A novel internal curing method for 3D printed geopolymer structures with steel cables: Electro-heating

The behavior of internally cured high performance concrete, HPC, exposed to freezing and thawing cycles, was investigated. Two saturated curing agents, Limestone dust and powder of Porcelanite rock, were used to facilitate internal curing for concrete. These agents were used as partial replacements of fine aggregate in two volumetric percentages, 20 and 30 percent. The cast concrete specimens were separated in two groups according to curing method: water-cured and sealed (only internally-cured) specimens. The concrete specimens were subjected to three exposure systems, F0: without freezing and thawing, and F1 and F2: with 50 and 100 cycles of freezing and thawing, respectively. The freezing and thawing test was done as stipulated by the ASTM C666. The conducted tests for each exposure were: compressive and flexural strengths. The results revealed that internal curing does not enhance the concrete resistance to freezing and thawing cycles. Using saturated agents has increased the moisture content of concrete and makes it more vulnerable to frost action deterioration. Sealed specimens for all investigated mixes showed lower reductions in strength than water-cured ones. The lesser water content of these mixes may be the reason for that behavior.

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Execution of Internal Curing Method on Concrete using Pre-Soaked Light Weight Aggregate

International Journal of Innovative Technology and Exploring Engineering - Special Issue ◽

10.35940/ijitee.i7907.078919 ◽

2019 ◽

Vol 8 (9) ◽

pp. 1345-1349

Keyword(s):

Silica Fume ◽

High Performance ◽

High Performance Concrete ◽

Internal Curing ◽

Light Weight ◽

Concrete Technology ◽

Curing Conditions ◽

Super Plasticizer ◽

Curing Method ◽

Flexural Tests

Low water-cement proportion solid mixes have been progressively advanced for use in Civil Engineering foundation because of potential changes in quality and sturdiness. Notwithstanding their expanded quality and diminished porous nature, the structures are defenseless to early-age splitting. Techniques have been created to lessen the breaking in structures. One such strategy is interior curing. The utilization of internal curing operators can give an adequate volume of water by methods for light weight aggregates (LWA). Notwithstanding the volume of water gave by the LWA, the dispersion of the LWA assumes a fundamental part in the viability of interior curing. Recently, high-performance concrete (HPC) has been increasingly used in practice, with the development of concrete technology and the introduction of super plasticizer and silica fume. High performance concrete is a concrete, which has far super quality and sturdiness attributes when contrasted with regular cement. The present examination researches the quality related properties of HPC specimens like flexural quality utilizing silica fume, super plasticizer in the inward curing technique. The mix proportion of 1:1.76:2.52:0.36 is utilized to cast pillars (100mm X 150mm X 1700mm). The HPC specimens are thrown with supplanting of concrete with 12% of silica smoke and expansion of 6%,12%,20% LWA vermiculite. From the pressure test result, ideal rate substitution of LWA is discovered and utilized for throwing bar. The aftereffects of flexural tests directed on shaft specimens demonstrates that 6% substitution of vermiculite gives the higher quality in both water and inward curing conditions.

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