Temperature Prediction for High Early Strength Concrete Pavement Repair

In this paper, effects of nano-CaCO3 on compressive strength and Microstructure of high strength concrete in standard curing temperature(21±1°C) and low curing temperature(6.5±1°C) was studied. In order to improve the early strength of the concrete in low temperature, the early strength agent calcium nitrite was added into. Test results indicated that 0.5% dosage of nano-CaCO3 could inhibit the effect of calcium nitrite as early strength agent, but 1% and 2% dosage of nano-CaCO3 could improve the strength of the concrete by 13% and 18% in standard curing temperature and by 17% and 14% in low curing temperature at the age of 3days. According to the XRD spectrum, with the dosage up to 1% to 2%, nano-CaCO3 can change the orientation index significantly, leading to the improvement of strength of concrete both in standard curing temperature and low curing temperature.

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Autoclave-free ultra-early strength concrete preparation using an early strength agent and microstructure properties

RSC Advances ◽

10.1039/d1ra01611c ◽

2021 ◽

Vol 11 (28) ◽

pp. 17369-17376

Author(s):

Daosheng Sun ◽

Ziwen Wang ◽

Rui Ma ◽

Aiguo Wang ◽

Gaozhan Zhang

Keyword(s):

Compressive Strength ◽

Calcium Silicate ◽

Calcium Silicate Hydrate ◽

Strength Concrete ◽

Compressive Strength Of Concrete ◽

Early Strength

In this study, nano calcium silicate hydrate was used as an early strength agent to promote the compressive strength of concrete at 1 day.

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A trial construction of high durability railway viaducts with local aggregates

IABSE Congress, New York, New York 2019: The Evolving Metropolis ◽

10.2749/newyork.2019.1917 ◽

2019 ◽

Author(s):

Kotaro Kawamura ◽

Joe Takemura ◽

Shigenobu Iguchi ◽

Tsutomu Yoshida ◽

Masashi Kobayashi

Keyword(s):

Fly Ash ◽

Side Effects ◽

Portland Cement ◽

Ordinary Portland Cement ◽

The Other ◽

Strength Concrete ◽

High Durability ◽

Sound Barrier ◽

Early Strength ◽

Structural Measure

<p>We are carrying out a construction project of new railroad viaducts. These new railroad viaducts are constructing using about 110,000 m<span>3</span> volume concrete. In this construction place, it is difficult for us to get low ASR-reactive aggregates and it is expected to be supplied with snowmelt water on the viaducts in winter. Then we tested ASR-reactive these local aggregates and found an effective mixed ratio of fly-ash is 20% of cement. On the other hand, various side effects were also expected by using fly-ash. For example, initial cracking due to contraction, early strength concrete, bleeding, etc. Therefore, we repeated various tests and examined and carried out a method that could ensure the same construction method and quality as when using ordinary Portland cement, even with fly-ash. Also, we adopted a structure that is unlikely to be affected by rainwater as a structural measure. For example, the entire adoption of a ramen type viaduct that has eliminated bearings, adoption of FRP sound barrier, etc. Then we made it possible to build highly durable railway viaducts by these various measures of materials and structures.</p>

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