Effect of the Vulcanizing System on the Mechanical Properties of Butyl Rubber/Ethylene Propylene Diene Monomer–Carbon Black Blends
M.I.Mohammed; Abd-El Salam, F.; Abd-El Salam , Mokhtar; Mostafa, M.T.; Nagy, M.R.;
Abstract
The effect of the vulcanizing system on the
mechanical properties of butyl rubber/ethylene propylene
diene monomer–general purpose furnace black–(GPF)
blends was studied with static and dynamic mechanical
measurements for these blends. The classical theory of elasticity
was applied to show the mechanical behavior of the
rubber–polymer blend and to calculate the degree of
crosslinking. From the dynamic mechanical measurements,
the elastic modulus, internal friction, and thermal diffusivity
were calculated. The observed variations were explained in
view of the role played by both the vulcanizing system and
the reinforcing carbon black.
mechanical properties of butyl rubber/ethylene propylene
diene monomer–general purpose furnace black–(GPF)
blends was studied with static and dynamic mechanical
measurements for these blends. The classical theory of elasticity
was applied to show the mechanical behavior of the
rubber–polymer blend and to calculate the degree of
crosslinking. From the dynamic mechanical measurements,
the elastic modulus, internal friction, and thermal diffusivity
were calculated. The observed variations were explained in
view of the role played by both the vulcanizing system and
the reinforcing carbon black.
Other data
Title | Effect of the Vulcanizing System on the Mechanical Properties of Butyl Rubber/Ethylene Propylene Diene Monomer–Carbon Black Blends | Authors | M.I.Mohammed ; Abd-El Salam, F.; Abd-El Salam , Mokhtar ; Mostafa, M.T.; Nagy, M.R. | Keywords | IIR/EPDM blends;mechanical;vulcanizing system | Issue Date | 2003 | Publisher | Wiley Periodicals | Journal | Journal of Applied Polymer Science | Volume | 90 | Start page | 1539 | End page | 1544 | DOI | 10.1002/app.12739 |
Recommend this item
Similar Items from Core Recommender Database
Items in Ain Shams Scholar are protected by copyright, with all rights reserved, unless otherwise indicated.