Adhesion of unvulcanized elastomers

“…For pure SBR and BR rubbers, solubility parameters of 8.30 and 8.41 (cal/cc) 1/2 have been reported, respectively. 3,7 The small difference in the solubility parameters of the rubbers suggested that they were, at least, partially miscible, and therefore, adhesion by interdiffusion could have occurred. The presence of a large amount of reinforcing filler did not change the solubility parameters of the rubbers.…”

“…Weak interfacial adhesion between the two rubbers or the absence of an interphase in the blend could have caused the poor mechanical properties. 3,7 We concluded that increases in the aforementioned properties were due to the development of a strong interphase in the blends. The rubber properties, for example, tensile strength and stored energy density at break, increased as a function of crosslink density.…”

“…The rotor speed was 45 rpm. The volume of the mixing chamber was 78 cm 3 , and it was 60% full during mixing. Haake Software version 1.9.1 was used to control the mixing conditions and to store data.…”

“…1,2 Dissimilar rubbers are immiscible or partially miscible and, when brought into contact in air, may not form strong interfacial adhesion between them. 3 To increase the durability, performance, and service life of rubber blended components, it is essential to optimize the interfacial adhesion strength between dissimilar rubbers such the ones mentioned previously. Moreover, this will help to minimize the risk of unexpected sudden joint failure in service, enhance materials selection, and joint design and improve environment and safety in service.…”

Effects of different interphases on the mechanical properties of cured silanized silica‐filled styrene–butadiene/polybutadiene rubber blends for use in passenger car tire treads

“…For pure SBR and BR rubbers, solubility parameters of 8.30 and 8.41 (cal/cc) 1/2 have been reported, respectively. 3,7 The small difference in the solubility parameters of the rubbers suggested that they were, at least, partially miscible, and therefore, adhesion by interdiffusion could have occurred. The presence of a large amount of reinforcing filler did not change the solubility parameters of the rubbers.…”

“…Weak interfacial adhesion between the two rubbers or the absence of an interphase in the blend could have caused the poor mechanical properties. 3,7 We concluded that increases in the aforementioned properties were due to the development of a strong interphase in the blends. The rubber properties, for example, tensile strength and stored energy density at break, increased as a function of crosslink density.…”

“…The rotor speed was 45 rpm. The volume of the mixing chamber was 78 cm 3 , and it was 60% full during mixing. Haake Software version 1.9.1 was used to control the mixing conditions and to store data.…”

“…1,2 Dissimilar rubbers are immiscible or partially miscible and, when brought into contact in air, may not form strong interfacial adhesion between them. 3 To increase the durability, performance, and service life of rubber blended components, it is essential to optimize the interfacial adhesion strength between dissimilar rubbers such the ones mentioned previously. Moreover, this will help to minimize the risk of unexpected sudden joint failure in service, enhance materials selection, and joint design and improve environment and safety in service.…”

Effects of different interphases on the mechanical properties of cured silanized silica‐filled styrene–butadiene/polybutadiene rubber blends for use in passenger car tire treads

“…At room temperature, non-polar elastomers like SBR or natural rubber typically require contact times, t c B O(100 s), to self-adhere to the level of the bulk cohesive strength. 10,11 However, polar elastomers like NBR require drastically larger contact times, t c B O(100 h), despite having a similar glass transition temperature, T g , suggesting that these materials may have a more significant kinetic barrier for polymer interdiffusion and self-adhesion. 11 We recently shed some light on the dynamics of uncrosslinked and industrial-grade NBR, demonstrating that it can be mechanically rejuvenated and physically aged due to an inhomogeneous distribution of acrylonitrile and butadiene monomers along the polymer chains.…”

Self-adhesion of uncrosslinked poly(butadiene-co-acrylonitrile), i.e. nitrile rubber, an inhomogeneous and associative polymer

Adhesion Between Unvulcanized Elastomers: A Critical Review