JP4344326B2 - Panel for tunnel interior - Google Patents

Description

  The present invention relates to a tunnel interior panel used as a tunnel interior material for automobile roads and the like.

A porous inorganic plate such as a calcium silicate plate is used as a refractory material for protecting a tunnel inner wall from a fire or the like. Also, the surface of the tunnel interior material is required to have a line-of-sight guidance function, but in order to obtain the line-of-sight guidance function, it is necessary to form a line-of-sight guidance layer on the surface of the porous inorganic plate used as a refractory material There is. This line-of-sight-inducing layer is dense and smooth and has excellent durability (including durability of the adhesion between the substrate and the coating film in addition to the durability of the coating film itself) and contamination detergency. Is required . However , since the porous inorganic board used as the refractory material for the inner wall of the tunnel is porous, it is difficult to form a line-of-sight guiding layer having the above-described performance by coating the surface thereof. Therefore, it is necessary to form a panel by laminating a porous inorganic plate with a surface material having a visual line guiding function.

As a calcium silicate plate of a refractory material used for a tunnel inner wall, for example, Patent Document 1 discloses a calcium silicate material containing a matrix and a fiber made of calcium silicate hydrate, and the calcium silicate water hydrates 0.3, together consisting of tobermorite and xonotlite, the ratio of the X-ray diffraction intensity of the (002) plane of the X-ray diffraction intensity of the (001) plane of the xonotlite tobermorite, as the former / the latter is 5.0, the calcium silicate material, by the inclusion of acicular wollastonite and 1 to 10 wt% of the cellulose pulp in the range of 20 to 60 wt% as a fiber, heating the residual at 1200 ° C. calcium silicate material, wherein the shrinkage ratio is 5% or less, and, calcareous material, siliceous material, a fiber material and water The combined slurry was formed, to form a cake this slurry heated curing and then molded under dehydration, the cake in the manufacturing method of the calcium silicate material having a curing and curing in an autoclave, the The ratio of the calcareous raw material and the calcium silicate material is acicular wollastonite in the range of 20 to 60% by mass and cellulose pulp in the range of 1 to 10% by mass, and the heating temperature of the heat curing is 80 to 100%. ° C., as 2MPa~10MPa the pressure in the thermal dehydration molding, the temperature of the autoclave curing is 190 to 210 ° C., and by the time of curing is 5 to 15 hours, and a matrix consisting of calcium silicate hydrate A calcium silicate material containing fibers, wherein the calcium silicate hydrate is The ratio of the X-ray diffraction intensity of the (001) plane of the zonotlite to the X-ray diffraction intensity of the (002) plane of the tobermorite is 0.3 to 5.0 as the former / the latter. There is disclosed a method for producing a calcium silicate material, characterized in that the calcium silicate material has a heat residual shrinkage at 1200 ° C. of 5% or less.

Further, in Patent Document 2, 8-30 wt% (mass%) of a lightweight aggregate having a total content of Na ₂ O and K ₂ O of less than 10% in a refractory, and a fiber length of 500 μm to 1 to 8% by weight (mass%) of anhydrous inorganic long fibers having a thickness of 4 μm, 4 to 30% by weight (mass%) of anhydrous inorganic short fibers having a fiber length of 50 to <500 μm, and the balance being alumina cement An anhydrous inorganic fiber-containing heat-insulating refractory containing ultrafine powdered amorphous silica, reinforcing fibers and other refractory materials is disclosed.

JP 2003-104769 A Japanese Patent No. 3206905

However, in a panel in which a surface material having a line-of-sight induction function is laminated on one side of a porous inorganic plate such as a calcium silicate plate, moisture (including water vapor) enters and exits from the surface where the surface material is not laminated. O Ri, the distribution of water content in the calcium silicate board becomes uneven, "warpage" causes generated in panel. When the panel "warp" occurs, it reduces the visual guidance function, a gap at the junction of the panels to each other, since the reduction of the refractory protective function of the tunnel inner wall by the panel occurs undesirably.

The same phenomenon occurs not only in tunnel interior materials, but also in panels that are made of porous inorganic plates as base materials and are laminated with a dense material on one side or formed a coating film. Produce. To prevent this phenomenon, usually the other side of the panel, applying a sealer or paint, Ru Tei methods are often used, such as laminating a surface material on both sides. However, because the environmental conditions of tunnel interior materials are severe, the sealer coating cannot sufficiently prevent panel warpage, and the calcium silicate plate for tunnel interiors has a highly durable coating . There is a problem that formation is difficult . Furthermore, it is not preferable to laminate surface materials on both sides of the calcium silicate plate because the cost increases and the thickness of the panel increases.

  Accordingly, it is an object of the present invention to provide a tunnel interior panel that has excellent fire resistance, does not cause warpage, and can maintain the line-of-sight guidance function for a long period of time.

