Rubber–rubber blends: A critical review

The blending of different rubbers is one of the effective methods to achieve required performance properties in their final products. This article reviews the thermodynamic considerations of rubber–rubber blends and their filled systems. Factors affecting the rubber blend morphology (i.e. distribution mechanism of fillers, curatives and other compounding ingredients) and preparation techniques for rubber–rubber blends emphasizing their advantages and disadvantages are well discussed in this review. Microscopy is the field of interest to all material scientists. In the case of rubber blends, microscopy is an essential tool in order to understand the morphology, that is, size, shape and distribution of phases and filler particles in the rubber–rubber blend. In this review, selected scientific reports based on optical microscopy, electron microscopy and atomic force microscopy in rubber–rubber blends are discussed. Rubber material is a complex macromolecule; it has significant proportion of fillers, processing aids and curing agents; therefore, only a very few studies have been reported on the microscopic aspects of filled rubber–rubber blends. In particular, influence of rubber blend composition, fillers (micro and nano length scales) and processing additives on the morphology of rubber blends systems has not been systematically reviewed and discussed in the scientific literature. Therefore, in the present scenario, this review was thought of, which deals with the essential background to rubber–rubber blends, miscibility and morphological characterization of various rubber blend systems by microscopy. It is very important to add that although there is scattered information on these aspects in the scientific literature, to date a comprehensive review has not been published. The pros, cons, artefacts and the new challenges on the use of microscopy for the characterization of rubber–rubber blends are also discussed here.

[1]  M. Lipińska,et al.  Morphology, rheology and curing of (ethylene-propylene elastomer/hydrogenate acrylonitrile-butadiene rubber) blends reinforced by POSS and organoclay , 2019, Polymer Testing.

[2]  B. Voigtländer Artifacts in AFM , 2019, Atomic Force Microscopy.

[3]  Dujing Wang,et al.  Morphology evolution and dynamic relaxation behavior of solution-polymerized styrene-butadiene rubber/polyisoprene/silica ternary composites influenced by shear , 2018, Polymer.

[4]  W. Dierkes,et al.  Identifying the effect of aromatic oil on the individual component dynamics of S-SBR/BR blends by broadband dielectric spectroscopy , 2018 .

[5]  A. Ward,et al.  Investigation of physical properties and morphology of compatibilized EPDM/EVA blends , 2018 .

[6]  M. Karami,et al.  Rheological behavior and morphology of acrylonitrile-butadiene rubber/poly(ethylene-co-vinyl acetate) blends filled by various organoclay contents , 2017 .

[7]  Saeed Abbasizadeh,et al.  Influence of blend composition and organic cloisite 15A content in the structure of isobutylene–isoprene rubber/ethylene propylene diene monomer composites for investigation of morphology and mechanical properties , 2017 .

[8]  Chenguang Liu,et al.  Morphology evolution in solution polymerized styrene-butadiene rubber (SSBR) / trans-1,4-polyisoprene (TPI) blends: SSBR particle formation, TPI crystal nucleation, growth and polymorphic form , 2017 .

[9]  D. Khastgir,et al.  Evaluation of carbon black distribution in different phases of compatible blend of EVA/NBR through electrical, mechanical and morphological test , 2017 .

[10]  M. VisakhP. Rubber Based Bionanocomposites: Preparation , 2017 .

[11]  Jilong Wang,et al.  Chitin in Rubber Based Blends and Micro Composites , 2017 .

[12]  G. Heinrich,et al.  Effect of different ionic liquids on the dispersion and phase selective wetting of carbon nanotubes in rubber blends , 2016 .

[13]  V. Ginzburg Nanoparticle/Polymer Blends: Theory and Modeling , 2016 .

[14]  A. Bhowmick,et al.  Preferentially fixing nanoclays in the phases of incompatible carboxylated nitrile rubber (XNBR)-natural rubber (NR) blend using thermodynamic approach and its effect on physico mechanical properties , 2016 .

[15]  P. Sae-oui,et al.  EFFECTS OF BLEND RATIO AND SBR TYPE ON PROPERTIES OF SILICA-FILLED SBR/NR TIRE TREAD COMPOUNDS , 2016 .

[16]  M. Mutz Thermodynamics, phase segregation, polymer morphology, and interface/interphases in polymer nanocomposites , 2016 .

[17]  A. Menon,et al.  Kaolin modified with sodium salt of rubber seed oil as a reinforcing filler for blends of natural rubber, polybutadiene rubber and acrylonitrile-butadiene rubber , 2015 .

[18]  Azam Jalali‐arani,et al.  A comparison between the effects of gamma radiation and sulfur cure system on the microstructure and crosslink network of (styrene butadiene rubber/ethylene propylene diene monomer) blends in presence of nanoclay , 2015 .

