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Thermal Post-Processing of 3D Printed Polypropylene Parts for Vacuum Systems

Pierce Mayville, Aliaksei Petsiuk, Joshua M. Pearce

2022Journal of Manufacturing and Materials Processing17 citationsDOIOpen Access PDF

Abstract

Access to vacuum systems is limited because of economic costs. A rapidly growing approach to reduce the costs of scientific equipment is to combine open-source hardware methods with digital distributed manufacturing with 3D printers. Although high-end 3D printers can manufacture vacuum components, again, the cost of access to tooling is economically prohibitive. Low-cost material extrusion 3D printing with plastic overcomes the cost issue, but two problems arise when attempting to use plastic in or as part of vacuum systems: the outgassing of polymers and their sealing. To overcome these challenges, this study explores the potential of using post-processing heat treatments to seal 3D printed polypropylene for use in vacuum environments. The effect of infill overlap and heat treatment with a readily available heat gun on 3D printed PP parts was investigated in detail on ISO-standardized KF vacuum fitting parts and with the use of computer vision-based monitoring of vacuum pump down velocities. The results showed that infill overlap and heat treatment both had a large impact on the vacuum pressures obtainable with 3D printed parts. Heat treatment combined with 98% infill reliably sealed parts for use in vacuum systems, which makes the use of low-cost desktop 3D printers viable for manufacturing vacuum components for open scientific hardware.

Topics & Concepts

Infill3D printingOutgassingMechanical engineering3d printedPolypropyleneProcess engineeringComputer scienceExtrusionMaterials scienceManufacturing engineeringComposite materialEngineeringStructural engineeringChemistryOrganic chemistryAdditive Manufacturing and 3D Printing TechnologiesManufacturing Process and OptimizationInjection Molding Process and Properties
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