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A platform for research: civil engineering, architecture and urbanism
Influence of nanoadditives on mechanical and isolating properties of cement-based compositions
The results of the laboratory and field tests performed to study aminoetaksiaerosil-based cement compositions with nanoadditives are presented. It has been shown that mechanical and isolating properties of the slurry are improved when nanoadditives are introduced. After 48-hours hardening bending strength of cement stone increases by 15%, and waterproof effect – by 60%. The remedial cementing success of cement slurry without nanoadditives is 45–50% and of the cement slurry with nanoadditives is 75%. The aminoetaksiaerosil addition rises dispersion degree for newgrowths formed during cement rehydration process that results in a higher mechanical strength of the mudding degree, which causes penetration capacity and watered stratum filling factor increase.
Influence of nanoadditives on mechanical and isolating properties of cement-based compositions
The results of the laboratory and field tests performed to study aminoetaksiaerosil-based cement compositions with nanoadditives are presented. It has been shown that mechanical and isolating properties of the slurry are improved when nanoadditives are introduced. After 48-hours hardening bending strength of cement stone increases by 15%, and waterproof effect – by 60%. The remedial cementing success of cement slurry without nanoadditives is 45–50% and of the cement slurry with nanoadditives is 75%. The aminoetaksiaerosil addition rises dispersion degree for newgrowths formed during cement rehydration process that results in a higher mechanical strength of the mudding degree, which causes penetration capacity and watered stratum filling factor increase.
Influence of nanoadditives on mechanical and isolating properties of cement-based compositions
MUKHAMETSHIN Vyacheslav Vyacheslavovich (author) / KADYROV Ramzis Rakhimovich (author)
2017
Article (Journal)
Electronic Resource
Unknown
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