Thermo-oxidative aging effect on charge transport in polypropylene/ultra-high molecular weight polyethylene nanocomposites
Thermo-oxidative aging effect on charge transport in polypropylene/ultra-high molecular weight polyethylene nanocomposites
This study investigates the impact of magnesium oxide (MgO) nanoparticles on the thermo-oxidative aging behavior of blends of polypropylene (PP) and ultra-high molecular weight polyethylene (UHMWPE). The samples, both unfilled and filled with MgO, were aged at 120 °C for varying durations of up to 672 h. The observed structural changes are not monotonic; recrystallization leads to the increased crystallinity and melting temperature of UHMWPE until 336 h. Beyond this, the consumption of the antioxidant leads to chain scission which, in turn, results in decreased crystallinity. The presence of carbonyl groups indicates chemical changes and, as such, the carbonyl index is used as an indicator of aging, with subsequent changes to charge transport. During thermal aging, the interaction between PP and UHMWPE chains at interfaces is enhanced, leading to improved compatibility and the emergence of a new single crystallization peak in PP/UHMWPE blends. Although MgO does not show evidence of elevating the crystallization temperature, implying the absence of enhanced nucleation, it acts as a compatibilizer, improving interfacial interaction compared with the unfilled blend counterparts. MgO hinders the breakage of molecular structures and impedes the diffusion of oxygen. This, in turn, results in nanocomposites filled with MgO having reduced their charge accumulation and conductivity, thus delaying the aging process compared to PP/UHMWPE blends without nanofiller.
carbonyl index, chain scission, charge transport, magnesium oxide, polypropylene, recrystallization, thermo-oxidative aging, ultra-high molecular weight polyethylene
Ketsamee, Phichet
320757bd-99cd-43d2-a8e8-b8100f15f461
Vryonis, Orestis
4affde05-88f2-436f-b036-dceedf31ea9c
Vaughan, Alun
6d813b66-17f9-4864-9763-25a6d659d8a3
Andritsch, Thomas
8681e640-e584-424e-a1f1-0d8b713de01c
18 September 2023
Ketsamee, Phichet
320757bd-99cd-43d2-a8e8-b8100f15f461
Vryonis, Orestis
4affde05-88f2-436f-b036-dceedf31ea9c
Vaughan, Alun
6d813b66-17f9-4864-9763-25a6d659d8a3
Andritsch, Thomas
8681e640-e584-424e-a1f1-0d8b713de01c
Ketsamee, Phichet, Vryonis, Orestis, Vaughan, Alun and Andritsch, Thomas
(2023)
Thermo-oxidative aging effect on charge transport in polypropylene/ultra-high molecular weight polyethylene nanocomposites.
Energies, 16 (18), [6670].
(doi:10.3390/en16186670).
Abstract
This study investigates the impact of magnesium oxide (MgO) nanoparticles on the thermo-oxidative aging behavior of blends of polypropylene (PP) and ultra-high molecular weight polyethylene (UHMWPE). The samples, both unfilled and filled with MgO, were aged at 120 °C for varying durations of up to 672 h. The observed structural changes are not monotonic; recrystallization leads to the increased crystallinity and melting temperature of UHMWPE until 336 h. Beyond this, the consumption of the antioxidant leads to chain scission which, in turn, results in decreased crystallinity. The presence of carbonyl groups indicates chemical changes and, as such, the carbonyl index is used as an indicator of aging, with subsequent changes to charge transport. During thermal aging, the interaction between PP and UHMWPE chains at interfaces is enhanced, leading to improved compatibility and the emergence of a new single crystallization peak in PP/UHMWPE blends. Although MgO does not show evidence of elevating the crystallization temperature, implying the absence of enhanced nucleation, it acts as a compatibilizer, improving interfacial interaction compared with the unfilled blend counterparts. MgO hinders the breakage of molecular structures and impedes the diffusion of oxygen. This, in turn, results in nanocomposites filled with MgO having reduced their charge accumulation and conductivity, thus delaying the aging process compared to PP/UHMWPE blends without nanofiller.
Text
Thermo-oxidative aging effect on charge transport in polypropylene/ultra-high molecular weight polyethylene nanocomposites
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More information
Accepted/In Press date: 15 September 2023
Published date: 18 September 2023
Additional Information:
Funding Information:
This research was funded by the Royal Thai Government.
Publisher Copyright:
© 2023 by the authors.
Keywords:
carbonyl index, chain scission, charge transport, magnesium oxide, polypropylene, recrystallization, thermo-oxidative aging, ultra-high molecular weight polyethylene
Identifiers
Local EPrints ID: 482327
URI: http://eprints.soton.ac.uk/id/eprint/482327
ISSN: 1996-1073
PURE UUID: b2a7bb61-22cd-46d4-a139-ed4d2c15bf3e
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Date deposited: 26 Sep 2023 17:04
Last modified: 18 Mar 2024 03:54
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Contributors
Author:
Phichet Ketsamee
Author:
Orestis Vryonis
Author:
Alun Vaughan
Author:
Thomas Andritsch
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