KR100449040B1 - high-strength shotcrete composite using alkali-free accelerator - Google Patents

Abstract

The present invention relates to a high-strength shotcrete composition, to a high-strength shotcrete composition having a high initial strength and adhesion performance, and a low reduction of long-term strength.

In shotcrete construction, it is necessary to secure initial strength and to reduce the amount of rebounds, and therefore, the use of a fastener is essential to satisfy these requirements. In the case of the water glass-based universal fastener that has been generally used in the past, the initial strength is good, but there is a fatal weakness of the long-term strength reduction. In addition, there was a problem that has a harmful effect on workers and the environment due to the strong alkaline properties.

In order to solve the above problems, the present invention uses an alkali-free liquid type fastener in place of the conventional water glass-based universal fastener, which is used for the mixing of shotcrete, thereby securing initial strength and reducing the long-term strength reduction rate. Can be.

In addition, the present invention by using crude steel portland cement instead of the ordinary portland cement used in the general shotcrete construction, it can effectively cope with the work that requires the adhesion performance with the ground early, such as water parts, fault fracture zone, soft ground.

Description

High-strength shotcrete composite using alkali-free accelerator}

The present invention relates to a high-strength shotcrete composition using an alkali-free fastener, and more specifically, by using an alkali-free liquid quickener as a fastener used for securing initial strength and reducing rebound, the reduction rate of long-term strength is small and the environment is low. It relates to a friendly high strength shotcrete composition.

In the construction of roads and railways, the construction of tunnels is increasing, and the demand for tunnel construction is expected to continue to increase in the future as investment in social overhead capital expands. In particular, in recent years, there is an increasing demand for the enlargement of tunnel cross-sections and long tunnels, and various considerations are being made for the safer and more economical construction of tunnels.

There are many tunnel construction methods, but the most commonly used method is NATM (New Austrian Tunnelling Method). NATM method is a method of maintaining the stability of the tunnel with shotcrete and rock-bolt, while utilizing the support capacity of the ground immediately after the excavation of rock.

In particular, shotcrete is a concrete that is sprayed with high air pressure on the excavated ground using a shotcrete machine, unlike ordinary concrete. It prevents the loosening of the ground, maintains the strength of the ground, and acts as a concrete arch to share the load. It needs to be able to perform, and requires the ability to secure early strength, increase adhesion to the excavation surface and minimize the rebound and dust generation.

However, the current shotcrete technology is still following the initial technology at the time when the NATM method enters Korea, and the rebound amount and the dust concentration near the membrane exceed the standard values, and the constructability depends on the experience and skill of the nozzleman. Due to the high fluctuations in quality and quality, improvements are needed to reduce costs and improve construction efficiency. In addition, the quality of the shotcrete is not yet clear about the effects of the miscible materials used, the blending, the construction conditions, and the workability, so it is necessary to examine them.

In particular, when the interest in single-shell lining tunnels (final finish with shotcrete instead of site-casting lining) or PCL (prefabricated lining) tunnels is increasing, the quality of shotcrete is improved with excellent adhesion and durability. There is an urgent need for the development of high-quality high-strength shotcrete that can reduce the construction cost of tunnels by reducing the thickness of shotcrete as well as reducing the rebound amount.

Above all, shotcrete construction is required to secure initial strength and to reduce the amount of rebound, and in order to meet these requirements, the use of a fastener is indispensable. However, when the conventional universal fastener is used, there is a case that the standard strength required by the design is not satisfied due to the decrease of long-term strength due to early fastening, and accordingly, the environmental problem due to the increase of the rebound amount and the generation of dust The problem remains unresolved.

The present invention has been made to solve the above problems, and aims to provide a high-quality high-strength shotcrete composition by improving the initial strength of the shotcrete and preventing the reduction of long-term strength.

In addition, it is an object to provide a shotcrete composition that can ensure the safety of the shotcrete construction workers and environmentally friendly.

1 is a graph comparing the compressive strength of the embodiment of the present invention and the comparative example.

2 is a graph comparing the bending strength of the embodiment of the present invention and the comparative example.

In order to achieve the above object, the present invention is an alkali-free grade that does not affect the environment and does not affect the environment without damaging the expression of long-term strength with initial strength instead of the general-purpose fastener used in the past Crude steel cement is used instead of ordinary Portland cement used in settlement and most shotcrete construction.

The alkali-free fastener is a liquid type, and the strength and workability when the alkali-free liquid fastener is used for shotcrete have the following characteristics.

First, because it is a liquid rather than a powder, rebound amount and dust generation are reduced, and the formulation of the fastener is precisely controlled and easy to handle.

In addition, since it is weakly acidic, it has little adverse effect on the human body due to environmental and alkali burns, suppresses the occurrence of alkaline aggregate reactions, and reduces the long-term strength reduction rate, which is the biggest disadvantage of the general purpose fastener.

On the other hand, in most shotcrete constructions, Portland cement is usually used, but crude steel portland cement is required for special parts requiring early attachment to rock such as elution, fault fracture zone, and soft zone.

