Abstract
Abstract To study the influence of different mixing times on the performance of concrete under vibration mixing and conventional mixing, C40 and C60 are selected in this paper to verify the influence of mixing time of 60, 75, 90, 105, and 120 s on the compressive strength and durability of concrete comparing vibration mixing and common forced mixing. The results show that the early strength of concrete is more significantly improved in 3 and 7 day; the strength with vibration mixing for mixing 105 s in each age is higher than that of conventional mixing at 120 s; under the condition of guaranteed strength, the mixing time of at least 15 s can be reduced. The strength of C40 concrete with vibration mixing has a peak value with the corresponding mixing time of 105 s, and the rapid growth stage of compressive strength is 15 s earlier than that of conventional mixing. For all mixing time, the electric flux of vibrated concrete is significantly smaller than that of forced concrete, and the change rate is generally above 10%; compared with conventional mixing for 120 s, the durability of C40 and C60 concrete increases by 11.8 and 11.1%, respectively, at the time of vibration mixing for 105 s. It was found that under the same mixing time, the compressive strength of concrete with vibration mixing method is higher than that of conventional mixing. In a certain range, the durability of concrete can be improved by prolonging the mixing time.
Highlights
To study the influence of different mixing times on the performance of concrete under vibration mixing and conventional mixing, C40 and C60 are selected in this paper to verify the influence of mixing time of 60, 75, 90, 105, and 120 s on the compressive strength and durability of concrete comparing vibration mixing and common forced mixing
The results showed that vibrating mixer could effectively shorten the mixing time by 20% when compared with conventional mixing, and the concrete strength can be increased by more than 20% under better mixing time
The results show that vibration mixing can reduce the plastic viscosity of concrete, and the compressive strength of concrete at all ages is still significantly improved after 40 s of reduction of mixing time
Summary
Abstract: To study the influence of different mixing times on the performance of concrete under vibration mixing and conventional mixing, C40 and C60 are selected in this paper to verify the influence of mixing time of 60, 75, 90, 105, and 120 s on the compressive strength and durability of concrete comparing vibration mixing and common forced mixing. The results showed that vibrating mixer could effectively shorten the mixing time by 20% when compared with conventional mixing, and the concrete strength can be increased by more than 20% under better mixing time. The results show that vibration mixing can reduce the plastic viscosity of concrete, and the compressive strength of concrete at all ages is still significantly improved after 40 s of reduction of mixing time. Vibration mixing and conventional mixing are used to study the influence mechanism of different mixing times on the compressive strength at 3, 7, 28, and 56 day and electric flux at 56 day of C40 and C60 concrete, so as to explore the optimum mixing time and mixing method without damaging the performance of concrete, laying a foundation for promoting the wide application of vibration mixing technology in railway projects
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