DOAJ Open Access 2026

Binder-jet printing and pressure-controlled infiltration for fabrication of high-temperature, low-dead-volume microfluidic interfaces

Henry D. Davis James G. Harkness David K. Hayes Brian D. Jensen Richard Vanfleet +2 lainnya

Abstrak

Interfacing is a consistent weak point in the manufacturing of microscale gas chromatography columns. Current techniques for interfacing with microfluidic systems often degrade under high temperatures and thermal cycling and suffer from dead volumes. To address these challenges, we fabricated all-metal interfaces that connect 3D-printed microchannels (500 µm diameter) to industry-standard stainless-steel (SS) capillaries. Our fabrication process uses SS binder-jet printing and bronze infiltration to fuse the capillary to the printed part and reduce dead volumes at the interface while utilizing pressure control to prevent the infiltrant from filling the channel or capillary. These interfaces withstood pressures greater than 100 PSI and showed no leakage after thermal cycling to 350 °C. Cross-sections of the interfaces show smooth connections between the channel and capillary with minimal dead volume.

Topik & Kata Kunci

Industrial engineering. Management engineering

Penulis (7)

Henry D. Davis

James G. Harkness

David K. Hayes

Brian D. Jensen

Richard Vanfleet

Nathan B. Crane

Robert C. Davis

Format Sitasi

APA MLA BibTeX

Davis, H.D., Harkness, J.G., Hayes, D.K., Jensen, B.D., Vanfleet, R., Crane, N.B. et al. (2026). Binder-jet printing and pressure-controlled infiltration for fabrication of high-temperature, low-dead-volume microfluidic interfaces. https://doi.org/10.1016/j.addlet.2025.100344

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Informasi Jurnal

Tahun Terbit: 2026
Sumber Database: DOAJ
DOI: 10.1016/j.addlet.2025.100344
Akses: Open Access ✓