A novel preparation method of polypropylene/natural rubber blends with improved toughness

Lendvai, László

doi:10.1002/pi.6133

Cited by 24 publications

(11 citation statements)

References 41 publications

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“…Unlike the unobvious change in the POE particle size and microstructure in PP/POE, many particles (2–5 μm) appeared on the fracture surface in PP/POE/ r PP when the mold temperature increased from 23 to 60°C. As revealed by the above study, the increased phase separation resulted in a lower elongation at break 33 …”

Section: Resultsmentioning

confidence: 55%

Effect of morphology development on the low‐temperature tensile properties ofPP/POEblends

Wang

Chen

Gao

et al. 2022

J of Applied Polymer Sci

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The application of polypropylene (PP) is greatly restricted by its poor lowtemperature tensile properties. In this work, a polypropylene random copolymer (rPP) and polypropylene/ethylene-propylene-diene monomer graft copolymer (gPP) were used to improve the toughening effect of polyolefin elastomer (POE) on PP. The influences of this addition on the phase morphology, crystallization, and rheological and mechanical properties were investigated. The results revealed that rPP both reduced the size of PP spherulites and improved the interfacial cohesion of the PP/POE blend, which endowed the material with greater tensile properties and melt flow rate. The elongation at break of PP/POE/rPP at 23, 0, À20, and À40 C was 400%, 221%, 205%, and 106%, respectively. These represented increases of more than 200% compared with those of PP/POE. The tensile strengths of PP/POE/rPP were 15. 0, 19.1, 21.5, and 27.4 MPa at 23, 0, À20, and À40 C, respectively, which were comparable to those of PP/POE. Finally, the effects of the injection molding process parameters on the mechanical properties and phase morphology of rPPmodified PP/POE blends were studied.

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Section: Resultsmentioning

confidence: 55%

Effect of morphology development on the low‐temperature tensile properties ofPP/POEblends

Wang

Chen

Gao

et al. 2022

J of Applied Polymer Sci

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“…The blending of elastomers and plastics has become a widely adapted, simple, and cost-effective method to generate industrially important raw materials with combined characteristics of component polymers. [20][21][22][23][24][25][26][27] The blending of NR with various thermoplastic materials forms an industrially important class of continuous or multi-phase materials known as Thermoplastic Natural Rubber (TPNR). A large number of studies is found in the literature on TPNR and its composites produced using different NR types such as ribbed smoked sheets (RSS), technically specified rubber (TSR), etc., and different thermoplastics (TPs) such as polyethylene (PE), polypropylene (PP), etc.…”

Section: Introductionmentioning

confidence: 99%

Preparation of skim natural rubber and polypropylene blends via melt blending: A study on processability

Wijewardane

Senevirathna

Siriwardena

et al. 2022

Progress in Rubber, Plastics and Recycling Technology

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Processability of thermoplastic natural rubber (TPNR) blends is a vital aspect in the preparation of blends for industrial applications and is assessed using different techniques. In this study, skim natural rubber/Polypropylene (SNR/PP) blends were prepared using melt mixing and their processability was examined in terms of mixing torque development, long-term processability, moving die rheometer (MDR) torque, thermo-gravimetric analysis (TGA), melt flow index (MFI) and morphological studies. A series of unvulcanized (UV) and dynamically vulcanized (DV) blends having 70/30, 60/40, 50/50, 40/60, and 30/70 SNR/PP compositions were prepared. Standard Lanka Rubber (SLR) and PP blends having corresponding ratios were also studied for the purpose of comparison. The study reveals that a high percentage of non-rubbers present in the SNR has positively influenced the processability of both UV and DV SNR/PP blends compared to SLR/PP blends as assessed by the mixing torque values. As suggested by the mixing torque development and long-term processability, natural rubber dominant both DV blends cannot be processed. However, they can be processed under low shear rates as shown in the MDR studies irrespective of the rubber type. Therefore, it can be inferred that these rubber dominant blends can be processed into molded products via compression molding technique. TGA studies revealed that a similar degree of protection has been offered to the blends against thermal degradation by SNR and SLR. MFI studies showed that there is no significant difference in flowability between UV SNR/PP blends and SLR/PP blends. However, for DV blends, SNR/PP blends showed a higher flowability than SLR/PP blends. In addition, increase in PP percentage in the blend enhances the flowability while dynamic vulcanization reduces the flowability irrespective of the type of rubber used in the blends. Morphological studies suggest continuous or co-continuous phase structures for UV blends and two-phase structures for DV blends where the plastic phase acts as the continuous phase.

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“…Continuous reduction of fossil fuel due to heavy consumption by industries has made it necessary to bring forward renewable sources as much as possible to meet the daily power demand. [1][2][3] Wind energy, a renewable energy source, produces nearly 2% of the total power generated by fossil fuels. [4] The worldwide power generation by wind energy was estimated at 591 GW, in which India stands at fourth position with the wind power generation of 35.1 MW.…”

Section: Introductionmentioning

confidence: 99%

Dolomite dust filled glass fiber reinforced epoxy composite: Influence of fabrication techniques on physicomechanical and erosion wear properties

Verma¹,

Gangil

Gupta

et al. 2021

Polymer Composites

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This article investigates the effect of fabrication techniques on the physical, mechanical, and erosion wear properties of glass fiber reinforced dolomite dust-filled epoxy composites. The composites were fabricated by hand layup and vacuum-assisted resin transfer molding (VRTM) techniques with fixed glass fiber (20 wt%) and varying dolomite dust (0 to 15 wt%) with epoxy resin.In physical properties, the experimental density consistently increased with the increase in the dolomite hand layup and the VRTM process; in opposite the voids content increased in the hand layup process and decreased in the VRTM process. In mechanical properties, the hardness, impact energy, and interlaminar shear strength increases while tensile and flexural strength consistently decreases with dolomite dust content. Using Taguchi's optimization technique, the erosion wear of the fabricated composites was also evaluated at different impingement angles, impact velocities, and erodent sizes. Erosion test results indicate that the VRTM process fabricated composite has minimum erosion wear compared to the hand layup process. The eroded surfaces were studied using a scanning electron microscope to understand the erosion behavior of particulate-filled fiber reinforced polymer composites.

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A novel preparation method of polypropylene/natural rubber blends with improved toughness

Cited by 24 publications

References 41 publications

Effect of morphology development on the low‐temperature tensile properties ofPP/POEblends

Effect of morphology development on the low‐temperature tensile properties ofPP/POEblends

Preparation of skim natural rubber and polypropylene blends via melt blending: A study on processability

Dolomite dust filled glass fiber reinforced epoxy composite: Influence of fabrication techniques on physicomechanical and erosion wear properties

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