Tensile and thermal properties of natural rubber/ ethylene propylene rubber waste/linear low-density polyethylene blends / Nor Mazlina Abdul Wahab ... [et al.]

Tensile and thermal properties of natural rubber/ ethylene propylene rubber waste/linear low-density polyethylene blends / Nor Mazlina Abdul Wahab ... [et al.]

Natural rubber (NR) is an isoprene polymer and non-polar rubber obtained from Hevea brasiliensis tree. NR has superior mechanical properties but poor resistance to heat and ozone due to its unsaturation in backbone chain. Ethylene propylene rubber (EPDM) is non-polar rubber which is highly in demand...

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Main Authors: Abdul Wahab, Nor Mazlina, Hanapi, Nurin Sabrina, Mustafa, Mohd Syamaizar, Samsudin, Dalina, Ahmad, Zuliahani, Hashim, Faiezah, Sarip, Muhamad Naiman
Format: Article
Language:English
Published: Penerbit UiTM (UiTM Press) 2025
Subjects:
Analytical chemistry
Rubber industry
Online Access:https://ir.uitm.edu.my/id/eprint/111171/1/111171.pdf
https://ir.uitm.edu.my/id/eprint/111171/
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Institution: Universiti Teknologi Mara
Language: English
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spelling my.uitm.ir.1111712025-03-05T23:56:29Z https://ir.uitm.edu.my/id/eprint/111171/ Tensile and thermal properties of natural rubber/ ethylene propylene rubber waste/linear low-density polyethylene blends / Nor Mazlina Abdul Wahab ... [et al.] srj Abdul Wahab, Nor Mazlina Hanapi, Nurin Sabrina Mustafa, Mohd Syamaizar Samsudin, Dalina Ahmad, Zuliahani Hashim, Faiezah Sarip, Muhamad Naiman Analytical chemistry Rubber industry Natural rubber (NR) is an isoprene polymer and non-polar rubber obtained from Hevea brasiliensis tree. NR has superior mechanical properties but poor resistance to heat and ozone due to its unsaturation in backbone chain. Ethylene propylene rubber (EPDM) is non-polar rubber which is highly in demand especially in automotive industries because it has high oxidation and ozone cracking resistance since the double bond does not exist in the main backbone chain, leading to high amount of scrap or waste accumulated by time. Thus, this research embarks to use the blend of NR/EPDM in addressing green environment. However, the blend of this material leads to phase separation and poor interfacial adhesion, resulting in a heterogeneous blend that possesses poor compatibility. Hence, linear low-density polyethylene (LLDPE) is used as a compatibilizer and additive in this blend. The ternary blends NR/EPDMw/LLDPE blend were prepared in an internal mixer at approximately 160 °C. The amount of EPDMw was fixed at 60 phr, but NR and LLDPE were manipulated. The blend compositions of the ternary blend were 40/60/0, 35/60/5, 30/60/10, 25/60/15, and 20/60/20 (phr) of NR/EPDMw/LLDPE, respectively. The effects of the partial replacement of NR by LLDPE on compatibility, tensile and thermal properties were studied using tensile testing, DSC and TGA. The results showed that the ternary blend was partially miscible, and the 30/60/10 blend composition had better compatibility compared to other compositions, which was indicated by an increment of tensile strength and elongation at break, with 11.33 MPa and 270.66%, respectively than that of the control sample. Adding LLDPE to an NR/EPDMw blend increased the Tm, but further increasing LLDPE from 10 to 20 phr and it did not significantly affect the Tm, which remained unchanged. It also showed that the crystallinity and thermal stability of the blend increased as LLDPE content in the blends increased. This was because the presence of LLDPE improved the melting enthalpy and crystallinity of the blend. As the LLDPE content increased, it restricted the mobility of polymer chains and lowered thermal vibrations in C-C bonds, enhancing thermal stability. Overall, the addition of LLDPE content improved the compatibility and thermal stability of NR/EPDMw blends. Penerbit UiTM (UiTM Press) 2025-03 Article PeerReviewed text en https://ir.uitm.edu.my/id/eprint/111171/1/111171.pdf Tensile and thermal properties of natural rubber/ ethylene propylene rubber waste/linear low-density polyethylene blends / Nor Mazlina Abdul Wahab ... [et al.]. (2025) Scientific Research Journal <https://ir.uitm.edu.my/view/publication/Scientific_Research_Journal/>, 22 (1): 9. pp. 167-178. ISSN 1675-7009
institution Universiti Teknologi Mara
building Tun Abdul Razak Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Mara
