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Nonferrous mine graphite scrap concrete for backfill and method of manufacturing the same

A technology of concrete and concrete mortar, which is applied in the field of concrete, can solve the problems of resource utilization of waste rock, waste water and other waste, and achieve sustainable development, resource utilization, and ecological environment protection

Inactive Publication Date: 2008-05-07
TONGJI UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

But, so far, there are few reports both at home and abroad, using the underground waste rock of mines to make concrete for filling.
Although, since the 1990s in China, there have been reports of using tailings sand paste pumping to fill goafs, however, most of the filling materials in this process are still taken from the outside (for example, domestic water is used for production water), and waste water has not been realized. Large amount of resource utilization of stone, waste water and other waste

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0019] The first step is taken from metal and non-ferrous mines in Gansu Province. On average, 400,000 tons of non-ferrous metal ores are mined from the underground every year, and the project waste rock discharged to the surface reaches 200,000 cubic meters (pine). According to the physical property test of waste rock, marble, granite and their mixed rocks are selected and crushed to a diameter of -10mm to -30mm, which meets the requirements of GB / T 14685-2001 "pebbles and gravel for construction".

[0020] In the second step, the waste rock selected and broken in the first step is used as coarse aggregate, and the mineral processing tailings and fly ash industrial waste are used as fine aggregate, according to waste rock: mineral processing tailings: fly ash (5~7 ): (4-6): (1-3) parts by weight, as the aggregate of concrete, and then measure the cement according to the weight ratio of aggregate:cement (7-10):1, and the cement is a commercially available label Ordinary Portla...

Embodiment 2

[0024] In the first step, in a non-ferrous metal mine in western China, the annual construction waste rock discharged from the underground to the surface reaches 400,000 cubic meters (pine square) / 800,000 tons of non-ferrous metal ore. According to the physical property test of waste rock materials, diabase, granite and their mixed rocks are selected and crushed to -5mm ~ -30mm;

[0025] The second step is to measure the waste rock and other industrial waste mineral processing tailings, as well as cement and admixtures. According to waste rock: dressing tailings = (5-7): (4-6) parts by weight, it is used as aggregate. Then measure cement according to the aggregate: cement weight ratio (7-11): 1, and the cement is commercially available ordinary portland cement with a label of 32.5 or more. Then measure 0.3-1% admixture of the cement weight, the admixture is a commercially available dry powder naphthalene-based water reducer, and put them into a stirrer for stirring.

[0026]...

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PUM

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Abstract

The invention discloses nonferrous mine mullock concrete used as filling and the preparation method thereof, and relates to the concrete which is used for mining backfilling and the preparation method thereof. The preparation method includes the following steps: at first, the mullock is crushed into grains with the diameter being 5 to 30 mm, then the mullock, ore dressing milltailings and fly ashes are adopted to be used as aggregate according to the weight rate of (5 to 7):(4 to 6):(0 to 3), and cement is adopted according to the weight rate (7 to 11): 1 part of the cement, then admixture is adopted with the weight of 0.3 to 1.5 percent of the cement. Then the aggregate, the cement, the admixture and mining wastewater are put into an agitator to agitate and make mortar with 65 to 88 percent of weight percentage concentration, then the mortar is cast and molded to be mullock concrete on the spot, or a mortar pump is sent to the site of the backfill mine, then cast and moulded to be the mullock concrete. Through detecting, the mullock concrete satisfies the strength requirement that R3 is equal to or larger than 1.5 MPa, R7 is equal to or larger than 2.5 MPa, R28 is equal to or larger than 5.0 MPa, the slump is equal to or larger than 22 cm, and the horizontal distance is equal to or larger than 500 m, and the height is equal to or larger than 30 m. The invention has the advantages of saving material by 10 to 20 percent, recycling the mullock and reducing the mine construction cost, thereby having obvious economic and environmental benefits.

Description

technical field [0001] The present invention relates to a kind of concrete for backfilling in mining. The present invention further relates to the preparation process of this kind of concrete. Specifically, non-ferrous metal mine waste such as mining waste rock, ore dressing tailings, fly ash and other non-ferrous metal mine waste produced in the production of non-ferrous mines is used as raw materials. Production of backfill concrete technology that meets the filling method of mining. Background technique [0002] Along with the development of non-ferrous metal mineral resources, a large amount of mining waste rocks are extracted from the surface with the ore. At the same time, mining wastewater, ore dressing tailings, slag and fly ash produced by smelting and power generation are discharged in large quantities, causing Some resources are wasted, and the heavy metal pollutants will pollute the soil and water in the mining area, seriously destroying the natural environment a...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C04B28/00C04B14/02C04B14/06C04B18/08
CPCC04B28/02C04B2103/302C04B18/02C04B2111/00724C04B2111/00017Y02W30/91C04B22/0033C04B40/0028C04B18/08C04B18/12C04B20/0076C04B20/026C04B24/223C04B24/226C04B24/2641
Inventor 马利民冯奇王正辉
Owner TONGJI UNIV
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