 |
 |
 |
 |
 |
 |
Sains Malaysiana 44(6)(2015):
835–842
ENR-50 Compatibilized Natural Rubber/Recycled
Acrylonitrile-Butadiene Rubber Blends
(Penyerasian ENR-50
dalam Adunan Getah Asli/Getah Kitar Semula Akrilonitril Butadiena)
HAZWANI SYAZA AHMAD*, HANAFI ISMAIL
&AZURA ABD RASHID
School of Materials and
Mineral Resources Engineering, Universiti Sains Malaysia
14300 Nibong Tebal, Pulau
Pinang, Malaysia
Received: 15 January
2014/Accepted: 15 November 2014
ABSTRACT
Epoxidized natural rubber (ENR-50)
has been used as a compatibilizer for natural rubber-recycled
acrylonitrile-butadiene rubber (NR/NBRr) blends, vulcanized by
sulfur. NBR gloves have excellent resistance to punctures, tear
and many types of chemicals, while NR has good physical and
mechanical properties. Incorporation of ENR-50 into the rubber blends
has improved processability, stiffness, resilience and excellent oil
resistance. NR/NBRr blends were prepared by two-roll mill with five
different compositions with the ENR-50 content fixed at 10 phr.
Cure characteristics, mechanical properties and morphology (SEM)
studies were performed to determine the compatibility of NR/NBRr blends
in the presence of ENR-50. The cure characteristics
showed that NR/NBRr blends with the presence of ENR-50
have lower scorch time (ts2) and cure time (t90)
than NR/NBRr blends without ENR-50.
However, the NR/NBRr blends with ENR-50
exhibited higher minimum torque (ML) and maximum torque (MH)
which indicated difficult processability of the blends after compatibilization.
Incorporation of ENR-50 into NR/NBRr blends
improved all the tensile properties (tensile strength, tensile modulus and
elongation at break) compared with NR/NBRr blends without ENR-50.
The improvement in hardness upon compatibilization is due to an increase in
crosslink density. Scanning electron microscopy (SEM images)
of the fracture surfaces indicates that, with the addition of ENR-50
in NR/NBRr blends, better adhesion between NR and NBRr was obtained, thus improving the compatibility of NR/NBRr blends.
Keywords: Curing characteristics; ENR-50;
mechanical properties; NBRr; NR; scanning
electron microscopy
ABSTRAK
Getah asli terepoksida (ENR-50)
telah digunakan sebagai agen pembantu pemprosesan untuk adunan getah asli/getah
kitar semula akrilonitril butadiena (NR/NBRr), divulkan dengan
sulfur. Sarung tangan NBR mempunyai rintangan yang
baik terhadap tebuk, koyak dan pelbagai jenis bahan kimia, manakala NR mempunyai
sifat fizikal dan mekanik yang baik. Penggabungan ENR-50
di dalam adunan getah telah menambah baik kebolehprosesan, kekakuan,
kebingkasan dan kerintangan minyak. Lima komposisi
yang berbeza untuk setiap adunan getah NR/NBRr dengan kandungan ENR-50
yang tetap sebanyak 10 phr telah disediakan menggunakan pengisar dua-gulungan. Sifat pematangan, mekanik dan morfologi (SEM)
telah dijalankan untuk menentukan keserasian adunan getah NR/NBRr dengan
kehadiran ENR-50. Sifat pematangan
menunjukkan bahawa adunan getah NR/NBRr dengan kehadiran ENR-50
mempunyai masa skorj (ts2) dan masa pematangan (t90)
yang pendek berbanding adunan getah NR/NBRr tanpa kehadiran ENR-50. Walau bagaimanapun, adunan getah NR/NBRr dengan
kehadiran ENR-50 mempamerkan tork minimum (ML)
dan tork maksimum (MH) yang tinggi, yang menunjukkan
bahawa kebolehprosesan adunan getah menjadi semakin sukar. Penggabungan ENR-50 ke dalam adunan getah NR/NBRr telah menambah baik semua sifat tensil (kekuatan tensil, modulus
dan pemanjangan takat putus) berbanding adunan getah NR/NBRr tanpa
kehadiran ENR-50. Peningkatan kekerasan di
dalam adunan getah disebabkan oleh peningkatan ketumpatan sambung silang. Mikrograf SEM ke atas permukaan patah
membuktikan bahawa penambahan ENR-50 ke dalam adunan getah NR/NBRr telah menambah baik pelekatan antara-muka NR dan NBRr,
seterusnya meningkatkan keserasian adunan getah NR/NBRr.
Kata
kunci: ENR-50; mikroskop elektron imbasan; NBRr; NR; sifat
mekanik; sifat pematangan
REFERENCES
El-Nemr, K.F. 2011. Effect of different curing systems on the
mechanical and physic-chemical properties of acrylonitrile butadiene rubber
vulcanizates. Materials and Design 32: 3361-3369.
Fang, Y., Zhan, M. & Wang,
Y. 2001. The status of recycling of waste rubber. Materials and Design 22: 123-127.
Goyanes, S., Lopez,
C.C., Rubiolo, G.H., Quasso, F. & Marzocca, A.J. 2008. Thermal properties
in cured natural rubber/styrene butadiene rubber blends. European Polymer
Journal 44: 1525-1534.
