On Stereolithography

@article{Hull2012OnS,
  title={On Stereolithography},
  author={Charles Hull},
  journal={Virtual and Physical Prototyping},
  year={2012},
  volume={7},
  pages={177 - 177}
}
  • C. Hull
  • Published 1 September 2012
  • Virtual and Physical Prototyping
View on Taylor & Francis
27 Citations
Background Citations
4
Methods Citations
2

27 Citations

Citation Type

Citation Type

A comprehensive review on 3D printing advancements in polymer composites: technologies, materials, and applications
In-office 3-dimensional-printing: Does the hype obscure the hazards for the operator?
Compatibility of Popular Three-Dimensional Printed Microfluidics Materials with In Vitro Enzymatic Reactions.
TLDR
Interestingly, all the materials tested significantly inhibit one or more of these in vitro enzymatic reactions, and inhibition appears to be due to a combination of the surface properties of the resins as well as soluble components originating in the matrix.
Recent development in the additive manufacturing of polymer-based composites for automotive structures—a review
Overview of scaffolds processing technologies
3D printing in biotechnology—An insight into miniaturized and microfluidic systems for applications from cell culture to bioanalytics
Magnetic materials: a journey from finding north to an exciting printed future.
TLDR
This review presents the main concepts that allow interconnecting printing technologies with magnetoactive materials by discussing the advantages and disadvantages of this joint field, trying to highlight the scientific obstacles that still limit a wider application of these materials nowadays.
3D Printing: Advancement in Biogenerative Engineering to Combat Shortage of Organs and Bioapplicable Materials
TLDR
The decellularization of organs and using this as a scaffold for generating new organs through the recellularization process shows promising results, and this review dealt with the current approaches for tissue and organ engineering including methods of scaffold designing, recent advances in 3D bioprinting, organs regenerated successfully using 3D printing, and extended application of 3DBiOPrinting technique in the field of medicine.
Complex 3D bioprinting methods
TLDR
This Review presented an in-depth overview of complex 3D bioprinting approaches including evolution of complex biopprinting, from simple gel-casting approach to multi-material biopPrinting to omnidirectional biop printing approaches, and emerging biop reprinting approaches, including 4D biopolrinting and in situ biop printer technologies.
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