Commercial synthetic polymers are a professional approach
to creating
versatile new materials with high-performance classes. This research
focuses on controlling gas migration within cement in the early stages
of cement setting through a newly synthesized butadiene–carbon
nanotube (CNT) polymer nanocomposite latex. The optimized cement in
these experiments exhibits the inherited combination behavior from
the flexible characteristics of the polymer matrix and the mechanical
features from the carbon nanotubes. The feedback of the superelastic
behavior of carbon nanotubes is indicated by a 75% increase in the
modulus of elasticity and a 48% increase in the flexural strength
in cementitious samples reinforced with the polymer nanocomposite
latex. The improvement of surface tension by the polymer latex in
the slurry and enough tensile strength during cement hydration have
positive control and compensatory effects in early shrinkage and resistance
to the development of fissures and cracks in the hardening cement.
Optimized cement slurries containing polymer nanocomposite additives
dramatically reduce the critical transfer time window to about 40
min for gelatinized cement, thereby reducing the risk of gas migration
during the mentioned critical period for the cement slurry.
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