Properties of Natural Rubber Filled with Ultra Fine Acrylate Rubber Powder

Sae‐Oui, Pongdhorn; Sirisinha, Chakrit; Hatthapanit, Kannika

doi:10.1177/0095244310362733

Cited by 8 publications

(8 citation statements)

References 15 publications

(15 reference statements)

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“…Despite the extremely low swelling degree, modulus of the rubber vulcanisates tends to increase slightly (10-20%) whereas the elongation at break is slightly decreased (<18%) after oil immersion which could be attributed to the more tightened rubber network in the swollen specimens. Similar findings have previously been reported [19,20]. Taking as a whole, the densely crosslinked and heavily filled NBR vulcanisates possess an excellent oil resistance and, thus, the effects of resin type and content on oil resistance of the NBR vulcanisates are not obvious (the variations found herein are within the experimental error limits), even though the addition of crosslinked phenolic resin into the rubber network should theoretically increase oil resistance of the rubber vulcanisates due to the existence of additional resin network which can resist the oil swelling.…”

Section: Resultssupporting

confidence: 93%

Reinforcement of Bakelite Moulding Powder in Acrylonitrile Butadiene Rubber (NBR): In Comparison with Cashew Nut Oil Modified Phenolic Resin

Thepsuwan¹,

Intiya²,

Sa-nguanthammarong³

et al. 2020

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The influences of two phenolic resins, that is, cashew nut oil modified phenol-formaldehyde resin (CN-m-PF) and Bakelite moulding powder (BMP), on properties of carbon black filled acrylonitrile butadiene rubber (NBR) were investigated and compared. Processability, cure characteristics, mechanical properties, thermal ageing resistance, and oil resistance of the NBR filled with various contents of phenolic resins (0-60 phr) were determined. The addition of both resins leads to a prolonged cure time with a greater value of torque difference. Regardless of the resin type, the improvement of compound processability and the enhancement of modulus and hardness of the NBR vulcanisates are observed with increasing resin content. However, many mechanical properties such as tensile strength, elongation at break and abrasion resistance are deteriorated. Thermal ageing resistance of the NBR vulcanisate is slightly improved in the presence of both resins, probably due to the dilution of NBR with the high heat-resistant phenol-formaldehyde resins. Results also disclose that all NBR vulcanisates demonstrate excellent oil resistance, regardless of the resin type and content. At any given resin content, CN-m-PF gives a better processability, higher stiffness and greater mechanical properties than BMP. However, due to its lower cost, BMP can be used to enhance stiffness of NBR vulcanisates without the risk of processing problem.

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Section: Resultssupporting

confidence: 93%

Reinforcement of Bakelite Moulding Powder in Acrylonitrile Butadiene Rubber (NBR): In Comparison with Cashew Nut Oil Modified Phenolic Resin

Thepsuwan¹,

Intiya²,

Sa-nguanthammarong³

et al. 2020

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“…The main factors of mechanical energy dissipation of the tip and consequent phase change are the viscoelastic, adhesive and topographical properties of the region being examined. In addition, it allows to obtain new information about the polymers surface such as tribological data [3] , local contaminants [6] , morphology [17, , distribution of phases in blends and composites [41][42][43][44][45][46][47] , compatibility between the phases of polymer blends and interaction between nanocomposites phases [48][49][50][51][52][53][54] , polymeric chains conformation [7,38] , cross-link density [55][56][57] , dispersion of fillers in the polymeric matrix [10,12,16,48,49,[58][59][60][61][62][63][64][65][66][67][68][69] , among other applications.…”

Section: De Sousa F D B; Scuracchio C H -The Use Of Atomic Formentioning

confidence: 99%

“…AFM study gives a higher particle thickness which may be due to the tip broadening effect. In a similar work, Sae-Oui et al [58] prepared nanocomposites NR/acrylate rubber powder (ACMP) in an internal mixer, and studied the dispersion of the filler in the rubber matrix by AFM. A high level of ACMP dispersion was achieved in concentrations until 5 phr.…”

