TH22113B - Metal-reinforced concrete Cement-type matrix and pre-mixes of this concrete. - Google Patents

Abstract

DC60 (22/02/42) This invention involves a line of concrete. Especially concrete Reinforced with fibers The main theme of this invention is concrete that has been Improve In particular, it is possible to produce structural parts. Civil engineering intended for building And the structure of the highway, and the parts that surpassed the properties of those in the Renaissance that were before. Especially The purpose of this invention is to provide structural concrete with mechanical properties that are both rigid and bendable at the same time. This invention involves a line of concrete. Especially concrete Reinforced with fibers The main substance of the invention is the treated concrete. Improve In particular, it is possible to produce structural parts. Civil engineering intended for building And the structure of the highway, and the parts that surpassed the properties of those in the Renaissance that were before. Especially The purpose of this invention is to provide structural concrete with mechanical properties that are both rigid and bendable at the same time.

Claims (8)

1. Concrete that contains Hardened cement matrix including (a) cement (b) particle material with a maximum particle size of 2 mm Dmax (c) pozzolanic reaction particles. With a minimum initial particle size of 1 μm (d), the component could improve the ductility of the matrix selected from the group. Which consists of needle-shaped or scaly particles whose particles are of average size At most 1 mm, and which exist in volume proportion between 2.5 and 35% of the total volume of the particle material (b) and that of the particle Pozzolanic reactions (c) and (e) one or more dispersant (f) metal fibers dispersed in a hardened cement matrix, where (i) fibers have a length of and strands. 1 is a minimum of 2 mm and a 1 / d ratio of at least 20, where d is the diameter of the fiber, (ii) the R ratio of the mean length L of the fibers to the maximum Dmax particle size of the particle material is at least 10, and (iii) The quantity of fibers is characterized by Where the fiber content is less than 4% of the concrete volume after the concrete has solidified, and (g) water where the percentage by water weight W relative to the total weight of cement (a) and of the particles (c) is in range. 8-24% 2. Concrete of claim 1 where the size of the particle material is at most 1 mm, the particle size of the pozzolanic reaction is at most 0.5 μm, and the fiber content is at least 0.5 μm. look The fiber volume is less than 3.5% of the concrete volume after the concrete has cured. Cement-type matrix Solids that include (a) concrete (b) particle material (c) pozzolanic reaction particles With an introductory particle size At most 1 μm (d) elements that could improve the strength of the matrix selected from a group consisting of needle-shaped or flake-shaped particles, where the particles had a mean size at most 1 mm and exist in proportion by volume between 2.5 and 35% of the total volume of the biomaterial (b) and of the pozzolanic reaction particles (c); And (e) at least one dispersant Where the combination of elements (a), (b), (c) and (d) contains at most 2 mm D75 particles and at least 200 μm (f) particle size D75. Cement type metric Where (i) the strand has a minimum length of 1 of 1 mm and a ratio of 1 / d of at least 20, where d is the diameter of the strand, (ii) the ratio R of the mean length L of The fibers per particle size D75 of the combination of elements (a), (b), (c) and (d) are at least 5 and (iii) the quantity of fibers is characteristic. Where the fiber content is less than 4% of the concrete volume. After the concrete has solidified, and (g) water where the percentage by weight of water W relative to the total weight of cement (a) and particle (c) is in the range of 8-24%. 4. Concrete of claim 3. Where (i) the particle size of the pozzolanic reaction is at most 0.5 μm, (ii) the R ratio of the mean length L of the fibers to the particle size D75 of the combination of elements (a). , (b), (c) and (d) are at least 10, (iii) the amount of fiber is characterized At the fiber content of less than 3.5% of the concrete volume after it has cured, (iv) the combination of elements (a), (b), (c) and (d) has a particle size of D75 at most 1 mm, and (v) Particle size D50, at most 150 μm. 5. Concrete of claim 1, where the toughness of the cement matrix It is at least 15J / m2. 6. Concrete of claim 5, where the toughness of the cement matrix 7. Concrete of claim 1, where particle (d) has a minimum size of 500 μm 8. Concrete of claim 1, in which particle (d) is in Proportional by volume It ranges from 5% to 25% of the total volume of the particle material (b) and the pozzolanic reaction particle (c) 9. Concrete of claim 1 where the needle-shaped particle (d) is Choose from a group Containing Wallastonite fiber Boxide fiber Mullite fiber Potashia matthenate fibers Silicon carbide fiber Cellulose fiber Or cellulose derivatives Carbon fiber Calcium phosphate fiber In particular, hydroxyapatide, HAP, calcium carbonate fiber or products. Obtained by grinding the fibers 1 0. Concrete of claim 9 Particle (d) is wallastonite fiber 1. 1. Concrete of claim 1, where needle-shaped particles (d) have the ratio of wallastonite. Length / diameter at least equal to 3 1 2. Concrete according to claim 11, where needle-shaped particles (d) have the least length / diameter ratio of 5. 1. 3. Concrete according to claim 1, which particles The scale (d) can be selected from the group. Containing mica flakes, loose powder Mixed silicate flakes (clay) vermiculite flakes Alumina scales And mixed aluminate or silicate flakes and their mixtures 1 4. Concrete according to claim 13, where particle (d) is mica flake 1. 