[19]  A. Monfared,et al.  Morphology and rheology of (styrene-butadiene rubber/acrylonitrile-butadiene rubber) blends filled with organoclay: The effect of nanoparticle localization , 2015 .

[20]  M. Ghoreishy,et al.  Effects of nanoclay and short nylon fiber on morphology and mechanical properties of nanocomposites based on NR/SBR , 2014, Fibers and Polymers.

[21]  Sabu Thomas,et al.  Stress relaxation behavior of organically modified montmorillonite filled natural rubber/nitrile rubber nanocomposites , 2014 .

[22]  Manisara Phiriyawirut,et al.  Influence of Poly(vinyl chloride) on Natural Rubber/Chlorosulfonated Polyethylene Blends , 2013 .

[23]  Manisara Phiriyawirut,et al.  Natural Rubber/Fluoro Elastomer Blends: Effect of Third Component on Cure Characteristics, Morphology, Mechanical Properties, and Automotive Fuel Swelling , 2013 .

[24]  F. Lagarde,et al.  Raman spectroscopy and thermal analysis of gum and silica-filled NR/SBR blends prepared from latex system , 2013 .

[25]  M. Zarei,et al.  Ternary elastomer nanocomposites based on NR/BR/SBR: Effect of nanoclay composition , 2013 .

[26]  M. VisakhP. Advances in Elastomers I: Blends and Interpenetrating Networks , 2013 .

[27]  Frederick R. Eirich,et al.  Science and Technology of Rubber , 2012 .

[28]  León D. Pérez,et al.  Thermal characterization of SBR/NBR blends reinforced with a mesoporous silica , 2012 .

[29]  Xiaobo Liu,et al.  Influence of ultrafine full-vulcanized powdered rubber on NR/SBR blends , 2012, Polymer Bulletin.

[30]  A. Limper Mixing of Rubber Compounds , 2012 .

[31]  H. Nazockdast,et al.  NR/SBR/organoclay nanocomposites: Effects of molecular interactions upon the clay microstructure and mechano‐dynamic properties , 2012 .

[32]  Liqun Zhang,et al.  Good dispersion of hydrophilic nanoscale silica in rubber matrix and the effects on rubber nanocomposites , 2012 .

[33]  Dajun Chen,et al.  Silica‐modified SBR/BR blends , 2011 .

[34]  K. Kanny,et al.  Effect of nanoclay reinforcement on structure, thermal and mechanical properties of natural rubber–styrene butadine rubber (NR–SBR) , 2011 .

[35]  Wang Li,et al.  Preparation, characterization, and application of NR/SBR/Organoclay nanocomposites in the tire industry , 2011 .

[36]  A. Isayev Encyclopedia of Polymer Blends, Volume 2: Processing , 2011 .

[37]  H. Schönherr,et al.  Scanning Force Microscopy of Polymers , 2010 .

[38]  Luc Beaunier,et al.  Sample Preparation Handbook for Transmission Electron Microscopy , 2010 .

[39]  Sabu Thomas,et al.  Rubber Nanocomposites: Preparation, Properties, and Applications , 2010 .

[40]  N. Z. Noriman,et al.  Characterization of styrene butadiene rubber/recycled acrylonitrile-butadiene rubber (SBR/NBRr) blends: The effects of epoxidized natural rubber (ENR-50) as a compatibilizer , 2010 .

[41]  C. Das,et al.  Influence of carbon blacks on butadiene rubber/high styrene rubber/natural rubber with nanosilica: Morphology and wear , 2010 .

[42]  A. Isayev Encyclopedia of Polymer Blends: Volume 1: Fundamentals , 2010 .

[43]  H. Schönherr,et al.  Atomic Force Microscopy in Practice , 2010 .

[44]  Peiyao Li,et al.  Preparation and properties of styrene butadiene rubber/natural rubber/organo-bentonite nanocomposites prepared from latex dispersions , 2009 .

[45]  Hongmei Zhang EPDM-rubber in blends with NR/BR-elastomers for ozone-resistant tyre sidewall applications , 2009 .

[46]  E. Wimolmala,et al.  Reinforcement of compatibilized NR/NBR blends by fly ash particles and precipitated silica , 2009 .

[47]  C. Harrats Multiphase Polymer- Based Materials: An Atlas of Phase Morphology at the Nano and Micro Scale , 2009 .

[48]  P. Cassagnau,et al.  Uneven distribution of nanoparticles in immiscible fluids: Morphology development in polymer blends , 2009 .

[49]  Marina Saphiannikova,et al.  Modified and unmodified multiwalled carbon nanotubes in high performance solution-styrene-butadiene and butadiene rubber blends , 2008 .

[50]  Effect of the Filler Characteristics on the Miscibility of Styrene-Butadiene Rubber and Nitrile-Butadiene Rubber Blends , 2008 .

[51]  H. Ismail,et al.  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 , 2008 .

