Long term performance of polymers for solar hot water applications

Susan Mantell; Jane Davidson

Long term performance of polymers for solar hot water applications

Susan Mantell, Jane Davidson

Mechanical Engineering

Research output: Contribution to conference › Paper › peer-review

2 Scopus citations

Abstract

Polymer materials used in domestic hot water heating systems must maintain mechanical properties in the working fluid over their target lifetimes. In potable water, chlorine and pH combine to create an oxidative environment, characterized by the oxidative reduction potential (ORP) that can chemically attack a polymer, resulting in permanent loss of mechanical strength and increase in creep compliance. Polymer morphology data and mechanical property data are presented for polysulfone (PSU), polybutylene (PB), polypropylene random copolymer (PP-r) and polyamide 6/6 (PA66) specimens that had been exposed to an aqueous oxidative environment. The data obtained after up to 1500 hours exposure in hot potable chlorinated water (ORP ranging from 550 mV to 825 mV), show that PSU and the polyolefins with antioxidant additives (PB and PP-r) maintain their mechanical properties, while PA66 degrades significantly.

Original language	English (US)
Pages	766-770
Number of pages	5
State	Published - 2006
Event	Society of Plastics Engineers Annual Technical Conference 2006, ANTEC 2006 - Charlotte, NC, United States Duration: May 7 2006 → May 11 2006

Other

Other	Society of Plastics Engineers Annual Technical Conference 2006, ANTEC 2006
Country/Territory	United States
City	Charlotte, NC
Period	5/7/06 → 5/11/06

Keywords

Creep compliance
Oxidation
Polymer degradation

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

OpenUrl availability

Full text

Cite this

@conference{b866f24aa5094be287091b66831c658c,

title = "Long term performance of polymers for solar hot water applications",

abstract = "Polymer materials used in domestic hot water heating systems must maintain mechanical properties in the working fluid over their target lifetimes. In potable water, chlorine and pH combine to create an oxidative environment, characterized by the oxidative reduction potential (ORP) that can chemically attack a polymer, resulting in permanent loss of mechanical strength and increase in creep compliance. Polymer morphology data and mechanical property data are presented for polysulfone (PSU), polybutylene (PB), polypropylene random copolymer (PP-r) and polyamide 6/6 (PA66) specimens that had been exposed to an aqueous oxidative environment. The data obtained after up to 1500 hours exposure in hot potable chlorinated water (ORP ranging from 550 mV to 825 mV), show that PSU and the polyolefins with antioxidant additives (PB and PP-r) maintain their mechanical properties, while PA66 degrades significantly.",

keywords = "Creep compliance, Oxidation, Polymer degradation",

author = "Susan Mantell and Jane Davidson",

year = "2006",

language = "English (US)",

pages = "766--770",

note = "Society of Plastics Engineers Annual Technical Conference 2006, ANTEC 2006 ; Conference date: 07-05-2006 Through 11-05-2006",

}

TY - CONF

T1 - Long term performance of polymers for solar hot water applications

AU - Mantell, Susan

AU - Davidson, Jane

PY - 2006

Y1 - 2006

N2 - Polymer materials used in domestic hot water heating systems must maintain mechanical properties in the working fluid over their target lifetimes. In potable water, chlorine and pH combine to create an oxidative environment, characterized by the oxidative reduction potential (ORP) that can chemically attack a polymer, resulting in permanent loss of mechanical strength and increase in creep compliance. Polymer morphology data and mechanical property data are presented for polysulfone (PSU), polybutylene (PB), polypropylene random copolymer (PP-r) and polyamide 6/6 (PA66) specimens that had been exposed to an aqueous oxidative environment. The data obtained after up to 1500 hours exposure in hot potable chlorinated water (ORP ranging from 550 mV to 825 mV), show that PSU and the polyolefins with antioxidant additives (PB and PP-r) maintain their mechanical properties, while PA66 degrades significantly.

AB - Polymer materials used in domestic hot water heating systems must maintain mechanical properties in the working fluid over their target lifetimes. In potable water, chlorine and pH combine to create an oxidative environment, characterized by the oxidative reduction potential (ORP) that can chemically attack a polymer, resulting in permanent loss of mechanical strength and increase in creep compliance. Polymer morphology data and mechanical property data are presented for polysulfone (PSU), polybutylene (PB), polypropylene random copolymer (PP-r) and polyamide 6/6 (PA66) specimens that had been exposed to an aqueous oxidative environment. The data obtained after up to 1500 hours exposure in hot potable chlorinated water (ORP ranging from 550 mV to 825 mV), show that PSU and the polyolefins with antioxidant additives (PB and PP-r) maintain their mechanical properties, while PA66 degrades significantly.

KW - Creep compliance

KW - Oxidation

KW - Polymer degradation

UR - http://www.scopus.com/inward/record.url?scp=33745591937&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=33745591937&partnerID=8YFLogxK

M3 - Paper

AN - SCOPUS:33745591937

SP - 766

EP - 770

T2 - Society of Plastics Engineers Annual Technical Conference 2006, ANTEC 2006

Y2 - 7 May 2006 through 11 May 2006

ER -

Long term performance of polymers for solar hot water applications

Abstract

Other

Keywords

UN SDGs

OpenUrl availability

Other files and links

Fingerprint

Cite this