there is a need for comprehensive collaboration. This could be promoted by creating a direct link between survey tools and architectural design software.
This article demonstrates a tool under development that intends to provide a solution to this issue.
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] Bioprinting as an extension of 3D printing offers the ability to create a 3D biomimetic tissue by depositing cells and, in some cases, multiple cell types into a 3D construct with precise and reproducible spatial distribution. Applying bioprinting, organ
-2016-0203 [13] A. Dimic , Z. Miskovic , R. Mitrovic , M. Ristivojevic , Z , Stamenic , J. Danko , J. Bucha , and T. Mileshich , “ The influence of material on the operational characteristics of spur gears manufactured by the 3D printing