Synthetic wollastonite nanofiber for polybutylene terephthalate nanocomposite: Mechanical, thermal, tribological and flammability properties
Synthetic wollastonite nanofibers (SWN) were incorporated into polybutylene terephthalate (PBT) to study the effect of SWN content on mechanical, morphological, thermal, tribological and flammability properties. SWN led to an increment in tensile strength (6% at 1.0 phr) and Young's modulus (13...
Ausführliche Beschreibung
Gespeichert in:
| Autor*in: |
Chan, Jia Xin [verfasserIn] |
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| Format: |
E-Artikel |
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| Sprache: |
Englisch |
| Erschienen: |
2022transfer abstract |
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| Schlagwörter: |
Synthetic wollastonite nanofiber |
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| Übergeordnetes Werk: |
Enthalten in: Functional outcomes at 12 months for patients with traumatic brain injury, intracerebral haemorrhage and subarachnoid haemorrhage treated in an Australian neurocritical care unit: A prospective cohort study - Fitzgerald, Emily ELSEVIER, 2020, the international journal for the science and technology of polymers, Oxford |
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| Übergeordnetes Werk: |
volume:256 ; year:2022 ; day:21 ; month:09 ; pages:0 |
| Links: |
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| DOI / URN: |
10.1016/j.polymer.2022.125259 |
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ELV058827358 |
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| 520 | |a Synthetic wollastonite nanofibers (SWN) were incorporated into polybutylene terephthalate (PBT) to study the effect of SWN content on mechanical, morphological, thermal, tribological and flammability properties. SWN led to an increment in tensile strength (6% at 1.0 phr) and Young's modulus (13% at 3.0 phr), due to its reinforcing effect and good interactions with the PBT matrix. Thermal analysis revealed an increase in crystallinity and thermal stability of the nanocomposites. Increase in wear resistance (73%) and anti-friction performance (29%) were achieved when SWN reinforced the wear specimens and promoted the building-up of back transfer film. Increasing SWN content significantly changed the wear mechanism from adhesive to abrasive wear. SWN improved the flame retardancy by reducing the peak of heat release rate by about 17% and the production of smoke and toxic gases by 23–36%. The present study showed that PBT/SWN nanocomposites have the potential for lightweight structural components in automotive industry. | ||
| 520 | |a Synthetic wollastonite nanofibers (SWN) were incorporated into polybutylene terephthalate (PBT) to study the effect of SWN content on mechanical, morphological, thermal, tribological and flammability properties. SWN led to an increment in tensile strength (6% at 1.0 phr) and Young's modulus (13% at 3.0 phr), due to its reinforcing effect and good interactions with the PBT matrix. Thermal analysis revealed an increase in crystallinity and thermal stability of the nanocomposites. Increase in wear resistance (73%) and anti-friction performance (29%) were achieved when SWN reinforced the wear specimens and promoted the building-up of back transfer film. Increasing SWN content significantly changed the wear mechanism from adhesive to abrasive wear. SWN improved the flame retardancy by reducing the peak of heat release rate by about 17% and the production of smoke and toxic gases by 23–36%. The present study showed that PBT/SWN nanocomposites have the potential for lightweight structural components in automotive industry. | ||
| 650 | 7 | |a Synthetic wollastonite nanofiber |2 Elsevier | |
| 650 | 7 | |a Flammability properties |2 Elsevier | |
| 650 | 7 | |a Tribological properties |2 Elsevier | |
| 650 | 7 | |a Polybutylene terephthalate nanocomposites |2 Elsevier | |
| 650 | 7 | |a Mechanical properties |2 Elsevier | |
