A comparison of reflectance properties on polymer micro-structured functional surface

Research output: Contribution to conferencePoster – Annual report year: 2017Researchpeer-review

Standard

A comparison of reflectance properties on polymer micro-structured functional surface. / Regi, Francesco; Li, Dongya; Nielsen, Jannik Boll; Zhang, Yang; Tosello, Guido; Madsen, M. H.; Frisvad, Jeppe Revall; Aanæs, Henrik.

2017. Poster session presented at euspen’s 17th International Conference & Exhibition, Hannover, Germany.

Research output: Contribution to conferencePoster – Annual report year: 2017Researchpeer-review

Harvard

Regi, F, Li, D, Nielsen, JB, Zhang, Y, Tosello, G, Madsen, MH, Frisvad, JR & Aanæs, H 2017, 'A comparison of reflectance properties on polymer micro-structured functional surface' euspen’s 17th International Conference & Exhibition, Hannover, Germany, 29/05/2017 - 02/06/2017, .

APA

Regi, F., Li, D., Nielsen, J. B., Zhang, Y., Tosello, G., Madsen, M. H., ... Aanæs, H. (2017). A comparison of reflectance properties on polymer micro-structured functional surface. Poster session presented at euspen’s 17th International Conference & Exhibition, Hannover, Germany.

CBE

Regi F, Li D, Nielsen JB, Zhang Y, Tosello G, Madsen MH, Frisvad JR, Aanæs H. 2017. A comparison of reflectance properties on polymer micro-structured functional surface. Poster session presented at euspen’s 17th International Conference & Exhibition, Hannover, Germany.

MLA

Vancouver

Regi F, Li D, Nielsen JB, Zhang Y, Tosello G, Madsen MH et al. A comparison of reflectance properties on polymer micro-structured functional surface. 2017. Poster session presented at euspen’s 17th International Conference & Exhibition, Hannover, Germany.

Author

Bibtex

@conference{4a1c309bb5c944909cfacecc5639ca11,
title = "A comparison of reflectance properties on polymer micro-structured functional surface",
abstract = "In this study, a functional micro-structure surface [1] has been developed as a combination of arrays of micro ridges. The scope of the surface is to achieve specific directional optical properties: that is, under constrained lighting, maximizing the reflectance from a certain viewing direction, and minimizing it from the corresponding horizontally orthogonal position, i.e. maximize the contrast between two horizontally orthogonal view positions at the same inclination (Figure 1). The sample is composed of 12 different anisotropic surfaces, that are designed as a combination of ridges defined by their pitch distance and their angle in respect to the surface (Figure 2). The geometry was obtained by precision milling of a tool steel bar and replicated through silicone replica technology [2], and by hot embossing using Acrylonitrile Butadiene Styrene (ABS). A digital microscope has been used as a gonioreflectometer to determine the directional surface reflectance of each surface to varying light and camera positions. The presented results show that the replication processes and the polymeric material have a strong impact on the contrast under constrained lightening. More specifically, the reflectance properties are strongly influenced by the geometry of the structure and by the colour.",
author = "Francesco Regi and Dongya Li and Nielsen, {Jannik Boll} and Yang Zhang and Guido Tosello and Madsen, {M. H.} and Frisvad, {Jeppe Revall} and Henrik Aan{\ae}s",
year = "2017",
language = "English",
note = "euspen’s 17th International Conference & Exhibition ; Conference date: 29-05-2017 Through 02-06-2017",

}

RIS

TY - CONF

T1 - A comparison of reflectance properties on polymer micro-structured functional surface

AU - Regi, Francesco

AU - Li, Dongya

AU - Nielsen, Jannik Boll

AU - Zhang, Yang

AU - Tosello, Guido

AU - Madsen, M. H.

AU - Frisvad, Jeppe Revall

AU - Aanæs, Henrik

PY - 2017

Y1 - 2017

N2 - In this study, a functional micro-structure surface [1] has been developed as a combination of arrays of micro ridges. The scope of the surface is to achieve specific directional optical properties: that is, under constrained lighting, maximizing the reflectance from a certain viewing direction, and minimizing it from the corresponding horizontally orthogonal position, i.e. maximize the contrast between two horizontally orthogonal view positions at the same inclination (Figure 1). The sample is composed of 12 different anisotropic surfaces, that are designed as a combination of ridges defined by their pitch distance and their angle in respect to the surface (Figure 2). The geometry was obtained by precision milling of a tool steel bar and replicated through silicone replica technology [2], and by hot embossing using Acrylonitrile Butadiene Styrene (ABS). A digital microscope has been used as a gonioreflectometer to determine the directional surface reflectance of each surface to varying light and camera positions. The presented results show that the replication processes and the polymeric material have a strong impact on the contrast under constrained lightening. More specifically, the reflectance properties are strongly influenced by the geometry of the structure and by the colour.

AB - In this study, a functional micro-structure surface [1] has been developed as a combination of arrays of micro ridges. The scope of the surface is to achieve specific directional optical properties: that is, under constrained lighting, maximizing the reflectance from a certain viewing direction, and minimizing it from the corresponding horizontally orthogonal position, i.e. maximize the contrast between two horizontally orthogonal view positions at the same inclination (Figure 1). The sample is composed of 12 different anisotropic surfaces, that are designed as a combination of ridges defined by their pitch distance and their angle in respect to the surface (Figure 2). The geometry was obtained by precision milling of a tool steel bar and replicated through silicone replica technology [2], and by hot embossing using Acrylonitrile Butadiene Styrene (ABS). A digital microscope has been used as a gonioreflectometer to determine the directional surface reflectance of each surface to varying light and camera positions. The presented results show that the replication processes and the polymeric material have a strong impact on the contrast under constrained lightening. More specifically, the reflectance properties are strongly influenced by the geometry of the structure and by the colour.

M3 - Poster

ER -