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Main Authors: Keval Babu, Gregory Cartagena, Han He, Amardeep Sidhu, Alison Yu
Format: Recurso digital
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Published: Zenodo 2018
Online Access:https://doi.org/10.5281/zenodo.14866475
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author Keval Babu
Gregory Cartagena
Han He
Amardeep Sidhu
Alison Yu
author_facet Keval Babu
Gregory Cartagena
Han He
Amardeep Sidhu
Alison Yu
contents <p>Binder Jet 3D printing is an additive manufacturing technique that utilizes a binding agent to form each layer on a powder bed, ultimately producing a complete part. This method is advantageous for manufacturing due to its ability to handle a diverse range of materials while achieving high complexity and density in printed parts. Currently, industrial Binder Jet 3D printers range in price from $100,000 to $1 million, and they require significant space and energy within a manufacturing facility. Many engineers would benefit from a smaller, more energy-efficient binder jetting solution that allows for rapid testing of printed parts before full-scale production or the prototyping of small-scale components.To address this need, our team has developed a small-scale desktop Binder Jet printer subassembly. The primary focus of this design is to minimize cost, reduce print time, and decrease the printer's footprint, all while maintaining the desired complexity and precision of the parts produced. This paper presents the current design and construction of the proposed device, along with key findings to inform future developments.</p>
format Recurso digital
id zenodo_https___doi_org_10_5281_zenodo_14866475
institution Zenodo
language
publishDate 2018
publisher Zenodo
record_format zenodo
spellingShingle Design & Fabrication of Small-Scale Desktop Binder Jet 3D Printer Subassemblies
Keval Babu
Gregory Cartagena
Han He
Amardeep Sidhu
Alison Yu
<p>Binder Jet 3D printing is an additive manufacturing technique that utilizes a binding agent to form each layer on a powder bed, ultimately producing a complete part. This method is advantageous for manufacturing due to its ability to handle a diverse range of materials while achieving high complexity and density in printed parts. Currently, industrial Binder Jet 3D printers range in price from $100,000 to $1 million, and they require significant space and energy within a manufacturing facility. Many engineers would benefit from a smaller, more energy-efficient binder jetting solution that allows for rapid testing of printed parts before full-scale production or the prototyping of small-scale components.To address this need, our team has developed a small-scale desktop Binder Jet printer subassembly. The primary focus of this design is to minimize cost, reduce print time, and decrease the printer's footprint, all while maintaining the desired complexity and precision of the parts produced. This paper presents the current design and construction of the proposed device, along with key findings to inform future developments.</p>
title Design & Fabrication of Small-Scale Desktop Binder Jet 3D Printer Subassemblies
url https://doi.org/10.5281/zenodo.14866475