The present invention provides a water glass-based universal fastener by using an alkali-free liquid type fastener instead of a water glass-based universal fastener which is generally used as the above-mentioned fastener in a general shotcrete composition composed of cement, water, aggregate and a fastener. Overcoming the problem of the reduction of long-term strength, which is the biggest disadvantage, the use of crude steel cement in place of ordinary portland cement commonly used in shotcrete construction, water parts, rock crushing zones, and soft materials requiring high initial strength and adhesion. It will contribute to increasing shotcreability in special environments such as soil.

The shotcrete composition of the present invention is composed of coarse aggregate, fine aggregate, cement, water and a fastener.

The coarse aggregate has a maximum dimension of 10 to 15 mm and uses a weight of 550 to 620 kgf per 1 m ³ of shotcrete and can be changed according to design. If the maximum size of the coarse aggregate is too large, it is preferable to select a coarse aggregate within the above range because there is a large amount of rebound during shotcrete construction and the hose may be closed.

The fine aggregate uses a weight of 1,000 ~ 1,200 kgf per 1m ³ shotcrete, the compounding amount can be changed according to design.

Generally, cement is generally used as portland cement. However, when the shotcrete is applied to a water part, a rock crushing zone, a soft ground, etc., it is preferable to use crude steel portland cement.

The amount of cement is suitable to use a weight of 300 to 450 kgf per 1 m ³ of shotcrete, but can be changed according to design.

The shotcrete composition of the present invention is suitable to use water having a water-cement ratio of 40 to 60% by weight, and can be used depending on the design within the above range.

The fastener is an essential component used when constructing shotcrete with a thickness of 5 to 15 cm or more upward, such as tunnel construction, as described above. Use free liquid quickeners.

The addition amount of the alkali-free liquid quickener is preferably determined by a test within the range of 5 to 8 wt% of the weight of the cement, similar to a general water glass-based universal fastener.

On the other hand, the high-strength shotcrete composition of the present invention may be configured by reinforcing steel fibers or polypropylene fibers or by adding a high performance water reducing agent.

The steel fibers are used to be uniformly dispersed in concrete for the purpose of improving tensile strength, resistance to bending cracking and impact resistance, etc., and when applied to shotcrete, tensile strength, bending strength and fatigue strength are improved, thereby reducing the thickness of shotcrete. Can be.

Like the steel fiber, the polypropylene fiber is used for the purpose of improving durability, such as tensile strength, resistance to bending cracks, and can reduce the amount of rebound when applied to shotcrete and has excellent corrosion resistance.

The high performance sensitizer is a surface active agent with excellent dispersibility and little foaming property and is used as a high strength or fluidizing agent. When the high performance water reducing agent is added to the shotcrete, it is possible to greatly improve the workability of the shotcrete construction without deteriorating the strength.

EXAMPLE

Table 1 is a concrete mix table used to test the effect of the high strength shotcrete composition of the present invention.

In this test, the compressive strength test was carried out on specimens prepared by the examples of the formulations shown in Table 1 and in the formulations of Table 1, using cement as the portland cement, and the comparative examples using the water-based universal fasteners. , The flexural strength test and the flexural toughness test were performed to compare and analyze the performance.

The results for the test are shown in Table 2 and FIGS. 1 and 2.

As can be seen from Table 2 and Figures 1 and 2, an embodiment of the present invention using an alkali-free liquid type fastener and a crude portland cement is a water glass-based general purpose material without adding an expensive admixture for high-strength expression such as silica fume. The compressive strength, flexural strength, and flexural toughness tests showed up to 62% improvement in performance compared to the comparative examples using fasteners and ordinary portland cement.

In addition, it exhibits not only high initial strength as compared with the comparative example but also shows long-term strength that is almost equivalent to that of concrete without the addition of a fastener.

Therefore, high-strength shotcrete using alkali-free liquid quickener of the present invention and crude steel portland cement ensures long-term strength with improved performance and is environmentally friendly to prevent groundwater contamination and worker safety accidents with delayed leakage of underground water with a dense internal structure. Provide a shotcrete composition.

The shotcrete composition using alkali-free fastener of the present invention is effective combination of alkali-free liquid quickener and crude portland cement to improve early adhesion and secure long-term strength, and to secure groundwater contamination and worker safety with dense internal structure. It is possible to construct environmentally friendly shotcrete.

In addition, it is expected to reduce the processing cost due to the reduction of the rebound amount and to reduce the defect repair cost through improved performance, thus securing superior competitiveness and quality in comparison to the existing shotcrete in terms of total life-cycle cost. .

In addition, it is possible to reduce the cost of tunnel construction by reducing the thickness and the amount of tunnel excavation by increasing the design reference strength through the high strength of shotcrete.

Claims (4)

Shotcrete per 1m ^3, Coarse aggregate of 550 to 700 kgf weight having a maximum dimension of 10 to 15 mm; Fine aggregates weighing 1,000 to 1,200 kgf; Crude steel Portland cement with a weight of 300-450 kgf; Water having a water-cement ratio of 40 to 60 weight percent; And 5-8% of the weight of the cement fastener; It includes, wherein the fastener is a high strength shotcrete composition, characterized in that using an alkali-free (alkali-free) liquid fastener. The high-strength shotcrete composition of claim 1, wherein the high-strength shotcrete composition is further added with a high performance water reducing agent. The high strength shotcrete composition of claim 1 or 2, wherein any one of steel fibers and polypropylene fibers is further added to the high strength shotcrete composition. delete