[52]  G. Michler Electron Microscopy of Polymers , 2008 .

[53]  G. Rempel,et al.  A comparative study of the cure characteristics, processability, mechanical properties, ageing, and morphology of rice husk ash, silica and carbon black filled 75 : 25 NR/EPDM blends , 2008 .

[54]  J. Pomposo,et al.  Key role of entropy in nanoparticle dispersion: polystyrene-nanoparticle/ linear-polystyrene nanocomposites as a model system. , 2008, Physical chemistry chemical physics : PCCP.

[55]  Emmanuel P. Giannelis,et al.  Compatibilizing Poly(vinylidene fluoride)/Nylon-6 Blends with Nanoclay , 2007 .

[56]  Miguel A. López-Manchado,et al.  Morphology/behaviour relationship of nanocomposites based on natural rubber/epoxidized natural rubber blends , 2007 .

[57]  J. Noordermeer,et al.  Blending of NR/BR/EPDM by reactive processing for tire sidewall applications. III. Assessment of the blend ozone‐ and fatigue‐resistance in comparison with a conventional NR/BR compound , 2007 .

[58]  G. Rempel,et al.  Properties of NR/EPDM Blends with or without Methyl Methacrylate-Butadiene-Styrene (MBS) as a Compatibilizer , 2007 .

[59]  Jan W. Gooch,et al.  Encyclopedic dictionary of polymers , 2007 .

[60]  M. Bousmina,et al.  Crystallization Behavior of Poly[(butylene succinate)‐co‐adipate] Nanocomposite , 2006 .

[61]  Victoria M. Bryg,et al.  Staining Polymers for Microscopical Examination , 2006 .

[62]  H. Chiu,et al.  A Study of Rheological Behavior and Compatibility of NR/BR Blends , 2006 .

[63]  S. Botros,et al.  Homogeneous Styrene Butadiene/Acrylonitrile Butadiene Rubber Blends , 2006 .

[64]  Young‐Wook Chang,et al.  Structure and properties of the organoclay filled NR/BR nanocomposites , 2006 .

[65]  C. V. Chaudhari,et al.  Radiation‐processed styrene–butadiene‐co‐ethylene– propylene diene rubber blends: Compatibility and swelling studies , 2006 .

[66]  Sabu Thomas,et al.  Gas transport through nano and micro composites of natural rubber (NR) and their blends with carboxylated styrene butadiene rubber (XSBR) latex membranes , 2006 .

[67]  V. Tanrattanakul,et al.  Mechanical properties and blend compatibility of natural rubber –chlorosulfonated polyethylene blends , 2006 .

[68]  Sabu Thomas,et al.  Micro- and Nanostructured Polymer Blends: State of the Art, Challenges, and Future Prospects , 2005 .

[69]  G. N. Mathur,et al.  Determination of the compatibility of NBR‐EPDM blends by an ultrasonic technique, modulated DSC, dynamic mechanical analysis, and atomic force microscopy , 2005 .

[70]  Sabu Thomas,et al.  Morphology, mechanical and viscoelastic properties of nitrile rubber/epoxidized natural rubber blends , 2005 .

[71]  R. Joseph,et al.  Latex Stage Blending of Natural Rubber and Poly(Vinyl Chloride) for Improved Mechanical Properties , 2005 .

[72]  I. Hussein,et al.  Study of the miscibility and mechanical properties of NBR/HNBR blends , 2004 .

[73]  L. Visconte,et al.  Different preparative modes for the incorporation of additives in NR/SBR blends , 2004 .

[74]  M. A. Mull,et al.  Mechano-Chemical Reclamationof Waste Rubber Powder andIts Effect on the performanceof NR and SBR Vulcanizates , 2004 .

[75]  G. Marković,et al.  Thermostability and surface morphology of nano- and micro-filled NBR/CSM rubber blends , 2004 .

[76]  G. Markovi Thermostability and surface morphology of nano-and micro-filled NBR / CSM and CR / CSM rubber blends , 2004 .

[77]  A. Dufresne,et al.  Crab shell chitin whisker reinforced natural rubber nanocomposites. 1. Processing and swelling behavior. , 2003, Biomacromolecules.

[78]  A. Dufresne,et al.  Crab shell chitin whisker reinforced natural rubber nanocomposites. 2. Mechanical behavior. , 2003, Biomacromolecules.

[79]  S. El-Sabbagh Compatibility study of natural rubber and ethylene–propylene diene rubber blends , 2003 .

[80]  Filler-Reinforced Elastomers Scanning Force Microscopy , 2003 .

[81]  B. Cappella Filler-reinforced elastomers : scanning force microscopy , 2003 .

[82]  S. Botros Preparation and characteristics of NR/EPDM rubber blends , 2002 .

[83]  B. G. Soares,et al.  Mercapto‐modified copolymers in elastomer blends. IV. The compatibilization of natural rubber/EPDM blends , 2002 .