  The present invention uses a calcium silicate plate having high fire resistance and having a significantly reduced water absorption dimensional change rate as a calcium silicate plate used as a base material for laminating a surface material having a line-of-sight guidance function Thus, a tunnel interior panel suitable for a tunnel interior material is provided.

That is, the tunnel interior panel of the present invention, primary matrix is formed by xonotlite, acicular wollastonite containing 3 to 8% by weight of reinforcing fibers and 30 to 60 wt%, an apparent density of 0.8 A calcium silicate plate having a water absorption dimension change rate of 0.05% or less within a range of 1.1 g / cm ³ is used as a base material , and a hard material is used as a surface material having a line-of-sight guidance function on one side of the base material . It is characterized by being formed by laminating a surface material coated with an inorganic paint on a calcium silicate plate .

Further, the tunnel interior panel of the present invention, the surface material having a visual guidance function, apparent density, characterized in that a hard calcium silicate board of 1.45~1.75g / cm ^3.

  Furthermore, in the panel for tunnel interior of the present invention, a surface material having a line-of-sight guiding function is bonded to the base material with an adhesive.

According to the present invention, by using a specific calcium silicate plate as a base material for a tunnel interior panel for laminating with a surface material having a line-of-sight guiding function, it has excellent fire resistance and excellent line-of-sight The effect is that the induction function can be maintained over a long period of time.

The tunnel interior panel of the present invention is composed of a base material and a surface material having a line-of-sight guiding function laminated on one side thereof. The calcium silicate plate used as a base material for the tunnel panel of the present invention has a main matrix formed of zonotlite, 30 to 60% by mass of acicular wollastonite, preferably 40 to 50% by mass, and reinforcing fibers. 3 to 8 mass%, preferably 4 to 7 mass%. Here, when the content of the acicular wollastonite calcium silicate board is less than 30% by weight, a preferable rather to water dimensional change rate calcium silicate board becomes large, needle-like Warasuto When the content of knight exceeds 60% by mass, the strength of the calcium silicate plate decreases, which is not preferable. Moreover, the intensity | strength requested | required as a base material can be provided to a calcium-silicate board by including the fiber for a reinforcement in a calcium-silicate board. Here, a typical reinforcing fiber of the calcium silicate plate whose main matrix is formed of zonotolite is cellulose pulp or the like. If the content is less than 3% by weight of reinforcing fibers is not preferable because of the fact that the strength of the base material can not be obtained. Moreover, since the reinforcing fiber such as cellulose pulp is a combustible material, if its content exceeds 8% by mass, there is a risk that the incombustibility of the calcium silicate plate is insufficient, which is not preferable. In the present specification, “the main matrix is formed of zonotolite” means that the matrix constituting the calcium silicate material is acceptable even if other minerals such as tobermorite are mixed slightly. .

Further, the calcium silicate plate used as the substrate preferably has an apparent density in the range of 0.8 to 1.1 g / cm ³ , preferably 0.9 to 1.0 g / cm ³ . If the apparent density is less than 0.8 g / cm ³ , there is a risk that the long-term durability when used as a panel for a tunnel interior is lowered, which is not preferable. Further, when the apparent density exceeds 1.1 g / cm ³ , the thermal conductivity increases and heat is easily transmitted to the inner wall surface of the tunnel when a fire or the like occurs, which is desirable as a refractory material for protecting the inner wall of the tunnel. Absent. Further, in order to prevent the occurrence of “sledge”, it is necessary to reduce the expansion and contraction of the dimension when the moisture content changes. Specifically, the water absorption dimension change rate of the calcium silicate plate is 0.05. % Or less, preferably 0.04% or less.

  In the present specification, the “water absorption dimensional change rate” is measured by the “length change rate test by water absorption” in JIS A5430: 2001 6.7.

Here, the equilibrium moisture content of the calcium silicate plate having an apparent density in the range of 0.8 to 1.1 g / cm ³ is about 2 to 5%. If calcium silicate board which is a base material may turn high and water absorption water content, it will be warped surface concavely since the back surface side of the panel tunnel interior stretches, whereas the water content of calcium silicate material is dried If that a lower surface is convex so the rear surface side of the panel tunnel interior shrinks. In any case, if the water absorption dimensional change rate is 0.05% or less, the dimensional change rate from the equilibrium water content state is approximately one half of that, so the amount of warpage is 1 m in panel length. It becomes 15 mm or less per, and the influence of warpage is substantially eliminated. In addition, although the thickness of the calcium silicate board used as a base material is based also on the fireproof performance of the base material required, 20-40 mm, Preferably 25-30 mm is suitable.

