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Design-driven integrated development of technical and perceptual qualities in foam-formed cellulose fibre materials

Research output: Contribution to journalArticleScientificpeer-review

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Design-driven integrated development of technical and perceptual qualities in foam-formed cellulose fibre materials. / Härkäsalmi, Tiina; Lehmonen, Jani; Itälä, Jukka; Peralta, Carlos; Siljander, Sanna; Ketoja, Jukka A.

In: Cellulose, Vol. 24, No. 11, 2017, p. 5053–5068.

Research output: Contribution to journalArticleScientificpeer-review

Harvard

Härkäsalmi, T, Lehmonen, J, Itälä, J, Peralta, C, Siljander, S & Ketoja, JA 2017, 'Design-driven integrated development of technical and perceptual qualities in foam-formed cellulose fibre materials', Cellulose, vol. 24, no. 11, pp. 5053–5068. https://doi.org/10.1007/s10570-017-1484-6

APA

Härkäsalmi, T., Lehmonen, J., Itälä, J., Peralta, C., Siljander, S., & Ketoja, J. A. (2017). Design-driven integrated development of technical and perceptual qualities in foam-formed cellulose fibre materials. Cellulose, 24(11), 5053–5068. https://doi.org/10.1007/s10570-017-1484-6

Vancouver

Author

Härkäsalmi, Tiina ; Lehmonen, Jani ; Itälä, Jukka ; Peralta, Carlos ; Siljander, Sanna ; Ketoja, Jukka A. / Design-driven integrated development of technical and perceptual qualities in foam-formed cellulose fibre materials. In: Cellulose. 2017 ; Vol. 24, No. 11. pp. 5053–5068.

Bibtex - Download

@article{c0eac8e60d344efbab83ca9876b3fe28,
title = "Design-driven integrated development of technical and perceptual qualities in foam-formed cellulose fibre materials",
abstract = "Design-driven process entailing iterative prototyping was used to develop foam-formed monomaterial structure made of renewable and recyclable biomaterials suitable e.g. for sound insulation in interior spaces. Interactions between wood-pulp fibres, the perforated mould and the forming process opened opportunities for multi-scale material design, which re-defined the direction of the research. This finding entailed the simultaneous formation of macroscopic 3D forms, surface textures, and micro-porous material structures. These multi-scale properties affected the material’s technical and perceptual qualities. The dyed pulp together with the multi-scale forms provided interesting variations in visual quality. Moreover, the surface texture enhanced the material’s tactile properties and gave a higher quality feel and enhanced rigidity.",
keywords = "Cellulose, Design-driven research, Fibre, Foam forming, Material-based design, Prototyping",
author = "Tiina H{\"a}rk{\"a}salmi and Jani Lehmonen and Jukka It{\"a}l{\"a} and Carlos Peralta and Sanna Siljander and Ketoja, {Jukka A.}",
year = "2017",
doi = "10.1007/s10570-017-1484-6",
language = "English",
volume = "24",
pages = "5053–5068",
journal = "Cellulose",
issn = "0969-0239",
publisher = "Springer Verlag",
number = "11",

}

RIS (suitable for import to EndNote) - Download

TY - JOUR

T1 - Design-driven integrated development of technical and perceptual qualities in foam-formed cellulose fibre materials

AU - Härkäsalmi, Tiina

AU - Lehmonen, Jani

AU - Itälä, Jukka

AU - Peralta, Carlos

AU - Siljander, Sanna

AU - Ketoja, Jukka A.

PY - 2017

Y1 - 2017

N2 - Design-driven process entailing iterative prototyping was used to develop foam-formed monomaterial structure made of renewable and recyclable biomaterials suitable e.g. for sound insulation in interior spaces. Interactions between wood-pulp fibres, the perforated mould and the forming process opened opportunities for multi-scale material design, which re-defined the direction of the research. This finding entailed the simultaneous formation of macroscopic 3D forms, surface textures, and micro-porous material structures. These multi-scale properties affected the material’s technical and perceptual qualities. The dyed pulp together with the multi-scale forms provided interesting variations in visual quality. Moreover, the surface texture enhanced the material’s tactile properties and gave a higher quality feel and enhanced rigidity.

AB - Design-driven process entailing iterative prototyping was used to develop foam-formed monomaterial structure made of renewable and recyclable biomaterials suitable e.g. for sound insulation in interior spaces. Interactions between wood-pulp fibres, the perforated mould and the forming process opened opportunities for multi-scale material design, which re-defined the direction of the research. This finding entailed the simultaneous formation of macroscopic 3D forms, surface textures, and micro-porous material structures. These multi-scale properties affected the material’s technical and perceptual qualities. The dyed pulp together with the multi-scale forms provided interesting variations in visual quality. Moreover, the surface texture enhanced the material’s tactile properties and gave a higher quality feel and enhanced rigidity.

KW - Cellulose

KW - Design-driven research

KW - Fibre

KW - Foam forming

KW - Material-based design

KW - Prototyping

U2 - 10.1007/s10570-017-1484-6

DO - 10.1007/s10570-017-1484-6

M3 - Article

VL - 24

SP - 5053

EP - 5068

JO - Cellulose

JF - Cellulose

SN - 0969-0239

IS - 11

ER -