Ismail, H. & Ahmad,
H.S. 2013. Effect of halloysite nanotubes on curing behavior,
mechanical, and microstructural properties of acrylonitrile-butadiene rubber
nanocomposites. Journal of Elastomers and Plastics 46: 483-498.
Ismail, H. &
Hairunezam, H.M. 2001. The effect of a compatibilizer on curing
characteristics, mechanical properties and oil resistance of styrene butadiene
rubber/ epoxidized natural rubber blends. European Polymer Journal 37:
39-44.
Ismail, H. & Poh,
B.T. 2000. Cure and tear properties of ENR 25/SMR L and ENR 50/SMR L blends. European
Polymer Journal 36: 2403-2408.
Ismail, H., Galpaya, D.
& Ahmad, Z. 2009. Comparison of properties of polypropylene (PP)/virgin
acrylonitrile butadiene rubber (NBRv) and polypropylene (PP)/recycled
acrylonitrile butadiene rubber (NBRr) blends. Polymer- Plastics Technology
and Engineering 48: 440-445.
Ismail, H., Galpaya, D.
& Ahmad, Z. 2009. The compatibilizing effect of epoxy resin (EP) on
polypropylene (PP)/recycled acrylonitrile butadiene rubber (NBRr) blends. Polymer
Testing 28: 363-370.
Ismail, H., Nordin, R.
& Noor, A.M. 2003. The effects of recycle rubber powder (RRP) content and
various vulcanization systems on curing characteristics and mechanical
properties of natural rubber/RRP blends. Iranian Polymer Journal 12(5):
373-380.
Ismail,
H., Poh, B.T., Tan, K.S. & Moorthy, M. 2003. Effect of filler
loading on cure time and swelling behaviour of SMR L/ENR 25 and SMR L/SBR
blends. Polymer International 52: 685-691.
Ismail,
H., Tan, S. & Poh, B.T. 2001. Curing and mechanical
properties of nitrile and natural rubber blends. Journal of
Elastomers and Plastics 33: 251-262.
Ismail, H., Ishiaku,
U.S., Arinab, A.R. & MohdIshak, Z.A. 1998. Epoxidized natural rubber
compounds: Effect of vulcanization systems and fillers. Polymer-Plastics
Technology and Engineering 37(4): 469-481.
Jiamjitsiripong, K.
& Pattamaprom, C. 2011. Effect of epoxidized natural
rubber on gas barrier and mechanical properties of NR/BIIR composites. Journal
of Elastomers and Plastics 43: 341-355.
Noriman, N.Z. &
Ismail, H. 2011. The effects of electron beam irradiation on the thermal
properties, fatigue life and natural weathering of styrene butadiene
rubber/recycled acrylonitrile–butadiene rubber blends. Materials and
Design 32: 3336-3346.
Noriman, N.Z., Ismail,
H. & Rashid, A.A. 2010. Characterization of styrene butadiene
rubber/recycled acrylonitrile-butadiene rubber (SBR/NBRr) blends: The effects
of epoxidized natural rubber (ENR-50) as a compatibilizer. Polymer Testing 29:
200-208.
Noriman, N.Z., Ismail,
H. & Rashid, A. 2008. Curing characteristics and
mechanical and morphological properties of styrene butadiene rubber/virgin
acrylonitrile-butadiene rubber (SBR/vNBR) and styrene butadiene rubber/recycled
acrylonitrile-butadiene rubber (SBR/rNBR) blends. Polymer- Plastics Technology
and Engineering 47: 1016-1023.
Perera, M.C.S., Ishiaku,
U.S. & Ishak, Z.A.M. 2000. Thermal degradation of PVC/NBR
and PVC/ENR50 binary blends and PVC/ENR50/NBR ternary blends studied by DMA and
solid state NMR. Polymer Degradation and Stability 68: 393-402.
Rajasekar,
R., Pal, K., Heinrich, G., Das, A. & Das, C.K. 2009. Development
of nitrile butadiene rubber-nanoclay composites with epoxidized natural rubber
as compatibilizer. Materials and Design 30: 3839-3845.
Rattanasom,
N., Prasertsri, S. & Ruangritnumchai, T. 2009. Comparison of the
mechanical properties at similar hardness level of natural rubber filled with
various reinforcing-fillers. Polymer Testing 28: 8-12.
Rattanasom,
N., Poonsuk, A. & Makmoon, T. 2005. Effect of curing system on the
mechanical properties and heat aging resistance of natural rubber/tire tread
reclaimed rubber blends. Polymer Testing 24: 728-732.
Zulkepli, N.N., Ismail,
H. & Rashid, A. 2009. Effects of different particle sizes
of recycled acrylonitrile-butadiene rubber and its blend ratios on mechanical
and morphological properties and curing characteristics of SBR/NBRr blends. Iranian Polymer Journal 18(2): 139-148.
*Corresponding author; email: hazwanisyazaahmad@gmail.com
|
|||
|
