Improve the window thermal performance using PSA mixed silica aerogel for building energy saving

Sumin Kim; Junghoon Cha

Improve the window thermal performance using PSA mixed silica aerogel for building energy saving

Sumin Kim, Junghoon Cha

Department of Architecture and Architectural Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

Aerogels have a high surface area, low density, open pore structure and excellent insulation properties. We mixed pressure sensitive adhesive (PSA) and aerogel using a homogenizer. A mixture of the adhesives and silica aerogels coated film can reduce whole film thermal conductivity. But this film can't be pasted on the glass because adhesion strength is reduced. To improve the adhesion strength it is coated on both sides. Thermal conductivity was measured by a TCi thermal conductivity analyzer.

Original language	English
Title of host publication	10th International Conference on Healthy Buildings 2012
Pages	1372-1375
Number of pages	4
Publication status	Published - 2012
Event	10th International Conference on Healthy Buildings 2012 - Brisbane, QLD, Australia Duration: 2012 Jul 8 → 2012 Jul 12

Publication series

Name	10th International Conference on Healthy Buildings 2012
Volume	2

Other

Other	10th International Conference on Healthy Buildings 2012
Country	Australia
City	Brisbane, QLD
Period	12/7/8 → 12/7/12

All Science Journal Classification (ASJC) codes

Civil and Structural Engineering

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title = "Improve the window thermal performance using PSA mixed silica aerogel for building energy saving",

abstract = "Aerogels have a high surface area, low density, open pore structure and excellent insulation properties. We mixed pressure sensitive adhesive (PSA) and aerogel using a homogenizer. A mixture of the adhesives and silica aerogels coated film can reduce whole film thermal conductivity. But this film can't be pasted on the glass because adhesion strength is reduced. To improve the adhesion strength it is coated on both sides. Thermal conductivity was measured by a TCi thermal conductivity analyzer.",

author = "Sumin Kim and Junghoon Cha",

year = "2012",

language = "English",

isbn = "9781627480758",

series = "10th International Conference on Healthy Buildings 2012",

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AU - Kim, Sumin

AU - Cha, Junghoon

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N2 - Aerogels have a high surface area, low density, open pore structure and excellent insulation properties. We mixed pressure sensitive adhesive (PSA) and aerogel using a homogenizer. A mixture of the adhesives and silica aerogels coated film can reduce whole film thermal conductivity. But this film can't be pasted on the glass because adhesion strength is reduced. To improve the adhesion strength it is coated on both sides. Thermal conductivity was measured by a TCi thermal conductivity analyzer.

AB - Aerogels have a high surface area, low density, open pore structure and excellent insulation properties. We mixed pressure sensitive adhesive (PSA) and aerogel using a homogenizer. A mixture of the adhesives and silica aerogels coated film can reduce whole film thermal conductivity. But this film can't be pasted on the glass because adhesion strength is reduced. To improve the adhesion strength it is coated on both sides. Thermal conductivity was measured by a TCi thermal conductivity analyzer.

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M3 - Conference contribution

AN - SCOPUS:84883441254

SN - 9781627480758

T3 - 10th International Conference on Healthy Buildings 2012

SP - 1372

EP - 1375

BT - 10th International Conference on Healthy Buildings 2012

T2 - 10th International Conference on Healthy Buildings 2012

Y2 - 8 July 2012 through 12 July 2012

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