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10.1016/j.polymer.2022.125259 doi /cbs_pica/cbs_olc/import_discovery/elsevier/einzuspielen/GBV00000000001890.pica (DE-627)ELV058827358 (ELSEVIER)S0032-3861(22)00747-9 DE-627 ger DE-627 rakwb eng 610 VZ 44.63 bkl 44.69 bkl Chan, Jia Xin verfasserin aut Synthetic wollastonite nanofiber for polybutylene terephthalate nanocomposite: Mechanical, thermal, tribological and flammability properties 2022transfer abstract nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier Synthetic wollastonite nanofibers (SWN) were incorporated into polybutylene terephthalate (PBT) to study the effect of SWN content on mechanical, morphological, thermal, tribological and flammability properties. SWN led to an increment in tensile strength (6% at 1.0 phr) and Young's modulus (13% at 3.0 phr), due to its reinforcing effect and good interactions with the PBT matrix. Thermal analysis revealed an increase in crystallinity and thermal stability of the nanocomposites. Increase in wear resistance (73%) and anti-friction performance (29%) were achieved when SWN reinforced the wear specimens and promoted the building-up of back transfer film. Increasing SWN content significantly changed the wear mechanism from adhesive to abrasive wear. SWN improved the flame retardancy by reducing the peak of heat release rate by about 17% and the production of smoke and toxic gases by 23–36%. The present study showed that PBT/SWN nanocomposites have the potential for lightweight structural components in automotive industry. Synthetic wollastonite nanofibers (SWN) were incorporated into polybutylene terephthalate (PBT) to study the effect of SWN content on mechanical, morphological, thermal, tribological and flammability properties. SWN led to an increment in tensile strength (6% at 1.0 phr) and Young's modulus (13% at 3.0 phr), due to its reinforcing effect and good interactions with the PBT matrix. Thermal analysis revealed an increase in crystallinity and thermal stability of the nanocomposites. Increase in wear resistance (73%) and anti-friction performance (29%) were achieved when SWN reinforced the wear specimens and promoted the building-up of back transfer film. Increasing SWN content significantly changed the wear mechanism from adhesive to abrasive wear. SWN improved the flame retardancy by reducing the peak of heat release rate by about 17% and the production of smoke and toxic gases by 23–36%. The present study showed that PBT/SWN nanocomposites have the potential for lightweight structural components in automotive industry. Synthetic wollastonite nanofiber Elsevier Flammability properties Elsevier Tribological properties Elsevier Polybutylene terephthalate nanocomposites Elsevier Mechanical properties Elsevier Wong, Joon Fatt oth Hassan, Azman oth Othman, Norhayani oth Razak, Jeefferie Abd oth Nirmal, Umar oth Hashim, Shahrir oth Ching, Yern Chee oth Yunos, Muhamad Zaini oth Yahaya, Ridwan oth Gunathilake, T.M. Sampath U. oth Enthalten in Elsevier Science Fitzgerald, Emily ELSEVIER Functional outcomes at 12 months for patients with traumatic brain injury, intracerebral haemorrhage and subarachnoid haemorrhage treated in an Australian neurocritical care unit: A prospective cohort study 2020 the international journal for the science and technology of polymers Oxford (DE-627)ELV005093368 volume:256 year:2022 day:21 month:09 pages:0 https://doi.org/10.1016/j.polymer.2022.125259 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U SSG-OLC-PHA 44.63 Krankenpflege VZ 44.69 Intensivmedizin VZ AR 256 2022 21 0921 0 |
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10.1016/j.polymer.2022.125259 doi /cbs_pica/cbs_olc/import_discovery/elsevier/einzuspielen/GBV00000000001890.pica (DE-627)ELV058827358 (ELSEVIER)S0032-3861(22)00747-9 DE-627 ger DE-627 rakwb eng 610 VZ 44.63 bkl 44.69 bkl Chan, Jia Xin verfasserin aut Synthetic wollastonite nanofiber for polybutylene terephthalate nanocomposite: Mechanical, thermal, tribological and flammability properties 2022transfer abstract nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier Synthetic wollastonite nanofibers (SWN) were incorporated into polybutylene terephthalate (PBT) to study the effect of SWN content on mechanical, morphological, thermal, tribological and flammability properties. SWN led to an increment in tensile strength (6% at 1.0 phr) and Young's modulus (13% at 3.0 phr), due to its reinforcing effect and good interactions with the PBT matrix. Thermal analysis revealed an increase in crystallinity and thermal stability of the nanocomposites. Increase in wear resistance (73%) and anti-friction performance (29%) were achieved when SWN reinforced the wear specimens and promoted the building-up of back transfer film. Increasing SWN content