Abstract:
The aim of this study was to develop reactive blends from natural rubber (NR) and low density
polyethylene (LDPE) with acceptable physico-mechanical properties. NR and LDPE blends at different
blend ratios were produced in a Brabender Plasticorder by melt mixing at a temperature of 150 oC, and
rotor speed of 60 rpm. 20 parts per hundred parts of polymer (pphp) calcium carbonate was added as
an inorganic filler. Physico-mechanical and chemical properties of the blends and composites were
determined according to international standards. Thermal properties were determined using a
differential scanning calorimeter. Morphology and structural characteristics were examined by a
scanning electron microscope and fourier transform infrared analyzer, respectively. 50/50 NR/LDPE
blends were prepared using three vulcanizing systems: sulphur, peroxide and mixture of sulphur and
peroxide. NR/LDPE blend prepared with the mixed vulcanizing system showed the highest physicomechanical,
chemical, and ageing properties with a fine morphology. A series of simple blends was
formulated by varying the LDPE loading from 10 to 90 pphp at 20 pphp intervals. The tensile strength,
tear strength, and hardness increased with the increase of LDPE loading, while elongation at break
decreased. The continuous phase of blends changed from NR to LDPE above 30 pphp LDPE loading.
The optimum tensile and ageing properties were obtained for the composite prepared with 20 pphp
calcium carbonate with or without titanate coupling agent (titanate CA) at 30 pphp LDPE loading.
Further, 70/30 NR/LDPE composite prepared with 0.7 pphp titanate CA presented the highest physicomechanical,
chemical and ageing properties. Furthermore, the performance of the 70/30 NR/LDPE
blends produced with 0.3 pphp peroxide was greater than that of the composites prepared without the
peroxide and with a high amount of peroxide. Nevertheless, tensile properties, stress and strain of the
70/30 NR/LDPE composite improved with partial replacement of LDPE with recycled LDPE (rLDPE).
The composite with 20 pphp rLDPE indicated the best improvement in all physico-mechanical
properties.
Citation:
Sampath, W.D.M. (2019). Characterization of calcium carbonate filled natural rubber - low density polyethylene blends prepared with a titanate coupling agent [Master’s theses, University of Moratuwa]. Institutional Repository University of Moratuwa. http://dl.lib.mrt.ac.lk/handle/123/16175