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Enhanced thermo-mechanical stiffness, thermal stability, and fire retardant performance of surface-modified 2D MoS2 nanosheet-reinforced polyurethane composites

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dc.contributor.author Malkappa, Kuruma
dc.contributor.author Ray, Suprakas S
dc.contributor.author Kumar, Neeraj
dc.date.accessioned 2019-03-23T08:48:01Z
dc.date.available 2019-03-23T08:48:01Z
dc.date.issued 2019-01
dc.identifier.citation Malkappa, K., Ray, S.S. and Kumar, N. 2019. Enhanced thermo-mechanical stiffness, thermal stability, and fire retardant performance of surface-modified 2D MoS2 nanosheet-reinforced polyurethane composites. Macromolecular Materials and Engineering, vol. 304(1): 13pp en_US
dc.identifier.issn 1438-7492
dc.identifier.issn 1439-2054
dc.identifier.uri DOI: 10.1002/mame.201800562
dc.identifier.uri https://onlinelibrary.wiley.com/doi/full/10.1002/mame.201800562
dc.identifier.uri https://doi.org/10.1002/mame.201800562
dc.identifier.uri http://hdl.handle.net/10204/10829
dc.description Copyright: 2018 Wiley. Due to copyright restrictions, the attached PDF file only contains the abstract of the fulltext version. For access to the published article, please consult the publisher's website: https://onlinelibrary.wiley.com/doi/full/10.1002/mame.201800562 en_US
dc.description.abstract This article reports new‐generation 2D‐MoS2 nanosheet‐containing polyurethane (PU) composite materials with improved thermo‐mechanical stiffness, thermal stability, and fire retardation properties. The surface of 2D‐MoS2 nanosheets is modified with melamine (M‐MoS2), and then PU composites with varying M‐MoS2 loadings are synthesized using an in situ polymerization method. During polymerization, 3‐amino‐propyl‐trimethoxy silane is introduced to create silicate functionality on the PU chains, which further improves the compatibility between PU and M‐MoS2. Microscopy studies confirm the distribution of highly intercalated and agglomerated M‐MoS2 nanosheets in the PU matrix. The PU composite containing 5 wt% M‐MoS2 shows a 65% higher storage modulus (at 30 °C) than that of pure PU. The thermal stability of pure PU is significantly improved (62 °C) after composite formation. Thermogravimetric analysis in combination with FTIR spectroscopy shows that the PU/M‐MoS2 composites release less toxic gases during thermal degradation compared to pure PU. Moreover, the composite containing 5 wt% M‐MoS2 shows improved fire retardation properties, with 45% and 67.5% decrease in the peak heat and total heat release rates, respectively, as compared with those of pure PU. In summary, 2D‐MoS2 is shown to have potential as an advanced nano‐filler to obtain stiffer PU composite with improved fire retardant property for structural application. en_US
dc.language.iso en en_US
dc.publisher Wiley en_US
dc.relation.ispartofseries Worklist;22055
dc.relation.ispartofseries Worklist;22056
dc.relation.ispartofseries Worklist;22159
dc.subject Polyurethane Composites en_US
dc.subject Nano-fillers en_US
dc.subject Fire retardant properties en_US
dc.subject Nanosheets en_US
dc.title Enhanced thermo-mechanical stiffness, thermal stability, and fire retardant performance of surface-modified 2D MoS2 nanosheet-reinforced polyurethane composites en_US
dc.type Article en_US
dc.identifier.apacitation Malkappa, K., Ray, S. S., & Kumar, N. (2019). Enhanced thermo-mechanical stiffness, thermal stability, and fire retardant performance of surface-modified 2D MoS2 nanosheet-reinforced polyurethane composites. http://hdl.handle.net/10204/10829 en_ZA
dc.identifier.chicagocitation Malkappa, Kuruma, Suprakas S Ray, and Neeraj Kumar "Enhanced thermo-mechanical stiffness, thermal stability, and fire retardant performance of surface-modified 2D MoS2 nanosheet-reinforced polyurethane composites." (2019) http://hdl.handle.net/10204/10829 en_ZA
dc.identifier.vancouvercitation Malkappa K, Ray SS, Kumar N. Enhanced thermo-mechanical stiffness, thermal stability, and fire retardant performance of surface-modified 2D MoS2 nanosheet-reinforced polyurethane composites. 2019; http://hdl.handle.net/10204/10829. en_ZA
dc.identifier.ris TY - Article AU - Malkappa, Kuruma AU - Ray, Suprakas S AU - Kumar, Neeraj AB - This article reports new‐generation 2D‐MoS2 nanosheet‐containing polyurethane (PU) composite materials with improved thermo‐mechanical stiffness, thermal stability, and fire retardation properties. The surface of 2D‐MoS2 nanosheets is modified with melamine (M‐MoS2), and then PU composites with varying M‐MoS2 loadings are synthesized using an in situ polymerization method. During polymerization, 3‐amino‐propyl‐trimethoxy silane is introduced to create silicate functionality on the PU chains, which further improves the compatibility between PU and M‐MoS2. Microscopy studies confirm the distribution of highly intercalated and agglomerated M‐MoS2 nanosheets in the PU matrix. The PU composite containing 5 wt% M‐MoS2 shows a 65% higher storage modulus (at 30 °C) than that of pure PU. The thermal stability of pure PU is significantly improved (62 °C) after composite formation. Thermogravimetric analysis in combination with FTIR spectroscopy shows that the PU/M‐MoS2 composites release less toxic gases during thermal degradation compared to pure PU. Moreover, the composite containing 5 wt% M‐MoS2 shows improved fire retardation properties, with 45% and 67.5% decrease in the peak heat and total heat release rates, respectively, as compared with those of pure PU. In summary, 2D‐MoS2 is shown to have potential as an advanced nano‐filler to obtain stiffer PU composite with improved fire retardant property for structural application. DA - 2019-01 DB - ResearchSpace DP - CSIR KW - Polyurethane Composites KW - Nano-fillers KW - Fire retardant properties KW - Nanosheets LK - https://researchspace.csir.co.za PY - 2019 SM - 1438-7492 SM - 1439-2054 T1 - Enhanced thermo-mechanical stiffness, thermal stability, and fire retardant performance of surface-modified 2D MoS2 nanosheet-reinforced polyurethane composites TI - Enhanced thermo-mechanical stiffness, thermal stability, and fire retardant performance of surface-modified 2D MoS2 nanosheet-reinforced polyurethane composites UR - http://hdl.handle.net/10204/10829 ER - en_ZA


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