significantly changed the wear mechanism from adhesive to abrasive wear. SWN improved the flame retardancy by reducing the peak of heat release rate by about 17% and the production of smoke and toxic gases by 23–36%. The present study showed that PBT/SWN nanocomposites have the potential for lightweight structural components in automotive industry. Synthetic wollastonite nanofibers (SWN) were incorporated into polybutylene terephthalate (PBT) to study the effect of SWN content on mechanical, morphological, thermal, tribological and flammability properties. SWN led to an increment in tensile strength (6% at 1.0 phr) and Young's modulus (13% at 3.0 phr), due to its reinforcing effect and good interactions with the PBT matrix. Thermal analysis revealed an increase in crystallinity and thermal stability of the nanocomposites. Increase in wear resistance (73%) and anti-friction performance (29%) were achieved when SWN reinforced the wear specimens and promoted the building-up of back transfer film. Increasing SWN content significantly changed the wear mechanism from adhesive to abrasive wear. SWN improved the flame retardancy by reducing the peak of heat release rate by about 17% and the production of smoke and toxic gases by 23–36%. The present study showed that PBT/SWN nanocomposites have the potential for lightweight structural components in automotive industry. Synthetic wollastonite nanofiber Elsevier Flammability properties Elsevier Tribological properties Elsevier Polybutylene terephthalate nanocomposites Elsevier Mechanical properties Elsevier Wong, Joon Fatt oth Hassan, Azman oth Othman, Norhayani oth Razak, Jeefferie Abd oth Nirmal, Umar oth Hashim, Shahrir oth Ching, Yern Chee oth Yunos, Muhamad Zaini oth Yahaya, Ridwan oth Gunathilake, T.M. Sampath U. oth Enthalten in Elsevier Science Fitzgerald, Emily ELSEVIER Functional outcomes at 12 months for patients with traumatic brain injury, intracerebral haemorrhage and subarachnoid haemorrhage treated in an Australian neurocritical care unit: A prospective cohort study 2020 the international journal for the science and technology of polymers Oxford (DE-627)ELV005093368 volume:256 year:2022 day:21 month:09 pages:0 https://doi.org/10.1016/j.polymer.2022.125259 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U SSG-OLC-PHA 44.63 Krankenpflege VZ 44.69 Intensivmedizin VZ AR 256 2022 21 0921 0 |
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10.1016/j.polymer.2022.125259 doi /cbs_pica/cbs_olc/import_discovery/elsevier/einzuspielen/GBV00000000001890.pica (DE-627)ELV058827358 (ELSEVIER)S0032-3861(22)00747-9 DE-627 ger DE-627 rakwb eng 610 VZ 44.63 bkl 44.69 bkl Chan, Jia Xin verfasserin aut Synthetic wollastonite nanofiber for polybutylene terephthalate nanocomposite: Mechanical, thermal, tribological and flammability properties 2022transfer abstract nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier Synthetic wollastonite nanofibers (SWN) were incorporated into polybutylene terephthalate (PBT) to study the effect of SWN content on mechanical, morphological, thermal, tribological and flammability properties. SWN led to an increment in tensile strength (6% at 1.0 phr) and Young's modulus (13% at 3.0 phr), due to its reinforcing effect and good interactions with the PBT matrix. Thermal analysis revealed an increase in crystallinity and thermal stability of the nanocomposites. Increase in wear resistance (73%) and anti-friction performance (29%) were achieved when SWN reinforced the wear specimens and promoted the building-up of back transfer film. Increasing SWN content significantly changed the wear mechanism from adhesive to abrasive wear. SWN improved the flame retardancy by reducing the peak of heat release rate by about 17% and the production of smoke and toxic gases by 23–36%. The present study showed that PBT/SWN nanocomposites have the potential for lightweight structural components in automotive industry. Synthetic wollastonite nanofibers (SWN) were incorporated into polybutylene terephthalate (PBT) to study the effect of SWN content on mechanical, morphological, thermal, tribological and flammability properties. SWN led to an increment in tensile strength (6% at 1.0 phr) and Young's modulus (13% at 3.0 phr), due to its reinforcing effect and good interactions with the PBT matrix. Thermal analysis revealed an increase in crystallinity and thermal