Method for preparing geopolymer finished product by using typical rare earth tailings in western Sichuan

A technology of rare earth tailings and geopolymers, which is applied in solid waste management, sustainable waste treatment, cement production, etc., can solve the problems of few researches on solid sealing of pollution sources, and achieve the effect of reducing hidden dangers of land disasters

Active Publication Date: 2021-12-10
四川省地质矿产勘查开发局成都综合岩矿测试中心
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  • Abstract
  • Description
  • Claims
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Problems solved by technology

[0005] Some domestic scholars have carried out research on the preparation of geopolymers from high-alumina and high-silicon tailings and solid waste and the solidification of heavy metals in geopolymers [13] , but there are few studies on the use of rare earth tailings for the preparation of geopolymers and solidification of heavy metals for mine geological disaster control and pollution source solidification

Method used

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  • Method for preparing geopolymer finished product by using typical rare earth tailings in western Sichuan
  • Method for preparing geopolymer finished product by using typical rare earth tailings in western Sichuan
  • Method for preparing geopolymer finished product by using typical rare earth tailings in western Sichuan

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Experimental program
Comparison scheme
Effect test

Embodiment 1

[0036] The present invention uses the chemical composition of bastnaesic rare earth tailings in western Sichuan to include in terms of oxides: Al 2 o 3 7.459%, SiO 2 24.253%, K 2 O 2.595%, CaO 20.282%, SrO 10.481%, BaO 3.996%, F 6.633%, Fe 2 o 3 3.172% and SO 3 7.057%, mass percentage.

[0037] The chemical composition of metakaolin in terms of oxides includes: Al 2 o 3 41.908%, SiO 2 52.195%, K 2 O1.967%, Fe 2 o 3 0.989%, TiO 2 0.209% and MgO 0.239%, mass percentage, the silica fume used is industrial grade product amorphous SiO 2 , SiO 2 Content>98%, mass percentage, NaOH is analytical pure or industrial pure chemical reagent, heavy metal source lead salt Pb(NO 3 ) 2 For analytically pure chemical reagents.

[0038] 25g of bastnaesite rare earth tailings in western Sichuan, 100g of metakaolin, 44g of silica fume, 34g of NaOH, 138 mL of water, heavy metal source (lead salt Pb(NO 3 ) 2 ) 0.406g, L / S is 1.0. The following preparation method was adopted...

Embodiment 2

[0046] 25g of bastnaesite rare earth tailings in western Sichuan, 100g of metakaolin, 44g of silica fume, 34g of NaOH, 113 mL of water, heavy metal source (lead salt Pb(NO 3 ) 2 ) 0.812g, L / S is 0.9. Using the preparation method, a rare earth tailings-metakaolin base polymer sample was obtained, and its 7d compressive strength value was 15.69 MPa. The leaching toxicity evaluation was carried out by using the leaching toxicity leaching method (TCLP). 2+ The concentration is 1.05 mg / L, which is lower than the limit value for heavy metal ions in the leachate in the national standard GB5085.3-2007 "Identification Standard for Hazardous Wastes - Identification of Leaching Toxicity": total Pb<5 mg / L.

[0047] Others are the same as in Example 1.

Embodiment 3

[0049] Using 25g of bastnaesite rare earth tailings in western Sichuan, 100g of metakaolin, 44g of silica fume, 34g of NaOH, 88 mL of water, heavy metal source (lead salt Pb(NO 3 ) 2 ) 4.06g, L / S is 0.7. Using the preparation method, a rare earth tailings-metakaolin base polymer sample was obtained, and its 7d compressive strength value was 36.1 MPa. The leaching toxicity evaluation was carried out by using the leaching toxicity leaching method (TCLP). 2+ The concentration is 0.261 mg / L, which is far lower than the limit value of heavy metal ions in the leachate in the national standard GB5085.3-2007 "Identification Standard for Hazardous Wastes - Identification of Leaching Toxicity": total Pb<5 mg / L.

[0050] Others are the same as in Example 1.

[0051] Carry out structure and action principle analysis to embodiment 3 geopolymer samples as follows:

[0052] By carrying out mechanism analysis to the rare earth tailings-metakaolin base polymer of embodiment 3 solidifying h...

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Abstract

The present invention is a method for preparing geopolymer finished products using typical rare earth tailings in western Sichuan, and solves the problem of low strength of rare earth tailings for preparing geopolymer finished products. Silica fume 5-50, NaOH 28-40, water 60-138, heavy metal source (lead salt Pb(NO 3 ) 2 ) 0.1-5. The preparation method is as follows: roast kaolin at 800 °C for 6 h to obtain metakaolin of the same quality, dissolve NaOH in water, add silica fume and stir until the silica fume dissolves, and simultaneously add Pb(NO 3 ) 2 , when the temperature drops to 30°C~80°C, add metakaolin and rare earth tailings and stir together, pour the mixed slurry into a mold to form, and the 7d compressive strength of the prepared geopolymer can reach 36MPa. Pb in leach solution 2+ The concentrations are all lower than the limit value of the national standard: total Pb<5 mg / L.

Description

technical field [0001] The invention relates to the preparation of geopolymer by using rare earth tailings and the method for solidifying heavy metal pollutants by geopolymer. Background technique [0002] In recent years, the rare earth resource development and utilization industry has grown rapidly, and resources have been exploited in large quantities. Due to factors such as long-term disorder and random stacking of tailings, serious geological hazards, environmental pollution and other mine geological environmental problems have been caused. The Maoniuping rare earth ore concentration area in western Sichuan accounts for 90% of the province's rare earth resources and is the second largest rare earth raw material base in the country. At the same time, it is located in an area with a high incidence of geological disasters, so the problem is particularly prominent. [0003] According to public information [1-4] , only in 2012, Mianning Maoniuping mining area identified [3...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C04B28/00C04B18/12
CPCC04B28/006C04B2201/50C04B2111/00767C04B18/12C04B14/106C04B18/146C04B22/062C04B22/085Y02P40/10Y02W30/91
Inventor 钟乐乐胡斯宪杨晓军毛素荣张巍文涵睿巨星陶冉
Owner 四川省地质矿产勘查开发局成都综合岩矿测试中心
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