The use of additive manufacturing (AM) processes at the micro-scale helps to increase the development of micro-systems, thus enabling shorter tooling development to be exploited for other micro-technologies, such as micro-injection molding (mu-IM). In recent years, these process combinations have shown their capability of providing greater flexibility to micro-technologies and facilitating a high production rate, in particular allowing mu-IM to be economically feasible for low-volume production. Therefore, in order to assess the feasibility of micro-metal AM for mu-IM mold production, a set of mini- and micro-polymeric parts injected by using molds realized via the laser-powder bed fusion (L-PBF) process is discussed in this paper. The molds were manufactured in low-carbon steel and have been characterized and tested experimentally, without any post-process treatment. Two selected geometries, corresponding to a mini dogbone for tensile tests and a flexural hinge with features at the micro-scale, were designed and realized by the mu-IM process. These were replicated in order to assess the accuracy of the whole process. The obtained results of replication accuracy and mechanical tests confirm that the mu-IM process, performed with an L-PBF-made mold insert, is feasible and affordable for micro-production, although great accuracy, especially in mold design, fabrication, and assembly, is required.

Laser-powder bed fusion molds without post-processing for micro-injection molding of mini/micro-products / Surace, R.; Errico, V.; Valori, M.; Fassi, I.; Campanelli, S. L.. - In: INTERNATIONAL JOURNAL, ADVANCED MANUFACTURING TECHNOLOGY. - ISSN 0268-3768. - 127:1-2(2023), pp. 677-688. [10.1007/s00170-023-11585-w]

Laser-powder bed fusion molds without post-processing for micro-injection molding of mini/micro-products

Surace R.
;
Errico V.;Valori M.;Campanelli S. L.
2023-01-01

Abstract

The use of additive manufacturing (AM) processes at the micro-scale helps to increase the development of micro-systems, thus enabling shorter tooling development to be exploited for other micro-technologies, such as micro-injection molding (mu-IM). In recent years, these process combinations have shown their capability of providing greater flexibility to micro-technologies and facilitating a high production rate, in particular allowing mu-IM to be economically feasible for low-volume production. Therefore, in order to assess the feasibility of micro-metal AM for mu-IM mold production, a set of mini- and micro-polymeric parts injected by using molds realized via the laser-powder bed fusion (L-PBF) process is discussed in this paper. The molds were manufactured in low-carbon steel and have been characterized and tested experimentally, without any post-process treatment. Two selected geometries, corresponding to a mini dogbone for tensile tests and a flexural hinge with features at the micro-scale, were designed and realized by the mu-IM process. These were replicated in order to assess the accuracy of the whole process. The obtained results of replication accuracy and mechanical tests confirm that the mu-IM process, performed with an L-PBF-made mold insert, is feasible and affordable for micro-production, although great accuracy, especially in mold design, fabrication, and assembly, is required.
2023
Laser-powder bed fusion molds without post-processing for micro-injection molding of mini/micro-products / Surace, R.; Errico, V.; Valori, M.; Fassi, I.; Campanelli, S. L.. - In: INTERNATIONAL JOURNAL, ADVANCED MANUFACTURING TECHNOLOGY. - ISSN 0268-3768. - 127:1-2(2023), pp. 677-688. [10.1007/s00170-023-11585-w]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11589/263022
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