Journal ArticleDOI
Evaluation of 3D printing and its potential impact on biotechnology and the chemical sciences.
TLDR
The history of 3D printing is encompassed, various printing methods are reviewed, current applications are presented, and the future direction and impact this technology will have on laboratory settings as 3D printers become more accessible is offered.Abstract:
Nearing 30 years since its introduction, 3D printing technology is set to revolutionize research and teaching laboratories. This feature encompasses the history of 3D printing, reviews various printing methods, and presents current applications. The authors offer an appraisal of the future direction and impact this technology will have on laboratory settings as 3D printers become more accessible.read more
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Journal ArticleDOI
Continuous liquid interface production of 3D objects
John R. Tumbleston,David Shirvanyants,Nikita Ermoshkin,Rima Janusziewicz,Ashley R. Johnson,David L. Kelly,Kai Chen,Robert Pinschmidt,Jason P. Rolland,Alexander Ermoshkin,Edward T. Samulski,Joseph M. DeSimone,Joseph M. DeSimone +12 more
TL;DR: The continuous generation of monolithic polymeric parts up to tens of centimeters in size with feature resolution below 100 micrometers is demonstrated and critical control parameters are delineated and shown that complex solid parts can be drawn out of the resin at rates of hundreds of millimeters per hour.
Journal ArticleDOI
Physical and mechanical properties of PLA, and their functions in widespread applications - A comprehensive review.
TL;DR: The main purpose of this review is to elaborate the mechanical and physical properties that affect PLA stability, processability, degradation, PLA-other polymers immiscibility, aging and recyclability, and therefore its potential suitability to fulfill specific application requirements.
Physical and mechanical properties of PLA, and their functions in widespread applications — A comprehensive review
TL;DR: In this paper, the main purpose of this review is to elaborate the mechanical and physical properties that affect its stability, processability, degradation, immiscibility, aging and recyclability, and therefore its potential suitability to fulfill specific application requirements.
Journal ArticleDOI
3D printing with polymers: Challenges among expanding options and opportunities.
TL;DR: The goal of this review is to connect the various additive manufacturing techniques with the monomeric and polymeric materials they use while highlighting emerging material-based developments.
Journal ArticleDOI
Fundamentals and applications of 3D printing for novel materials
TL;DR: In this paper, the authors provide a basic understanding of 3D printing processes and the recent development of novel materials such as smart materials, ceramic materials, electronic materials, biomaterials and composites.
References
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Journal ArticleDOI
Porosity of 3D biomaterial scaffolds and osteogenesis.
TL;DR: New fabrication techniques, such as solid-free form fabrication, can potentially be used to generate scaffolds with morphological and mechanical properties more selectively designed to meet the specificity of bone-repair needs.
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Porous scaffold design for tissue engineering
TL;DR: The integration of CTD with SFF to build designer tissue-engineering scaffolds is reviewed and the mechanical properties and tissue regeneration achieved using designer scaffolds are details.
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Inkjet Printing of Polymers: State of the Art and Future Developments
TL;DR: Inkjet printing is considered to be a key technology in the field of defined polymer deposition as mentioned in this paper, and a short overview of the available instrumentation is given, including manufacturing of multicolor polymer light-emitting diode displays, polymer electronics, three-dimensional printing, and oral dosage forms for controlled drug release.
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Inkjet Printing for Materials and Devices
TL;DR: Inkjet printing has been used as a free-form fabrication method for building three-dimensional parts and is being explored as a way of printing electrical and optical devices, especially where these involve organic components.
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A review on stereolithography and its applications in biomedical engineering
TL;DR: Stereolithography is a solid freeform technique (SFF) that was introduced in the late 1980s as mentioned in this paper, and it has been widely used in biomedical applications, as well as the biodegradable resin materials developed for use with stereolithography.