Section: De Sousa F D B; Scuracchio C H -The Use Of Atomic Formentioning

confidence: 99%

The use of atomic force microscopy as an important technique to analyze the dispersion of nanometric fillers and morphology in nanocomposites and polymer blends based on elastomers

Sousa

Scuracchio

2014

Polímeros

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AFM has been recognized as one of the most powerful tools for the analysis of surface morphologies because it creates three-dimensional images at angstrom and nano scale. This technique has been exhaustively used in the analyses of dispersion of nanometric components in nanocomposites and in polymer blends, because of the easiness of sample preparation and lower equipment maintenance costs compared to electron microscopy. In this review, contributions using AFM are described, with emphasis on the dispersion of nanofillers in polymeric matrices. It is aimed to show the importance of technical analysis for nanocomposites and polymer blends based on elastomers.

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“…It was found that the M H value of TMTD-based NR/(R-EPDM) was higher than those of CBS, TBBS, and MBT, respectively, which indicated that the TMTD-based NR/(R-EPDM) might have affected the stiffness or hardness of the blends rather than those CBS-, TBBS-, and MBT-accelerated NR/(R-EPDM) blends. High stiffness could lead to a higher restriction to molecular motion of the macromolecule or tended to impose extra resistance to flow and led to high stiffness [28,29].…”

Section: Cure Characteristicsmentioning

confidence: 99%

Optimization of accelerators on curing characteristics, tensile, and dynamic mechanical properties of (natural rubber)/(recycled ethylene‐propylene‐diene‐monomer) blends

Nabil

Ismail

Azura

2014

Vinyl Additive Technology

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The migration of sulfur from natural rubber (NR) compound to the ground waste ethylene‐propylene‐diene monomer (EPDM) rubber phase may have caused the cure incompatibility between these two rubbers. Optimization of accelerators had been adopted to overcome the cure incompatibility in NR/(R‐EPDM) blends as well as to get increased curative distribution. In this study, blends of NR and R‐EPDM were prepared. The effect of accelerator type on curing characteristics, tensile properties, and dynamic mechanical properties of 70/30/NR/(R‐EPDM) blend was investigated. Four types of commercial accelerators were selected [ie, N‐tert‐butyl‐2‐benzothiazyl‐sulphonamide, N‐cyclohexyl‐benzothiazyl‐sulfenamide (CBS), tetramethylthiuram disulfide, and 2‐mercaptobenzothiazol]. It was found that the tensile strength of the blends cured in the presence of CBS was relatively higher than the other three accelerators. Scanning electron micrographs of CBS‐cured NR/(R‐EPDM) blends exhibited more roughness and cracking path, indicating that higher energy was required toward the fractured surface. The high crosslinking density observed from the swelling method could be verified from the storage modulus (E′) and damping factor (tan δ) where (tetramethylthiuram disulfide)‐cured NR/(R‐EPDM) blends provided a predominant degree of crosslinking followed by N‐tert‐butyl‐2‐benzothiazyl‐sulphonamide, CBS, and 2‐mercaptobenzothiazol, respectively. J. VINYL ADDIT. TECHNOL., 21:79–88, 2015. © 2014 Society of Plastics Engineers

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Properties of Natural Rubber Filled with Ultra Fine Acrylate Rubber Powder

Cited by 8 publications

References 15 publications

Reinforcement of Bakelite Moulding Powder in Acrylonitrile Butadiene Rubber (NBR): In Comparison with Cashew Nut Oil Modified Phenolic Resin

Reinforcement of Bakelite Moulding Powder in Acrylonitrile Butadiene Rubber (NBR): In Comparison with Cashew Nut Oil Modified Phenolic Resin

The use of atomic force microscopy as an important technique to analyze the dispersion of nanometric fillers and morphology in nanocomposites and polymer blends based on elastomers

Optimization of accelerators on curing characteristics, tensile, and dynamic mechanical properties of (natural rubber)/(recycled ethylene‐propylene‐diene‐monomer) blends

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