stability of the nanocomposites. Increase in wear resistance (73%) and anti-friction performance (29%) were achieved when SWN reinforced the wear specimens and promoted the building-up of back transfer film. Increasing SWN content significantly changed the wear mechanism from adhesive to abrasive wear. SWN improved the flame retardancy by reducing the peak of heat release rate by about 17% and the production of smoke and toxic gases by 23–36%. The present study showed that PBT/SWN nanocomposites have the potential for lightweight structural components in automotive industry. Synthetic wollastonite nanofiber Elsevier Flammability properties Elsevier Tribological properties Elsevier Polybutylene terephthalate nanocomposites Elsevier Mechanical properties Elsevier Wong, Joon Fatt oth Hassan, Azman oth Othman, Norhayani oth Razak, Jeefferie Abd oth Nirmal, Umar oth Hashim, Shahrir oth Ching, Yern Chee oth Yunos, Muhamad Zaini oth Yahaya, Ridwan oth Gunathilake, T.M. Sampath U. oth Enthalten in Elsevier Science Fitzgerald, Emily ELSEVIER Functional outcomes at 12 months for patients with traumatic brain injury, intracerebral haemorrhage and subarachnoid haemorrhage treated in an Australian neurocritical care unit: A prospective cohort study 2020 the international journal for the science and technology of polymers Oxford (DE-627)ELV005093368 volume:256 year:2022 day:21 month:09 pages:0 https://doi.org/10.1016/j.polymer.2022.125259 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U SSG-OLC-PHA 44.63 Krankenpflege VZ 44.69 Intensivmedizin VZ AR 256 2022 21 0921 0 |
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10.1016/j.polymer.2022.125259 doi /cbs_pica/cbs_olc/import_discovery/elsevier/einzuspielen/GBV00000000001890.pica (DE-627)ELV058827358 (ELSEVIER)S0032-3861(22)00747-9 DE-627 ger DE-627 rakwb eng 610 VZ 44.63 bkl 44.69 bkl Chan, Jia Xin verfasserin aut Synthetic wollastonite nanofiber for polybutylene terephthalate nanocomposite: Mechanical, thermal, tribological and flammability properties 2022transfer abstract nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier Synthetic wollastonite nanofibers (SWN) were incorporated into polybutylene terephthalate (PBT) to study the effect of SWN content on mechanical, morphological, thermal, tribological and flammability properties. SWN led to an increment in tensile strength (6% at 1.0 phr) and Young's modulus (13% at 3.0 phr), due to its reinforcing effect and good interactions with the PBT matrix. Thermal analysis revealed an increase in crystallinity and thermal stability of the nanocomposites. Increase in wear resistance (73%) and anti-friction performance (29%) were achieved when SWN reinforced the wear specimens and promoted the building-up of back transfer film. Increasing SWN content significantly changed the wear mechanism from adhesive to abrasive wear. SWN improved the flame retardancy by reducing the peak of heat release rate by about 17% and the production of smoke and toxic gases by 23–36%. The present study showed that PBT/SWN nanocomposites have the potential for lightweight structural components in automotive industry. Synthetic wollastonite nanofibers (SWN) were incorporated into polybutylene terephthalate (PBT) to study the effect of SWN content on mechanical, morphological, thermal, tribological and flammability properties. SWN led to an increment in tensile strength (6% at 1.0 phr) and Young's modulus (13% at 3.0 phr), due to its reinforcing effect and good interactions with the PBT matrix. Thermal analysis revealed an increase in crystallinity and thermal stability of the nanocomposites. Increase in wear resistance (73%) and anti-friction performance (29%) were achieved when SWN reinforced the wear specimens and promoted the building-up of back transfer film. Increasing SWN content significantly changed the wear mechanism from adhesive to abrasive wear. SWN improved the flame retardancy by reducing the peak of heat release rate by about 17% and the production of smoke and toxic gases by 23–36%. The present study showed that PBT/SWN nanocomposites have the potential for lightweight structural components in automotive industry. Synthetic wollastonite nanofiber Elsevier Flammability properties Elsevier Tribological properties Elsevier Polybutylene terephthalate nanocomposites Elsevier Mechanical properties Elsevier Wong, Joon Fatt oth Hassan, Azman