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'Parametric Matter': Pushing’ Updates into Materials and theImplications of Legacy and Lag

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

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'Parametric Matter': Pushing’ Updates into Materials and theImplications of Legacy and Lag. / Blaney, Adam; Ozkan, Dilan; Pelit, Emel et al.
2022. Paper presented at The Association for Computer Aided Design in Architecture, Philadelphia, Pennsylvania, United States.

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

Harvard

Blaney, A, Ozkan, D, Pelit, E, Fonseca Braga, M, Hardy, J & Ashton, M 2022, ''Parametric Matter': Pushing’ Updates into Materials and theImplications of Legacy and Lag', Paper presented at The Association for Computer Aided Design in Architecture, Philadelphia, United States, 27/10/22 - 29/10/22.

APA

Blaney, A., Ozkan, D., Pelit, E., Fonseca Braga, M., Hardy, J., & Ashton, M. (2022). 'Parametric Matter': Pushing’ Updates into Materials and theImplications of Legacy and Lag. Paper presented at The Association for Computer Aided Design in Architecture, Philadelphia, Pennsylvania, United States.

Vancouver

Blaney A, Ozkan D, Pelit E, Fonseca Braga M, Hardy J, Ashton M. 'Parametric Matter': Pushing’ Updates into Materials and theImplications of Legacy and Lag. 2022. Paper presented at The Association for Computer Aided Design in Architecture, Philadelphia, Pennsylvania, United States.

Author

Blaney, Adam ; Ozkan, Dilan ; Pelit, Emel et al. / 'Parametric Matter' : Pushing’ Updates into Materials and theImplications of Legacy and Lag. Paper presented at The Association for Computer Aided Design in Architecture, Philadelphia, Pennsylvania, United States.15 p.

Bibtex

@conference{785ab2c922b64cd793e379c4669bbbb7,
title = "'Parametric Matter': Pushing{\textquoteright} Updates into Materials and theImplications of Legacy and Lag",
abstract = "This paper discusses an ongoing interdisciplinary research project that develops a design and fabrication approach termed; tunable environments. This is an explorative approach, which enables updates from a digital parametric interface to be {\textquoteleft}pushed' into a 2D, 18x18 cm material sample, by modulating stimuli, so multi properties can be updated/tuned at high resolutions. Our prototype explores how iterative updates can be achieved, which can be temporarily frozen in time. This opens up the idea of creating Parametric Matter/circular materials, which could reduce waste that can be attributed to typical linear processes. Additionally, highly bespoke, {\textquoteleft}time-based{\textquoteright}structures could be achieved. However new implications for design and fabrication arise based on: time-lag of materials, a legacy of interactions, resetting materials as well as challenges of determining associations and desirable material properties.",
author = "Adam Blaney and Dilan Ozkan and Emel Pelit and {Fonseca Braga}, Mariana and John Hardy and Mark Ashton",
year = "2022",
month = oct,
day = "27",
language = "English",
note = "The Association for Computer Aided Design in Architecture : Hybrids & Haecceities, ACADIA ; Conference date: 27-10-2022 Through 29-10-2022",
url = "https://2022.acadia.org",

}

RIS

TY - CONF

T1 - 'Parametric Matter'

T2 - The Association for Computer Aided Design in Architecture

AU - Blaney, Adam

AU - Ozkan, Dilan

AU - Pelit, Emel

AU - Fonseca Braga, Mariana

AU - Hardy, John

AU - Ashton, Mark

PY - 2022/10/27

Y1 - 2022/10/27

N2 - This paper discusses an ongoing interdisciplinary research project that develops a design and fabrication approach termed; tunable environments. This is an explorative approach, which enables updates from a digital parametric interface to be ‘pushed' into a 2D, 18x18 cm material sample, by modulating stimuli, so multi properties can be updated/tuned at high resolutions. Our prototype explores how iterative updates can be achieved, which can be temporarily frozen in time. This opens up the idea of creating Parametric Matter/circular materials, which could reduce waste that can be attributed to typical linear processes. Additionally, highly bespoke, ‘time-based’structures could be achieved. However new implications for design and fabrication arise based on: time-lag of materials, a legacy of interactions, resetting materials as well as challenges of determining associations and desirable material properties.

AB - This paper discusses an ongoing interdisciplinary research project that develops a design and fabrication approach termed; tunable environments. This is an explorative approach, which enables updates from a digital parametric interface to be ‘pushed' into a 2D, 18x18 cm material sample, by modulating stimuli, so multi properties can be updated/tuned at high resolutions. Our prototype explores how iterative updates can be achieved, which can be temporarily frozen in time. This opens up the idea of creating Parametric Matter/circular materials, which could reduce waste that can be attributed to typical linear processes. Additionally, highly bespoke, ‘time-based’structures could be achieved. However new implications for design and fabrication arise based on: time-lag of materials, a legacy of interactions, resetting materials as well as challenges of determining associations and desirable material properties.

M3 - Conference paper

Y2 - 27 October 2022 through 29 October 2022

ER -