Impact of Electron Beam radiation, Devulcanization Techniques, and particulate Filler on the Properties of Polyethylene/devulcanized waste rubber Composites
Raslan, H., Radi, H., Helal, R., El nemr, K. (2025). Impact of Electron Beam radiation, Devulcanization Techniques, and particulate Filler on the Properties of Polyethylene/devulcanized waste rubber Composites. EKB Journal Management System, 38(1), 51-62. doi: 10.21608/ejrsa.2025.375578.1184
heba Ahmed Raslan; Hamdi Radi; Reham H. Helal; Khaled F. El nemr. "Impact of Electron Beam radiation, Devulcanization Techniques, and particulate Filler on the Properties of Polyethylene/devulcanized waste rubber Composites". EKB Journal Management System, 38, 1, 2025, 51-62. doi: 10.21608/ejrsa.2025.375578.1184
Raslan, H., Radi, H., Helal, R., El nemr, K. (2025). 'Impact of Electron Beam radiation, Devulcanization Techniques, and particulate Filler on the Properties of Polyethylene/devulcanized waste rubber Composites', EKB Journal Management System, 38(1), pp. 51-62. doi: 10.21608/ejrsa.2025.375578.1184
Raslan, H., Radi, H., Helal, R., El nemr, K. Impact of Electron Beam radiation, Devulcanization Techniques, and particulate Filler on the Properties of Polyethylene/devulcanized waste rubber Composites. EKB Journal Management System, 2025; 38(1): 51-62. doi: 10.21608/ejrsa.2025.375578.1184

Impact of Electron Beam radiation, Devulcanization Techniques, and particulate Filler on the Properties of Polyethylene/devulcanized waste rubber Composites

Egyptian Journal of Radiation Sciences and Applications
Volume 38, Issue 1, December 2025, Page 51-62  XML PDF (3.12 MB)
Document Type: Original Article
DOI: 10.21608/ejrsa.2025.375578.1184
View on SCiNiTO View on SCiNiTO
Authors
heba Ahmed Raslan1; Hamdi Radi email 2; Reham H. Helal2; Khaled F. El nemr2
1Polymer Chemistry department Egyptian Atomic Energy Authority
2Radiation Chemistry Department Egyptian Atomic Energy Authority
Abstract
Mechano-chemical and microwave (MW) methods were used to devulcanize waste rubber (WR) at room temperature. Tetramethyl thiuram disulfide (TMTD) and mercaptobenzothiazole disulfide (MBTS) were used in the mechano-chemical process. The composites undergo comparative mechanical investigation after being exposed to EB irradiation at various radiation doses up to 200 kGy. The characteristics of the composites including polyethylene (PE)/devulcanized rubber (DWR)/silica were examined in relation to the concentration of silica and the dosage of electron beam (EB) irradiation. Various silica concentrations - 10, 20, and 30 phr (part per hundred parts of blend) - were employed. An excellent PE/DWR interaction was confirmed by the morphological micrographs, particularly when TMTD was used as a devulcanizing agent. The effective interaction of the PE with DWR was confirmed by the tensile strength (TS) tests of the manufactured composites, which were conducted in the following order: TMTD, MW, and MBTS. Silica and PE are not reactive, as confirmed by the DSC thermograms of PE/DWR, which show that adding silica between 10 and 30 phr had no influence on the melting point of PE. The crystallinity data for all composites loaded by DWR (devulcanized using different techniques) clearly show that as the content of silica increased, the percentage of crystallinity decreased.
Keywords
Electron beam radiation; microwave devulcanization; Mechano-chemical devulcanization; polyethylene; waste rubber
Statistics
Article View: 22
PDF Download: 10