Toughening method of ultrahigh-performance concrete
An ultra-high-performance concrete technology, applied in the direction of ceramic molding machines, manufacturing tools, etc., can solve the problems that ultra-high-performance concrete cannot bear, tensile and crack resistance limit its application, and large tensile stress, etc., to achieve tensile toughness Enhancement, high tensile toughness, good toughening effect
Active Publication Date: 2020-12-04
ARCHITECTURAL DESIGN RES INST OF GUANGDONG PROVINCE
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Problems solved by technology
However, the tensile strength of ultra-high-performance concrete is only 10-20MPa, and the cracking strength does not exceed 10MPa. Therefore, ultra-high-performance concrete cannot bear large tensile stress. In engineering applications, thinner ultra-high-performance concrete structures and steel The structure can achieve very excellent toughness and crack resistance, but when the thickness of the ultra-high performance concrete structure is large, the limitations of ultra-high performance concrete in terms of tensile and crack resistance will limit its application
Method used
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Embodiment 1
[0023] S1, such as figure 1 shown
[0024] 1. Preparation of modifying reagent: 0.46wt% zinc phosphate dihydrate, 0.91wt% 85% H 3 PO 4 Solution, and 98.63wt% water, add the required amount of water calculated according to the weight into the constant temperature water bath, then heat the water to 85°C and keep the constant temperature; under the constant temperature state, put the solid powder of zinc phosphate dihydrate in the water bath Bottom of the pot, while adding H 3 PO 4 Solution, configure the modifying reagent;
[0025] 2. Put the steel fiber to be modified in gauze to facilitate movement and prevent contamination by zinc phosphate powder. Put the steel fiber wrapped in gauze into the modification reagent and take it out after about 10 minutes; the steel fiber taken out is in a wet state and needs Place it in an electric blast drying oven at 150°C for about 15 minutes to ensure that the steel fibers become completely dry, thereby preparing steel fibers with zinc...
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The invention discloses a toughening method of ultrahigh-performance concrete. According to the invention, carbon nanotubes, cellulose and zinc phosphate surface-modified steel fibers are added into raw materials of the ultrahigh-performance concrete and are uniformly mixed to obtain a mixture, and the mixture is poured along the main stress direction of a component, so fiber orientation in the ultrahigh-performance concrete component tends to the main stress direction. The carbon nanotubes and the cellulose are added, so higher tensile strength and toughness are obtained compared with concrete obtained by independently adding the carbon nanotubes or the cellulose; and a better toughening effect is obtained by adopting two fiber toughening technologies, namely steel fiber orientation and steel fiber surface modification, compared with concrete obtained by independently using one fiber toughening technology. By integrating four measures, the cracking strength of the ultrahigh-performance concrete is improved by 77.4%, the tensile strength of the ultrahigh-performance concrete is improved by 129.5%, and the peak deflection of the ultrahigh-performance concrete is improved by 113.6%,so it is indicated that the scheme obviously enhances the cracking resistance and tensile toughness of the ultrahigh-performance concrete.
Description
technical field [0001] The invention belongs to the field of ultra-high-performance concrete, and in particular relates to a toughening method for ultra-high-performance concrete. Background technique [0002] Since the compressive strength of ultra-high-performance concrete (UHPC) exceeds 150MPa, ultra-high-performance concrete is expected to become a substitute for ordinary concrete and make concrete structures develop by leaps and bounds. However, the tensile strength of ultra-high-performance concrete is only 10-20MPa, and the cracking strength does not exceed 10MPa. Therefore, ultra-high-performance concrete cannot bear large tensile stress. In engineering applications, thinner ultra-high-performance concrete structures and steel The structure can achieve very excellent toughness and crack resistance, but when the thickness of the ultra-high performance concrete structure is large, the limitations of ultra-high performance concrete in terms of tensile and crack resistan...
Claims
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Patent Timeline
Login to view more IPC IPC(8): C04B14/02C04B14/48C04B24/38B28B1/52C04B20/10
CPCB28B1/52B28B1/523B28B1/525C04B14/026C04B14/48C04B20/107C04B24/383
Inventor 胡智敏霍文斌饶欣频张阳陈伟屈少钦黄龙田金学锋熊炫伟陈伟鹏
Owner ARCHITECTURAL DESIGN RES INST OF GUANGDONG PROVINCE
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