Article | KEER2014. Proceedings of the 5th Kanesi Engineering and Emotion Research; International Conference; Linköping; Sweden; June 11-13 | Surface Design Methodology - The Cleanability Investigation
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Title:
Surface Design Methodology - The Cleanability Investigation
Author:
Martin Bergman: University of Halmstad, Sweden / Chalmers University of Technology, Sweden Bengt-Göran Rosén: University of Halmstad, Sweden / Chalmers University of Technology, Sweden Lars Eriksson: J√∂nk√∂ping University, Sweden Cecilia Anderberg: Getinge Infection Control AB, Research & Development Dept., Sweden
Download:
Full text (pdf)
Year:
2014
Conference:
KEER2014. Proceedings of the 5th Kanesi Engineering and Emotion Research; International Conference; Linköping; Sweden; June 11-13
Issue:
100
Article no.:
059
Pages:
705-722
No. of pages:
18
Publication type:
Abstract and Fulltext
Published:
2014-06-11
ISBN:
978-91-7519-276-5
Series:
Linköping Electronic Conference Proceedings
ISSN (print):
1650-3686
ISSN (online):
1650-3740
Publisher:
Linköping University Electronic Press; Linköpings universitet


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A conservative culture and a robust material with a genuine past is probably the best way of describing the medical healthcare environments around the country. Stainless steel has dominated for decades; and it is not only because of its technical properties. The feeling of a clean surrounding and sterile equipment are high rated within this culture; you have to trust the material and its surface. However; what will happen when stainless steel is replaced with another material; still meeting the same (or higher) technical requirements? Is it possible to challenge the steel and its robust and hygienic experience? Will the users of the equipment have fate in the new material and its surface? The purpose of this paper is to link the technical- and customer requirements of current materials to surface textures in medical environments. By focusing on parts of the theory of Kansei Engineering; improvements of products are possible. In collaboration with the topical company for this project; three new materials that fulfil the technical requirements ‚Äďeasy to clean and anti-bacterial came to be in focus for further investigation in regard to a new design of the steriliser for medical equipment using the Kansei based Clean ability approach CAA. Focusing on the correlation between the cleaning; the surface design parameters and the experience of the new materials/surfaces; discussions regarding the optimal material/surface design of the product and the challenging of the stainless steel are initiated. The results of this study show that materials with similar or better cleanability properties very well can exchange the traditional brushed stainless steel materials. Also; the optimal wipe material and cleaning agents system can be developed using the modified Kansei Engineering method. The continuation of this study will be to further include surface properties to influence on bacterial growth to complete the CAA.

Keywords: Cleanability; material design; functional surfaces; Kansei Design; stainless steel.

KEER2014. Proceedings of the 5th Kanesi Engineering and Emotion Research; International Conference; Linköping; Sweden; June 11-13

Author:
Martin Bergman, Bengt-Göran Rosén, Lars Eriksson, Cecilia Anderberg
Title:
Surface Design Methodology - The Cleanability Investigation
References:

Bergman M; Rosén B-G; Eriksson L; (2012). Surface appearance and impression. International conference on Kansei Engineering and Emotion Research; Department of Industrial Design; National Cheng Kung University.


Bergman M; Ros√©n B-G; Eriksson L; (2013). Surface design methodology ‚Äď challenge the steel. In:. Lin; V. T; Proceedings of the 14th Int. Conf. on Metrology and Properties of Engineering Surfaces; June. 17-21; Taipe; Taiwan (2013).


Detry; J G; et al. (2010). Hygiene and cleanability: A focus on surfaces. Taylor & Francis. Dep. Of food technology; Gembloux Agricultural; Passage des Deportes; B-5030 Gembloux; Belgium.


D√ľrr; H (2007). Influence of surface roughness and wettability of stainless steel on soil adhesion; cleanability and microbial inactivation. Institution of Chemical Engineers; D-70597; Stuttgart; Germany.


EU report; (2013); Factors affecting fouling and cleanability of open food contact surfaces - A report on findings from the EU Integrated Project PathogenCombat; http://pathogencombat.wur.nl/FSCS/MonitoringSystemDesign/AnalyticalMethods/General/PathogenCombat/Shared%20Documents/FINAL%20brochure_opensystems.pdf [Acc. 2013-02-26]


Frisk M; and Järlskog H; (2002). Handbok i Kansei Engineering. Linköping University IKP.


Hedberg √Ė M; (2004). Kansei Engineering som st√∂d f√∂r en designprocess. En explorativ studie. Ume√• University.


Hilbert; L R; et al. (2003). Influence of surface roughness of stainless steel on microbial adhesion and corrosion resistance. International Biodeterioration & Biodegradation 52 (2003) 175-185.


Kahneman; D; (2013). Thinking; Fast and Slow. Farrar Straus Giroux; CPI Germany.


Krippendorf K; (2006). The semantic turn ‚Äď a new foundation for design.Taylor & Francis Group; LLC.


Nagamachi M; (1997). Kansei Engineering and Comfort. International Journal of Industrial Ergonomics 19: 79-80.


Nagamachi M and Lokman A M; (2011). Innovations of Kansei Engineering. Taylor & Francis Group; LLC.


Nagamachi M; (2002). Kansei engineering as a powerful consumer oriented technology for product development. Applied ergonomics; vol 33; 3: 289-294.


Skedung L; (2012). Tactile Perception ‚Äď Role of Friction and Texture. Doctoral Thesis in Chemistry; KTH (Royal Institute of Technology); Stockholm Sweden.


Warell A; (2008). Modelling perceptual product experience - Towards a cohesive framework of presentation and representation in design. Institute of Design for Industry and Environment; Massey University; Wellington; New Zealand.


Wibeck V; (2011). Fokusgrupper ‚Äď om fokuserade gruppintervjuer som unders√∂kningsmetod. Studentlitteratur AB; Lund Sweden.


Wikstr√∂m; L. (2002). Produktens budskap ‚Äď Metoder f√∂r v√§rdering av produkters semantiska funktioner ur ett anv√§ndarperspektiv. Instutionen f√∂r produkt- och produktionsutveckling; Chalmers tekniska h√∂gskola. G√∂teborg; Sweden.


Woodward R P; (1999). Contact Angle Measurements Using the Drop Shape Method. First Ten Angstroms; 465 Dinwiddie Street; Portsmouth; VA 23704.


Wolfe J M; Kluender K R and Levi D M; (2012). Sensation & Perception; 3rd edition. USA: Sinauer Associates; Inc.

KEER2014. Proceedings of the 5th Kanesi Engineering and Emotion Research; International Conference; Linköping; Sweden; June 11-13

Author:
Martin Bergman, Bengt-Göran Rosén, Lars Eriksson, Cecilia Anderberg
Title:
Surface Design Methodology - The Cleanability Investigation
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