content_source UiTM Institutional Repository
url_provider http://ir.uitm.edu.my/
language English
topic Analytical chemistry
Rubber industry
spellingShingle Analytical chemistry
Rubber industry
Abdul Wahab, Nor Mazlina
Hanapi, Nurin Sabrina
Mustafa, Mohd Syamaizar
Samsudin, Dalina
Ahmad, Zuliahani
Hashim, Faiezah
Sarip, Muhamad Naiman
Tensile and thermal properties of natural rubber/ ethylene propylene rubber waste/linear low-density polyethylene blends / Nor Mazlina Abdul Wahab ... [et al.]
description Natural rubber (NR) is an isoprene polymer and non-polar rubber obtained from Hevea brasiliensis tree. NR has superior mechanical properties but poor resistance to heat and ozone due to its unsaturation in backbone chain. Ethylene propylene rubber (EPDM) is non-polar rubber which is highly in demand especially in automotive industries because it has high oxidation and ozone cracking resistance since the double bond does not exist in the main backbone chain, leading to high amount of scrap or waste accumulated by time. Thus, this research embarks to use the blend of NR/EPDM in addressing green environment. However, the blend of this material leads to phase separation and poor interfacial adhesion, resulting in a heterogeneous blend that possesses poor compatibility. Hence, linear low-density polyethylene (LLDPE) is used as a compatibilizer and additive in this blend. The ternary blends NR/EPDMw/LLDPE blend were prepared in an internal mixer at approximately 160 °C. The amount of EPDMw was fixed at 60 phr, but NR and LLDPE were manipulated. The blend compositions of the ternary blend were 40/60/0, 35/60/5, 30/60/10, 25/60/15, and 20/60/20 (phr) of NR/EPDMw/LLDPE, respectively. The effects of the partial replacement of NR by LLDPE on compatibility, tensile and thermal properties were studied using tensile testing, DSC and TGA. The results showed that the ternary blend was partially miscible, and the 30/60/10 blend composition had better compatibility compared to other compositions, which was indicated by an increment of tensile strength and elongation at break, with 11.33 MPa and 270.66%, respectively than that of the control sample. Adding LLDPE to an NR/EPDMw blend increased the Tm, but further increasing LLDPE from 10 to 20 phr and it did not significantly affect the Tm, which remained unchanged. It also showed that the crystallinity and thermal stability of the blend increased as LLDPE content in the blends increased. This was because the presence of LLDPE improved the melting enthalpy and crystallinity of the blend. As the LLDPE content increased, it restricted the mobility of polymer chains and lowered thermal vibrations in C-C bonds, enhancing thermal stability. Overall, the addition of LLDPE content improved the compatibility and thermal stability of NR/EPDMw blends.
format Article
author Abdul Wahab, Nor Mazlina
Hanapi, Nurin Sabrina
Mustafa, Mohd Syamaizar
Samsudin, Dalina
Ahmad, Zuliahani
Hashim, Faiezah
Sarip, Muhamad Naiman
author_facet Abdul Wahab, Nor Mazlina
Hanapi, Nurin Sabrina
Mustafa, Mohd Syamaizar
Samsudin, Dalina
Ahmad, Zuliahani
Hashim, Faiezah
Sarip, Muhamad Naiman
author_sort Abdul Wahab, Nor Mazlina
title Tensile and thermal properties of natural rubber/ ethylene propylene rubber waste/linear low-density polyethylene blends / Nor Mazlina Abdul Wahab ... [et al.]
title_short Tensile and thermal properties of natural rubber/ ethylene propylene rubber waste/linear low-density polyethylene blends / Nor Mazlina Abdul Wahab ... [et al.]
title_full Tensile and thermal properties of natural rubber/ ethylene propylene rubber waste/linear low-density polyethylene blends / Nor Mazlina Abdul Wahab ... [et al.]
title_fullStr Tensile and thermal properties of natural rubber/ ethylene propylene rubber waste/linear low-density polyethylene blends / Nor Mazlina Abdul Wahab ... [et al.]
title_full_unstemmed Tensile and thermal properties of natural rubber/ ethylene propylene rubber waste/linear low-density polyethylene blends / Nor Mazlina Abdul Wahab ... [et al.]
title_sort tensile and thermal properties of natural rubber/ ethylene propylene rubber waste/linear low-density polyethylene blends / nor mazlina abdul wahab ... [et al.]
publisher Penerbit UiTM (UiTM Press)
publishDate 2025
url https://ir.uitm.edu.my/id/eprint/111171/1/111171.pdf
https://ir.uitm.edu.my/id/eprint/111171/
_version_ 1825814857648177152

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