As a surface material having a line-of-sight guiding function, a surface material using a hard calcium silicate plate as a base material and an inorganic paint such as a water glass paint is applied. In addition, the hard calcium silicate plate that can be used as the surface material of the line-of-sight guide interior plate based on the calcium silicate plate is densified by making the raw material slurry, pressing it, and curing it in an autoclave. hard calcium silicate based material (apparent density of 1.45~1.75g / cm ^3, preferably about 1.6 g / cm ³⁾ is. The thickness of the hard calcium silicate-based material is preferably 3 to 10 mm, preferably 4 to 6 mm. Such a hard calcium silicate material can form on its surface a coating film having a line-of-sight guiding function that is dense and smooth, and has excellent durability and contamination cleaning properties. In addition, the thickness of the coating film on the hard calcium silicate plate is 30 to 80 μm, preferably about 40 to 50 μm.

As a reference, as a surface material having a visual guidance function, for example, when using a glazed metal plate enamel, the thickness of the metal plate as a base material is 0.3 to 1 mm, preferably 0.4 it is not multi-to use within the scope of the ~0.5mm. The thickness of the coating formed by glazing the enamel, 30 to 80 [mu] m, preferably not multi those about 40 to 50 .mu.m.

  The method for laminating and integrating the calcium silicate plate as the base material and the surface material having a line-of-sight guiding function is not particularly limited, but it is possible to integrate by laminating using an adhesive. Is preferred. The type of adhesive depends on the type of surface material used, but for example, an epoxy resin adhesive can be used.

Using a calcium silicate substrate (thickness 27 mm or 25 mm × width 600 mm × length 1200 mm) shown in Table 1, an epoxy adhesive is applied on one surface in an amount of 180 g / m ² , and then has a line-of-sight guiding function. Hard calcium silicate plate with an inorganic coating (thickness: 45 μm) as a surface material ( measured according to the test in paragraph 4) (thickness 4 mm, apparent density 1.6 g / cm ³ : JIS A5430 : 2001 6.3 “apparent density” a) Then, the surface material was laminated on the calcium silicate substrate to obtain the tunnel interior panel of the present invention and the comparative product.
Table 1 shows the characteristics of the obtained tunnel interior panel.

In Table 1,
The apparent density of the calcium silicate base material is measured and determined according to the test of JIS A5430 : 2001 6.3 “Apparent density” b) .
The water absorption dimensional change rate is measured and determined according to the section of JIS A5430 : 2001 6.7 “Length change rate test by water absorption”;
The fire resistance was measured by heating a calcium silicate base specimen (thickness 27 mm or 25 mm × width 80 mm × length 150 mm) in an electric furnace at 1000 ° C. for 3 hours and then immersing in water to cool the specimen. The appearance is visually observed. O represents no change in the calcium silicate substrate, Δ represents a slight crack in the calcium silicate substrate, and x represents a crack in the calcium silicate substrate;
The amount of warpage is 10 panels in total, leaning against the concrete wall, with the surface material of the obtained tunnel interior panel on the front side, 2 in the width direction and 2 in the width direction, and 5 in the height direction. Hold at room temperature for 1 hour, spray water for 0.5 hour in the meantime (2.5 liters / minute per 1 m ^{2 of} water spray panel), then heat up to 60 ° C over 2 hours using a heating lamp The operation of holding at 60 ° C. for 1 hour and then lowering to room temperature over 2 hours is defined as 1 cycle, and after performing this operation for 100 cycles, the amount of warpage (mm) in the length direction of the panel is measured. This is expressed in terms of the amount of warpage (mm).
The long-term durability is obtained by visually observing the state of the calcium silicate substrate of the tunnel interior panel of the present invention product and the comparative product in which the amount of warpage was measured. “◯” indicates that there is no abnormality in the calcium silicate base material, “Δ” indicates that slight swelling is observed in the calcium silicate base material, and “×” indicates that swelling is recognized in the calcium silicate base material.

The tunnel interior panel of the present invention has excellent fire resistance, does not cause warpage, and is suitably used for tunnels such as automobile roads for a long period of time as an interior material having an excellent line-of-sight guidance function. Can do.

Claims (2)

Primary matrix is formed by xonotlite, acicular wollastonite containing 3 to 8% by weight of reinforcing fibers and 30 to 60 wt%, the apparent density is in the range of 0.8~1.1g / cm ³ In addition, a calcium silicate plate having a water absorption dimensional change rate of 0.05% or less is used as a base material, and an apparent density is 1.45 to 1.75 g / cm as a surface material having a line-of-sight guiding function on one side of the base material. A tunnel interior panel comprising a hard calcium silicate plate of No. ³ laminated with a surface material coated with an inorganic paint . Tunnel interior panel according to claim 1 where said surface member is adhered by an adhesive on the substrate.