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Innovations in filtration through additive manufacturing: Paper: EP140165

Research output: Contribution to conference - Without ISBN/ISSN Conference paperpeer-review

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Innovations in filtration through additive manufacturing: Paper: EP140165. / Burns, Neil; Burns, Mark; Travis, Darren et al.
2014. Paper presented at Euro PM2014 Congress & Exhibition, Salzburg, Austria.

Research output: Contribution to conference - Without ISBN/ISSN Conference paperpeer-review

Harvard

Burns, N, Burns, M, Travis, D, Geekie, L & Rennie, A 2014, 'Innovations in filtration through additive manufacturing: Paper: EP140165', Paper presented at Euro PM2014 Congress & Exhibition, Salzburg, Austria, 21/09/14 - 24/09/14. <http://www.epma.com/euro-pm2014>

APA

Burns, N., Burns, M., Travis, D., Geekie, L., & Rennie, A. (2014). Innovations in filtration through additive manufacturing: Paper: EP140165. Paper presented at Euro PM2014 Congress & Exhibition, Salzburg, Austria. http://www.epma.com/euro-pm2014

Vancouver

Burns N, Burns M, Travis D, Geekie L, Rennie A. Innovations in filtration through additive manufacturing: Paper: EP140165. 2014. Paper presented at Euro PM2014 Congress & Exhibition, Salzburg, Austria.

Author

Burns, Neil ; Burns, Mark ; Travis, Darren et al. / Innovations in filtration through additive manufacturing : Paper: EP140165. Paper presented at Euro PM2014 Congress & Exhibition, Salzburg, Austria.6 p.

Bibtex

@conference{19651da2c4664fce8e2ae069d1179f76,
title = "Innovations in filtration through additive manufacturing: Paper: EP140165",
abstract = "Ideal filters have a maximised open area for increased filtration efficiency, but this can compromise the overall strength of the filter. Traditionally, metal filters are made from perforated plate, mesh and wedge wire. The capabilities of selective laser melting (SLM) additive manufacturing (AM) technology offers creation of 3D filter designs that have combined filter and support portions with maximised open area and inherent strength for operational industrial processes. This advance in processing for the manufacture of filters also delivers further benefits in filtration efficiency saving end-users energy costs. The combination of three separate parts into a consolidated unit has significantly reduced time and cost of production of wedge wire filters and removed expensive tooling requirements. AM technology allows the production of innovative metal filters as a competitive manufacturing process and delivers high value products for customers.",
author = "Neil Burns and Mark Burns and Darren Travis and Louise Geekie and Allan Rennie",
year = "2014",
month = sep,
language = "English",
note = "Euro PM2014 Congress &amp; Exhibition ; Conference date: 21-09-2014 Through 24-09-2014",

}

RIS

TY - CONF

T1 - Innovations in filtration through additive manufacturing

T2 - Euro PM2014 Congress &amp; Exhibition

AU - Burns, Neil

AU - Burns, Mark

AU - Travis, Darren

AU - Geekie, Louise

AU - Rennie, Allan

PY - 2014/9

Y1 - 2014/9

N2 - Ideal filters have a maximised open area for increased filtration efficiency, but this can compromise the overall strength of the filter. Traditionally, metal filters are made from perforated plate, mesh and wedge wire. The capabilities of selective laser melting (SLM) additive manufacturing (AM) technology offers creation of 3D filter designs that have combined filter and support portions with maximised open area and inherent strength for operational industrial processes. This advance in processing for the manufacture of filters also delivers further benefits in filtration efficiency saving end-users energy costs. The combination of three separate parts into a consolidated unit has significantly reduced time and cost of production of wedge wire filters and removed expensive tooling requirements. AM technology allows the production of innovative metal filters as a competitive manufacturing process and delivers high value products for customers.

AB - Ideal filters have a maximised open area for increased filtration efficiency, but this can compromise the overall strength of the filter. Traditionally, metal filters are made from perforated plate, mesh and wedge wire. The capabilities of selective laser melting (SLM) additive manufacturing (AM) technology offers creation of 3D filter designs that have combined filter and support portions with maximised open area and inherent strength for operational industrial processes. This advance in processing for the manufacture of filters also delivers further benefits in filtration efficiency saving end-users energy costs. The combination of three separate parts into a consolidated unit has significantly reduced time and cost of production of wedge wire filters and removed expensive tooling requirements. AM technology allows the production of innovative metal filters as a competitive manufacturing process and delivers high value products for customers.

M3 - Conference paper

Y2 - 21 September 2014 through 24 September 2014

ER -