The SDS process: A viable way for the production of metal parts

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Standard

The SDS process: A viable way for the production of metal parts. / Kukla, Christian; Gonzalez-Gutierrez, Joamin; Hampel, Stefan et al.
CONFERENCE PROCEEDINGS ICIT&APT 2017 10th International Conference on Industrial Tools and Advanced Processing Technologies. ed. / Ales Hancic; Janez Grum. Vol. 10 2017.

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Harvard

Kukla, C, Gonzalez-Gutierrez, J, Hampel, S, Burkhardt, C & Holzer, C 2017, The SDS process: A viable way for the production of metal parts. in A Hancic & J Grum (eds), CONFERENCE PROCEEDINGS ICIT&APT 2017 10th International Conference on Industrial Tools and Advanced Processing Technologies. vol. 10, International Conference on Industrial Tools and Advance Processing Technologies, Ljubljana, Slovenia, 24/04/17.

APA

Kukla, C., Gonzalez-Gutierrez, J., Hampel, S., Burkhardt, C., & Holzer, C. (2017). The SDS process: A viable way for the production of metal parts. In A. Hancic, & J. Grum (Eds.), CONFERENCE PROCEEDINGS ICIT&APT 2017 10th International Conference on Industrial Tools and Advanced Processing Technologies (Vol. 10)

Vancouver

Kukla C, Gonzalez-Gutierrez J, Hampel S, Burkhardt C, Holzer C. The SDS process: A viable way for the production of metal parts. In Hancic A, Grum J, editors, CONFERENCE PROCEEDINGS ICIT&APT 2017 10th International Conference on Industrial Tools and Advanced Processing Technologies. Vol. 10. 2017

Author

Kukla, Christian ; Gonzalez-Gutierrez, Joamin ; Hampel, Stefan et al. / The SDS process: A viable way for the production of metal parts. CONFERENCE PROCEEDINGS ICIT&APT 2017 10th International Conference on Industrial Tools and Advanced Processing Technologies. editor / Ales Hancic ; Janez Grum. Vol. 10 2017.

Bibtex - Download

@inproceedings{5c3bf54788594a29ada84cacb9928c4b,
title = "The SDS process: A viable way for the production of metal parts",
abstract = "One of the most commonly used methods for the additive manufacturing of metal parts is Selective Laser Melting (SLM). However, SLM requires the use of expensive equipment. In the ongoing European project REProMag we develop a second route we call {\textquoteleft}SDS Process{\textquoteright}. SDS means Shaping-Debinding-Sintering not only for injection moulding but also for Additive Manufacturing. Here Fused Filament Fabrication (FFF) in combination with debinding and conventional sintering could be a less expensive alternative for the fabrication of complex metal parts. The process is similar to metal injection moulding (MIM), which is already an established technology for the fabrication of metal parts with complex geometry. The main advantage of shaping by FFF instead of injection moulding is the flexibility of parts that can be produced without having to use expensive moulding tools. Therefore, for the production of unique or short lot parts FFF could be a viable alternative.In this paper the production of parts made out of stainless steel and titanium via FFF, debinding and sintering is described. The first step was the development of an appropriate binder system that can provide flexibility and strength to filaments containing 55%vol of metal powders. The second step was the production of round filaments with the appropriate dimensions for a conventional FFF printer. Printing trials were performed and the printing parameters were determined, followed by the determination of the debinding parameters in an appropriate solvent. Finally sintering was performed to obtain solid pieces of stainless steel and titanium.",
keywords = "additive manufacturing, Metal powders, Steel, Titanium, Fused Filament Fabrication",
author = "Christian Kukla and Joamin Gonzalez-Gutierrez and Stefan Hampel and Carlo Burkhardt and Clemens Holzer",
year = "2017",
month = apr,
day = "24",
language = "English",
volume = "10",
editor = "Ales Hancic and Janez Grum",
booktitle = "CONFERENCE PROCEEDINGS ICIT&APT 2017 10th International Conference on Industrial Tools and Advanced Processing Technologies",
note = "International Conference on Industrial Tools and Advance Processing Technologies, ICIT-APT 2017 ; Conference date: 24-04-2017 Through 26-04-2017",
url = "http://www.tecos.si/icit/",

}

RIS (suitable for import to EndNote) - Download

TY - GEN

T1 - The SDS process: A viable way for the production of metal parts

AU - Kukla, Christian

AU - Gonzalez-Gutierrez, Joamin

AU - Hampel, Stefan

AU - Burkhardt, Carlo

AU - Holzer, Clemens

N1 - Conference code: 11

PY - 2017/4/24

Y1 - 2017/4/24

N2 - One of the most commonly used methods for the additive manufacturing of metal parts is Selective Laser Melting (SLM). However, SLM requires the use of expensive equipment. In the ongoing European project REProMag we develop a second route we call ‘SDS Process’. SDS means Shaping-Debinding-Sintering not only for injection moulding but also for Additive Manufacturing. Here Fused Filament Fabrication (FFF) in combination with debinding and conventional sintering could be a less expensive alternative for the fabrication of complex metal parts. The process is similar to metal injection moulding (MIM), which is already an established technology for the fabrication of metal parts with complex geometry. The main advantage of shaping by FFF instead of injection moulding is the flexibility of parts that can be produced without having to use expensive moulding tools. Therefore, for the production of unique or short lot parts FFF could be a viable alternative.In this paper the production of parts made out of stainless steel and titanium via FFF, debinding and sintering is described. The first step was the development of an appropriate binder system that can provide flexibility and strength to filaments containing 55%vol of metal powders. The second step was the production of round filaments with the appropriate dimensions for a conventional FFF printer. Printing trials were performed and the printing parameters were determined, followed by the determination of the debinding parameters in an appropriate solvent. Finally sintering was performed to obtain solid pieces of stainless steel and titanium.

AB - One of the most commonly used methods for the additive manufacturing of metal parts is Selective Laser Melting (SLM). However, SLM requires the use of expensive equipment. In the ongoing European project REProMag we develop a second route we call ‘SDS Process’. SDS means Shaping-Debinding-Sintering not only for injection moulding but also for Additive Manufacturing. Here Fused Filament Fabrication (FFF) in combination with debinding and conventional sintering could be a less expensive alternative for the fabrication of complex metal parts. The process is similar to metal injection moulding (MIM), which is already an established technology for the fabrication of metal parts with complex geometry. The main advantage of shaping by FFF instead of injection moulding is the flexibility of parts that can be produced without having to use expensive moulding tools. Therefore, for the production of unique or short lot parts FFF could be a viable alternative.In this paper the production of parts made out of stainless steel and titanium via FFF, debinding and sintering is described. The first step was the development of an appropriate binder system that can provide flexibility and strength to filaments containing 55%vol of metal powders. The second step was the production of round filaments with the appropriate dimensions for a conventional FFF printer. Printing trials were performed and the printing parameters were determined, followed by the determination of the debinding parameters in an appropriate solvent. Finally sintering was performed to obtain solid pieces of stainless steel and titanium.

KW - additive manufacturing

KW - Metal powders

KW - Steel

KW - Titanium

KW - Fused Filament Fabrication

M3 - Conference contribution

VL - 10

BT - CONFERENCE PROCEEDINGS ICIT&APT 2017 10th International Conference on Industrial Tools and Advanced Processing Technologies

A2 - Hancic, Ales

A2 - Grum, Janez

T2 - International Conference on Industrial Tools and Advance Processing Technologies

Y2 - 24 April 2017 through 26 April 2017

ER -