[84]  M. A. Sidkey,et al.  Compatibility studies on some rubber blend systems by ultrasonic techniques , 2002 .

[85]  S. Satija,et al.  Effect of Carbon Black and Silica Fillers in Elastomer Blends , 2001 .

[86]  C. Sirisinha,et al.  Changes in morphology and properties of NR–NBR blends. Effect of viscosity ratio modified by liquid natural rubber and epoxidised liquid natural rubber , 2001 .

[87]  S. El-Sabbagh,et al.  Compatibility studies on some polymer blend systems by electrical and mechanical techniques , 2001 .

[88]  Influence of the blend composition in the internal friction of NR/SBR compounds , 2001 .

[89]  Sabu Thomas,et al.  Styrene–butadiene rubber/natural rubber blends: Morphology, transport behavior, and dynamic mechanical and mechanical properties , 2000 .

[90]  H. L. Stephens,et al.  Handbook of Elastomers , 2000 .

[91]  Sabu Thomas,et al.  Morphology and mechanical and viscoelastic properties of natural rubber and styrene butadiene rubber latex blends , 2000 .

[92]  Y. Shin,et al.  Effects of trans-Polyoctylene Rubber (TOR) on the Properties of NR/EPDM Blends , 1999 .

[93]  C. Macosko,et al.  Encapsulation in Ternary Elastomer Blends , 1999 .

[94]  A.A.F. van de Ven Morphology of polymer blends , 1999 .

[95]  F. Lin,et al.  A rubber composition for high performance tire tread , 1998 .

[96]  K. P. Jones,et al.  Blends of Natural Rubber , 1998 .

[97]  K. P. Jones,et al.  Blends of natural rubber : novel techniques for blending with speciality polymers , 1998 .

[98]  S. De,et al.  Rubber Technologist's Handbook , 1996 .

[99]  C. Ha,et al.  Rheology and properties of EPDM/BR blends with or without a homogenizing agent or a coupling agent , 1996 .

[100]  Sabu Thomas,et al.  Morphology, mechanical and viscoelastic behaviour of blends of nitrile rubber and ethylene-vinyl acetate copolymer , 1995 .

[101]  D. K. Basu,et al.  Polymer blend: A novel method for the preparation of a natural rubber–carboxylated nitrile rubber blend , 1994 .

[102]  R. Joseph,et al.  Improved mechanical properties of NR/EPDM and NR/ butyl blends by precuring EPDM and butyl , 1993 .

[103]  Sabu Thomas,et al.  Studies on the effect of blend ratio and crosslinking system on thermal, X-ray and dynamic mechanical properties of blends of natural rubber and ethylene-vinyl acetate copolymer , 1993 .

[104]  Sabu Thomas,et al.  Studies on the effect of blend ratio and cure system on the degradation of natural rubber—ethylene-vinyl acetate rubber blends , 1992 .

[105]  Lon J. Mathias,et al.  Solid state NMR of polymers , 1991 .

[106]  R. Joseph,et al.  Scanning Electron Microscopy Examination of the Fracture Surface of NR/SBR and NR/BR Blends , 1988 .

[107]  K. Miyasaka,et al.  Covulcanization of Polymer Blends , 1985 .

[108]  C. Roland,et al.  Macromolecular diffusion and the autoadhesion of polybutadiene , 1985 .

[109]  W. M. Hess,et al.  Carbon Black in NR/BR Blends for Truck Tires , 1985 .

[110]  H. Hassander Electron microscopy methods for studying polymer blends—comparison of scanning electron microscopy and transmission electron microscopy , 1985 .

[111]  G. Hamed Morphology-Property Relationships in EPDM-Polybutadiene Blends , 1982 .

[112]  K. Frisch Topologically interpenetrating polymer networks , 1975 .

[113]  R. W. Smith,et al.  New Methods for Electron Microscopy of Polymer Blends , 1974 .

[114]  H. Frisch,et al.  Topologically interpenetrating elastomeric networks , 1969 .

[115]  K. Fujimoto,et al.  Blends of cis-1,4-Polybutadiene with Natural or Styrene Butadiene Rubber , 1968 .

[116]  Ronald W. Smith Vacuole Formation and the Mullins Effect in SBR Blends with Polybutadiene , 1967 .

[117]  A. Voet,et al.  Electron Microscopy of Heterogeneous Elastomer Blends , 1967 .

[118]  P. Corish Fundamental Studies of Rubber Blends , 1967 .

[119]  W. J. S. NAUNTON,et al.  Science and Technology of Rubber , 1959, Nature.

[120]  N. Lopattananon,et al.  Compatibilization of natural rubber ( NR ) and chlorosulfonated polyethylene ( CSM ) blends with zinc salts of sulfonated natural rubber , 2022 .