oth Othman, Norhayani oth Razak, Jeefferie Abd oth Nirmal, Umar oth Hashim, Shahrir oth Ching, Yern Chee oth Yunos, Muhamad Zaini oth Yahaya, Ridwan oth Gunathilake, T.M. Sampath U. oth Enthalten in Elsevier Science Fitzgerald, Emily ELSEVIER Functional outcomes at 12 months for patients with traumatic brain injury, intracerebral haemorrhage and subarachnoid haemorrhage treated in an Australian neurocritical care unit: A prospective cohort study 2020 the international journal for the science and technology of polymers Oxford (DE-627)ELV005093368 volume:256 year:2022 day:21 month:09 pages:0 https://doi.org/10.1016/j.polymer.2022.125259 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U SSG-OLC-PHA 44.63 Krankenpflege VZ 44.69 Intensivmedizin VZ AR 256 2022 21 0921 0 |
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10.1016/j.polymer.2022.125259 doi /cbs_pica/cbs_olc/import_discovery/elsevier/einzuspielen/GBV00000000001890.pica (DE-627)ELV058827358 (ELSEVIER)S0032-3861(22)00747-9 DE-627 ger DE-627 rakwb eng 610 VZ 44.63 bkl 44.69 bkl Chan, Jia Xin verfasserin aut Synthetic wollastonite nanofiber for polybutylene terephthalate nanocomposite: Mechanical, thermal, tribological and flammability properties 2022transfer abstract nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier Synthetic wollastonite nanofibers (SWN) were incorporated into polybutylene terephthalate (PBT) to study the effect of SWN content on mechanical, morphological, thermal, tribological and flammability properties. SWN led to an increment in tensile strength (6% at 1.0 phr) and Young's modulus (13% at 3.0 phr), due to its reinforcing effect and good interactions with the PBT matrix. Thermal analysis revealed an increase in crystallinity and thermal stability of the nanocomposites. Increase in wear resistance (73%) and anti-friction performance (29%) were achieved when SWN reinforced the wear specimens and promoted the building-up of back transfer film. Increasing SWN content significantly changed the wear mechanism from adhesive to abrasive wear. SWN improved the flame retardancy by reducing the peak of heat release rate by about 17% and the production of smoke and toxic gases by 23–36%. The present study showed that PBT/SWN nanocomposites have the potential for lightweight structural components in automotive industry. Synthetic wollastonite nanofibers (SWN) were incorporated into polybutylene terephthalate (PBT) to study the effect of SWN content on mechanical, morphological, thermal, tribological and flammability properties. SWN led to an increment in tensile strength (6% at 1.0 phr) and Young's modulus (13% at 3.0 phr), due to its reinforcing effect and good interactions with the PBT matrix. Thermal analysis revealed an increase in crystallinity and thermal stability of the nanocomposites. Increase in wear resistance (73%) and anti-friction performance (29%) were achieved when SWN reinforced the wear specimens and promoted the building-up of back transfer film. Increasing SWN content significantly changed the wear mechanism from adhesive to abrasive wear. SWN improved the flame retardancy by reducing the peak of heat release rate by about 17% and the production of smoke and toxic gases by 23–36%. The present study showed that PBT/SWN nanocomposites have the potential for lightweight structural components in automotive industry. Synthetic wollastonite nanofiber Elsevier Flammability properties Elsevier Tribological properties Elsevier Polybutylene terephthalate nanocomposites Elsevier Mechanical properties Elsevier Wong, Joon Fatt oth Hassan, Azman oth Othman, Norhayani oth Razak, Jeefferie Abd oth Nirmal, Umar oth Hashim, Shahrir oth Ching, Yern Chee oth Yunos, Muhamad Zaini oth Yahaya, Ridwan oth Gunathilake, T.M. Sampath U. oth Enthalten in Elsevier Science Fitzgerald, Emily ELSEVIER Functional outcomes at 12 months for patients with traumatic brain injury, intracerebral haemorrhage and subarachnoid haemorrhage treated in an Australian neurocritical care unit: A prospective cohort study 2020 the international journal for the science and technology of polymers Oxford (DE-627)ELV005093368 volume:256 year:2022 day:21 month:09 pages:0 https://doi.org/10.1016/j.polymer.2022.125259 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U SSG-OLC-PHA 44.63 Krankenpflege VZ 44.69 Intensivmedizin VZ AR 256 2022 21 0921 0 |
