A multichamber, pressure-based test method to determine wind loads on air-permeable, multilayer cladding systems

Connell Shamus Miller; Gregory A. Kopp; Murray J. Morrison; Gary Kemp; Nick Drought

doi:10.3389/fbuil.2017.00007

A multichamber, pressure-based test method to determine wind loads on air-permeable, multilayer cladding systems

Connell Shamus Miller, Gregory A. Kopp, Murray J. Morrison, Gary Kemp, Nick Drought

Engineering

Research output: Contribution to journal › Article › peer-review

4 Citations (Scopus)

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Abstract

Current standardized testing on air-permeable multilayer cladding is inaccurate since one of the primary parameters for setting the peak net wind loads across the cladding is the external pressure gradient, which is removed from all standardized testing. After implementing a latex-barrier system and examining the control strategy for the pressure loading actuators, a multichamber airbox system for testing air-permeable multilayer cladding is developed and compared to a benchmark study performed by the Insurance Research Lab for Better Homes. The results indicate that using multichamber, pressure-based testing to obtain wind loads for air-permeable, multilayer wall systems with flexible cladding is sufficiently accurate. This method also shows that eliminating temporal variations from the external pressures for easier standardized testing would provide fairly accurate results.

Original language	English
Article number	7
Number of pages	12
Journal	Frontiers in Built Environment
Volume	3
DOIs	https://doi.org/10.3389/fbuil.2017.00007
Publication status	Published - 10 Feb 2017

Keywords

wind loads
full-scale test methods
air-permeable cladding
pressure equalization
pressure loading actuators

Access to Document

10.3389/fbuil.2017.00007Licence: Creative Commons: Attribution (CC BY)

MillerC2017Multichamber
Copyright © 2017 Miller, Kopp, Morrison, Kemp and Drought.
Final published version, 2.32 MBLicence: Creative Commons: Attribution (CC BY)

Cite this

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title = "A multichamber, pressure-based test method to determine wind loads on air-permeable, multilayer cladding systems",

abstract = "Current standardized testing on air-permeable multilayer cladding is inaccurate since one of the primary parameters for setting the peak net wind loads across the cladding is the external pressure gradient, which is removed from all standardized testing. After implementing a latex-barrier system and examining the control strategy for the pressure loading actuators, a multichamber airbox system for testing air-permeable multilayer cladding is developed and compared to a benchmark study performed by the Insurance Research Lab for Better Homes. The results indicate that using multichamber, pressure-based testing to obtain wind loads for air-permeable, multilayer wall systems with flexible cladding is sufficiently accurate. This method also shows that eliminating temporal variations from the external pressures for easier standardized testing would provide fairly accurate results.",

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AU - Kemp, Gary

AU - Drought, Nick

PY - 2017/2/10

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N2 - Current standardized testing on air-permeable multilayer cladding is inaccurate since one of the primary parameters for setting the peak net wind loads across the cladding is the external pressure gradient, which is removed from all standardized testing. After implementing a latex-barrier system and examining the control strategy for the pressure loading actuators, a multichamber airbox system for testing air-permeable multilayer cladding is developed and compared to a benchmark study performed by the Insurance Research Lab for Better Homes. The results indicate that using multichamber, pressure-based testing to obtain wind loads for air-permeable, multilayer wall systems with flexible cladding is sufficiently accurate. This method also shows that eliminating temporal variations from the external pressures for easier standardized testing would provide fairly accurate results.

AB - Current standardized testing on air-permeable multilayer cladding is inaccurate since one of the primary parameters for setting the peak net wind loads across the cladding is the external pressure gradient, which is removed from all standardized testing. After implementing a latex-barrier system and examining the control strategy for the pressure loading actuators, a multichamber airbox system for testing air-permeable multilayer cladding is developed and compared to a benchmark study performed by the Insurance Research Lab for Better Homes. The results indicate that using multichamber, pressure-based testing to obtain wind loads for air-permeable, multilayer wall systems with flexible cladding is sufficiently accurate. This method also shows that eliminating temporal variations from the external pressures for easier standardized testing would provide fairly accurate results.

KW - wind loads

KW - full-scale test methods

KW - air-permeable cladding

KW - pressure equalization

KW - pressure loading actuators

U2 - 10.3389/fbuil.2017.00007

DO - 10.3389/fbuil.2017.00007

M3 - Article

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JO - Frontiers in Built Environment

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A multichamber, pressure-based test method to determine wind loads on air-permeable, multilayer cladding systems

Abstract

Keywords

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