Method for preparing construction material by utilizing electrolytic manganese slag

A technology for electrolytic manganese slag and building materials, which can be applied to buildings, building components, building structures, etc., can solve problems such as ecological damage and environmental pollution, and achieve the effects of large market capacity, low price and good quality.

Inactive Publication Date: 2009-11-04
CHINESE RES ACAD OF ENVIRONMENTAL SCI
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0010] The purpose of the present invention is to provide a method of using electrolytic manganese slag to prepare building materials. The method has high social, economic and environmental benefits, simple process technology, wide source of raw

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0035] (1) In the electrolytic manganese slag, based on 32% (weight) of electrolytic manganese slag, 3% of additives (70% of lime, 20% of gypsum, and 10% of kaolin are crushed and mixed, and the unit is weight percentage), add appropriate amount of water and fully stir, and react in the open air for 3-5 days;

[0036] (2) In the pretreated electrolytic manganese slag, add 8% cement, 26.5% broken stone, 30% stone powder, 0.5% MNC-AE1 type rosin air-entraining agent, add water and mix uniformly;

[0037] (3) Put the mixture into a standard brick mould, form it under vibration and pressure on a QT6-15 automatic brick making machine, demould, and stack the bricks;

[0038] (4) Irrigate the adobe twice a day with clean water for the first 1-7 days, and then pour the adobe once with water the next day. After 28 days of curing, the electrolytic manganese slag standard brick can be obtained.

[0039] The produced electrolytic manganese slag standard bricks are tested, and they meet t...

Embodiment 2

[0041] (1) In electrolytic manganese slag, 36% (weight) of electrolytic manganese slag is mixed with 2% additives (75% lime, 20% gypsum, 5% kaolin and mixed after pulverization, the unit is the weight percentage), add appropriate amount of water and fully stir, and react in the open air for 4-6 days;

[0042] (2) In the electrolytic manganese slag after pretreatment, add 9% cement, 26% pebbles, 27% stone powder, add water and mix evenly;

[0043] (3) Put the mixture into a standard brick mould, form it under vibration and pressure on a QT6-15 automatic brick making machine, demould, and stack the bricks;

[0044](4) In the first 1-5 days, pour the adobe twice with clean water every day, and then pour the adobe once with water the next day. After 14 days of curing, the electrolytic manganese slag standard brick can be obtained.

[0045] The produced electrolytic manganese slag standard bricks are tested, and they meet the index requirements of MU7.5 strength grade non-load-bea...

Embodiment 3

[0047] (1) In electrolytic manganese slag, based on 35% (weight) of electrolytic manganese slag, 4.8% of additives (75% of lime, 15% of gypsum, and 10% of kaolin are crushed and mixed, and the unit is the weight percentage), add appropriate amount of water and fully stir, and react in the open air for 5-6 days;

[0048] (2) In the pretreated electrolytic manganese slag, add 10% cement, 22% gravel, 28% stone powder, 0.2% MNC-AE1 type rosin air-entraining agent, add water and mix uniformly;

[0049] (3) Put the mixture into the porous brick mould, vibrate and press on the QT6-15 full-automatic brick making machine, demould, and stack bricks;

[0050] (4) Irrigate the adobe twice a day with clean water for the first 1-6 days, and then pour the adobe once with water the next day. After curing for 28 days, the electrolytic manganese slag porous brick can be obtained.

[0051] The produced electrolytic manganese slag porous bricks are tested, and they meet the index requirements of...

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PUM

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Abstract

The invention provides a method for preparing a construction material by utilizing electrolytic manganese slag, including the following steps: (1) pretreatment: additive is blended in the electrolyticmanganese slag, water is added for fully stirring, and the raw material reacts in the open air for 1-7 days, wherein the added additive is mixture of lime, plaster and kaolin; (2) cement, sandstonescoarse aggregate, sandstones fine aggregate and component selection air entraining agent are added into the electrolytic manganese slag after the pretreatment, water is added and blended evenly to form a mixture; (3) the mixture is loaded into a mould and formed on a compression forming machine by vibration and pressurizing, and then demoulding is carried out; (4) adobe is naturally cured for 14-28 days, thus obtaining the electrolytic manganese slag construction material product. The technique is simple with high product quality and low production cost and has good social, economic and environmental benefits.

Description

technical field [0001] The invention relates to a method for preparing building materials by electrolytic manganese slag, which belongs to the fields of resource recycling and environmental protection in the electrolytic manganese industry. Background technique [0002] "Without manganese, there is no steel." Manganese is an important foundation and strategic material of the national economy. Manganese products mainly include electrolytic manganese metal, manganese dioxide, manganese tetraoxide, and manganese sulfate. Among them, electrolytic manganese is the most widely used and has the largest output. It is widely used in high-tech fields such as steel and non-ferrous metal smelting, electronic batteries, aerospace, and national defense industries. With the development of science and technology, the application range of electrolytic manganese is increasing. Viewed, consumption is also increasing. [0003] In recent years, my country's electrolytic manganese industry has d...

Claims

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Application Information

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IPC IPC(8): B28B3/00B28C3/00B28C7/04B28C5/00B28B11/24E04C1/00
CPCC04B28/02Y02W30/91C04B14/02C04B14/06C04B14/106C04B18/144C04B22/064C04B22/143C04B40/0028C04B40/0067C04B40/0071C04B2103/304
Inventor 段宁周长波彭晓成王璠潘涔轩但智刚朱春雷
Owner CHINESE RES ACAD OF ENVIRONMENTAL SCI
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