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Enthalten in Functional outcomes at 12 months for patients with traumatic brain injury, intracerebral haemorrhage and subarachnoid haemorrhage treated in an Australian neurocritical care unit: A prospective cohort study Oxford volume:256 year:2022 day:21 month:09 pages:0 |
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Enthalten in Functional outcomes at 12 months for patients with traumatic brain injury, intracerebral haemorrhage and subarachnoid haemorrhage treated in an Australian neurocritical care unit: A prospective cohort study Oxford volume:256 year:2022 day:21 month:09 pages:0 |
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Functional outcomes at 12 months for patients with traumatic brain injury, intracerebral haemorrhage and subarachnoid haemorrhage treated in an Australian neurocritical care unit: A prospective cohort study |
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Synthetic wollastonite nanofiber for polybutylene terephthalate nanocomposite: Mechanical, thermal, tribological and flammability properties |
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Synthetic wollastonite nanofibers (SWN) were incorporated into polybutylene terephthalate (PBT) to study the effect of SWN content on mechanical, morphological, thermal, tribological and flammability properties. SWN led to an increment in tensile strength (6% at 1.0 phr) and Young's modulus (13% at 3.0 phr), due to its reinforcing effect and good interactions with the PBT matrix. Thermal analysis revealed an increase in crystallinity and thermal stability of the nanocomposites. Increase in wear resistance (73%) and anti-friction performance (29%) were achieved when SWN reinforced the wear specimens and promoted the building-up of back transfer film. Increasing SWN content significantly changed the wear mechanism from adhesive to abrasive wear. SWN improved the flame retardancy by reducing the peak of heat release rate by about 17% and the production of smoke and toxic gases by 23–36%. The present study showed that PBT/SWN nanocomposites have the potential for lightweight structural components in automotive industry. |
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Synthetic wollastonite nanofibers (SWN) were incorporated into polybutylene terephthalate (PBT) to study the effect of SWN content on mechanical, morphological, thermal, tribological and flammability properties. SWN led to an increment in tensile strength (6% at 1.0 phr) and Young's modulus (13% at 3.0 phr), due to its reinforcing effect and good interactions with the PBT matrix. Thermal analysis revealed an increase in crystallinity and thermal stability of the nanocomposites. Increase in wear resistance (73%) and anti-friction performance (29%) were achieved when SWN reinforced the wear specimens and promoted the building-up of back transfer film. Increasing SWN content significantly changed the wear mechanism from adhesive to abrasive wear. SWN improved the flame retardancy by reducing the peak of heat release rate by about 17% and the production of smoke and toxic gases by 23–36%. The present study showed that PBT/SWN nanocomposites have the potential for lightweight structural components in automotive industry. |
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Synthetic wollastonite nanofibers (SWN) were incorporated into polybutylene terephthalate (PBT) to study the effect of SWN content on mechanical, morphological, thermal, tribological and flammability properties. SWN led to an increment in tensile strength (6% at 1.0 phr) and Young's modulus (13% at 3.0 phr), due to its reinforcing effect and good interactions with the PBT matrix. Thermal analysis revealed an increase in crystallinity and thermal stability of the nanocomposites. Increase in wear resistance (73%) and anti-friction performance (29%) were achieved when SWN reinforced the wear specimens and promoted the building-up of back transfer film. Increasing SWN content significantly changed the wear mechanism from adhesive to abrasive wear. SWN improved the flame retardancy by reducing the peak of heat release rate by about 17% and the production of smoke and toxic gases by 23–36%. The present study showed that PBT/SWN nanocomposites have the potential for lightweight structural components in automotive industry. |
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