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Method for preparing high-strength microbial mortar by using urease-producing microbes

A microbial and urease-producing technology, applied in the direction of microorganism-based methods, biochemical equipment and methods, microorganisms, etc., can solve the problems of crisp alkali damage, easy aging of organic materials, rigidity, and strength mismatch, and achieve splitting and tensile strength Effect of high strength, low cost, high resistance to fatigue load and cyclic load capacity

Active Publication Date: 2013-06-26
TSINGHUA UNIV
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Problems solved by technology

At the same time, after the cement-based grouting material is hardened, its stiffness and strength often do not match the reinforced structure, which is prone to secondary damage in the unreinforced area
Furthermore, the high alkalinity of cement-based grouting materials will also make the original masonry structure more prone to alkali damage.
The above deficiencies limit the use of cement-based grouting materials to strengthen masonry structures.
Organic adhesives such as epoxy resins have excellent mechanical properties and high pourability, but due to the basic material properties of organic materials such as stress, strain performance, and thermal conductivity, they are quite different from the original structure. Water permeability and air permeability are low, and organic materials are easy to age, just like the views stated in the Venice Treaty: modern chemical materials do not belong to precious historical buildings, and organic materials such as epoxy resin are not suitable for large-scale masonry structure reinforcement

Method used

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  • Method for preparing high-strength microbial mortar by using urease-producing microbes
  • Method for preparing high-strength microbial mortar by using urease-producing microbes
  • Method for preparing high-strength microbial mortar by using urease-producing microbes

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Embodiment Construction

[0032] The present invention will be described in further detail below in conjunction with the accompanying drawings and specific embodiments. Example:

[0033] Isolation and Screening of Urease-Producing Bacteria with the Ability to Induce Artificial Sandstone

[0034] 1. Sample collection

[0035] Sporosarcina pasteurii was obtained from the American type culture collection (American type culture collection), numbered ATCC11859, and Terrabacter tumescens was obtained from the General Microbiology Center of China Committee for the Collection of Microorganisms, numbered AS.1.2690.

[0036] 2. Isolation and screening of urease-producing strains

[0037] Urease-producing strains were isolated from soil samples collected from the Tsinghua University flower garden.

[0038] Bacteria have ureolytic enzymes, which can decompose urea to produce a large amount of ammonia, making the medium alkaline and red. In this experiment, this characteristic was used to enrich and culture the...

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Abstract

Urease-producing microbes including Sporosarcina antarctica U R 5 3, Sporosarcina koreensis UR47, Sporosarcina sp. UR31 and Bacillus lentus UR41 were preserved in China General Microbiological Culture Collection Center on March 16, 2012, with the preservation numbers of CGMCC No.5916, CGMCC No.5915, CGMCC No.5913 and CGMCC No.5914 respectively. The method for preparing high-strength microbial mortar by using the urease-producing microbes comprises the following steps of: carrying out fermentation culture on the above four microbes and microbes including Sporosarcina pasteurii and Terrabacter tumescens in a fermentation culture medium to obtain a bacterial solution; and filling the bacterial solution, a fixative solution and a gelling solution into a sand particle system in batches to form microbial mortar of which the highest strength can reach 55MPa. The mechanical properties of the microbial mortar are superior to those of a cement base material; compared with a cement lime material with equivalent strength, the microbial mortar is higher in splitting tensile strength; the rigidity of the microbial mortar is similar to that of cement lime mixed mortar but far smaller than that of concrete; the fatigue load tolerance and cyclic loading capacity of the microbial mortar are higher than those of the cement base material; and an artificial sandstone is an inorganic material, and is not easy to age like organic materials including epoxy resin and the like.

Description

technical field [0001] The invention belongs to the field of high-strength microbial mortar preparation, and in particular relates to a method for preparing high-strength microbial mortar by utilizing urease-producing microorganisms. Background technique [0002] The grouting method is a commonly used method to strengthen masonry structures, especially the reinforcement of historical cultural relics, and lime, cement and epoxy resin are three commonly used grouting materials. Among them, the lime-based grouting material is used as the pointing material of the traditional masonry structure, which has the best compatibility with the reinforced structure. However, due to the long hardening time of the lime-based grouting material, the strength after hardening is low, so it cannot play a good role. reinforcement effect. For ordinary cement-based grouting materials, due to the need to ensure that the grouting is dense and the fluidity of the grouting material needs to be improve...

Claims

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Application Information

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IPC IPC(8): C12N1/20C04B28/00C12R1/07C12R1/01
Inventor 程晓辉化彬
Owner TSINGHUA UNIV
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