5. Concrete according to claim 1, which At least some of the strengthening particles (d) contain organic coatings. That is a polymer on the surface of particles Which the coating Contains latex Or derived from at least one of the compounds Selected from the group Containing Polyvinyl Alcohol, Silane, Siliconate, Siloxane Resins, Poly Organosyloxane, Product from the reaction of (i) one or more carboxylic acids. Species with 3 to 22 carbon atoms, (ii) aliphatic or aromatic amines. With at least one multi-functional group or substituted amine, containing 2 to 25 carbon atoms and (iii) crosslinking agent. Which is a metal complex Water soluble containing at least one metal of choice from the group containing zinc, aluminum, titenium, copper, chromium, iron, zirconium and lead 1 6. Concrete according to claim 1, where the stress Of average bond of metal fibers in cement-type metric The rigid matrix is at least 10 Mpa 1. 7. Concrete according to claim 16, where the average bonding stress of the metal fibers in the cement matrix The rigid concrete is at least 15 Mpa 1 8. Concrete according to claim 1, whose fibers are steel fibers 1 9. Concrete according to claim 18 where fibers have an irregular geometry 2 0. Hold the 1st right where the fibers are surface treated fibers. For the purpose To increase the bond of the cement matrix fiber 2 1. Concrete according to claim 1, where the fibers are fibers that have been dropped. And accumulated with mineral compounds For the purpose of increasing the binding of fibers Cement-type matrix 2 2. Concrete according to claim 1, where fibers have length in the range of 10-30 mm 2 3. Concrete according to claim 1, where Also contains At least one type of compound To increase the bonding of fibers in Matrix 2. 4. Concrete according to claim 23, where the compound is selected from the group. Containing compounds of silica Containing mainly silica, calcium carbonate precipitated polyvinyl alcohol in solution. 2 5. Concrete according to claim 24, where the silica compound is silica precipitated. That put in amounts between 0.1 and 5 percent by weight When accounted for dry matter compared to weight Total of concrete 2 6. Concrete according to claim 25, in which precipitated silica was added to the mixture. In the form of aqueous suspension 2 7. Concrete according to claim 26, in which the aqueous suspension has - 10 to 40% solid content by weight - a viscosity below 4x10-2 P as for a shear rate of 50 S- 1 - the amount of silica Contained in the liquid on top of the suspension After cranking the center at 7500 rpm for 30 minutes, more than 50 percent by weight of Silica. 2. Concrete according to claim 1, where the ratio of 1 / of fibers is the greatest value 200 2. 9. Concrete according to claim 1, where the maximum particle size Dmax of particle material ( b) The maximum value of 6 mm 3 0. Concrete according to claim 1, where the particle material (b) is sifted sand, sieve or crushed or sand mixture 3 1. Concrete according to claim 30, which sand include Silicon sand It is a fine quartz slab composition. 3. 2. Concrete according to claim 1, which the particle material (b) offers in quantity. In the range 20 to 60% by weight of the cement matrix 3 3. Concrete according to claim 32, which particle material (b) offers in volume In the range of 25 to 50% by weight of the cement matrix 3 4. Concrete according to claim 1, in which the pozzolanic particles (c) are composed of That was chosen from a group containing silica compounds, vaporized silicas, chimney ash, and dross of air blast furnaces 3 5. Concrete according to claim 1, where percent by weight W. Against weight The aggregate of cement (a) with the pozzolanic particles (c) is between 13-20% 3 6. Concrete according to claim 1, where the concrete is pre-tensioned. No. 1 where the concrete is tensioned after 3 8. Concrete according to claim 1, where the concrete has a direct tensile strength of at least 12 Mpa 3. 9. Concrete according to claim 1, where the concrete has bending strength. 4-point (modulus of rupture) of at least 25 Mpa 4 0. Concrete according to claim 1, where concrete has a compressive strength of at least 150 Mpa 4. 1. Concrete according to claim 1, where the concrete has the energy of cracking. At least 2500 J / m2 4. 2. Concrete according to claim 1, which after the concrete has hardened the concrete Will be cured to maturity At a temperature somewhat equal to ambient temperature 4 3.Concrete according to claim 1, after which the concrete has hardened, the concrete is heat treated between 60 degrees Celsius to 100 degrees Celsius at normal pressure 4. 4. Concrete according to claim 43, the period of heat treatment Ranged from 6 hours to 4 days 4 5. Concrete according to claim 44, period of heat treatment It ranges from 6 hours to 72 hours 4. 6. Pre-mixes for the production of concrete With fibers distributed in it It consists of (a) cement (b) particle material with a maximum Dmax particle size of at most 2 mm. (C) Pozzolanic reaction particles. With an introductory particle size At most, 1 μm (d) element can be improved. Toughness of the matrix selected from a group consisting of needle-shaped or flake-shaped particles, where the particle size is at most averaging 1 mm and contained in volume proportions between 2.5 and 35% of the total volume of the particle material (b ) And of the particles of the Pozzolanic reaction (c), and (e) at least one dispersant of type 4. 7. Pre-mix of claim 46, which also contains metal fibers. With at least 2 mm of each strand length and at least a 1 / d ratio of 20, where d is the diameter of the fibers, the ratio R of the mean length L of fibers to the maximum particle size Dmax of the particle material at least. Ultimate 10 4 8. Concrete of claim 21, where the mineral compound is silica or metal phosphate.