Method of improving characteristics of a moulded body
First Claim
1. A method of providing a metal coated article of a mold, tool or machine part which comprises forming a metal layer of a desired shape and molding a basic composition against said metal, thereby bonding said molded article to said metal layer, said basic composition comprising(A) inorganic particles of a size of from about 50 Å
- to about 0.5 u,(B) solid particles having a size of the order of 0.5-100 u, and being at least one order of magnitude larger than the respective particles stated under (A), and(C) compact-shaped solid particles of a material having a strength exceeding that of ordinary sand and stone used for ordinary concrete, typically a strength corresponding to at least one of the following criteria;
(1) a die pressure of about 30 MPa at a degree of packing of 0.70, above 50 MPa at a degree of packing of 0.75, and above 90 MPa at a degree of packing of 0.80, (on particles of the material having a size ratio between the largest and smallest particle substantially not exceeding 4 mm),(2) a compressive strength of a composite material with the particles embedded in a specified matrix exceeding 170 MPa (in case of a substantial amount of the particles being larger than 4 mm) and 200 MPa (in case of substantially all particles being smaller than 4 mm),(3) a Moh'"'"'s hardness (referring to the mineral constituting the particles) exceeding 7 and(4) a Knoop indentor hardness (referring to the mineral constituting the particles) exceeding 800, said particles having a size of 100 u-0.1 m, a liquid, and a surface-active dispersing agent, the particles (A) being homogeneously distributed in the voids between particles (B) and optionally(D) additional bodies which have at least one dimension which is at least one order of magnitude larger than the particles (A), with the proviso that when additional bodies D are not present or are present and consist of sand and/or stone, at least 20% by weight of the particles B are Portland cement particles.
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Abstract
The characteristics of surfaces of bodies made from a basic material (22) which is mouldable at low temperatures, such as concrete or concrete-like materials are improved by applying a layer of metal (12) to one or more surface parts thereof. The metal layer may be applied by moulding the basic material, optionally with reinforcements (23) against a prefabricated metal member (12) which may be a metal layer formed on a surface (21) of a model or a mould (20) whereby a metal-coated tool for casting or shaping articles corresponding to the model or mould may be made from the basic material.
The mouldable material is, in particular, a material which in its cured state comprises a coherent matrix, the matrix comprising
(A) homogenously arranged solid particles of a size of from about 50 Å to about 0.5 μm, or a coherent structure formed from such homogenously arranged particles, and
(B) densely packed solid particles having a size of the order of 0.5-100 μm and being at least one order of magnitude larger than the respective particles stated under (A), or a coherent structure formed from such densely packed particles,
the particles A or the coherent structure formed therefrom being homogenously distributed in the void volume between the particles B,
the dense packing substantially being a packing corresponding to the one obtainable by gentle mechanical influence on a system of geometrically equally shaped large particles in which locking surface forces do not have any significant effect,
optionally additionally comprising, embedded in the matrix,
(C) compact-shaped solid particles of a material having a strength exceeding that of ordinary sand and stone used for ordinary conrete. Example of such a material is one in which the particles A are silica dust having a specific surface of about 250,000 cm2 /g, the particles B are cement particles, and the bodies C are refractory grade bauxite.
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Citations
5 Claims
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1. A method of providing a metal coated article of a mold, tool or machine part which comprises forming a metal layer of a desired shape and molding a basic composition against said metal, thereby bonding said molded article to said metal layer, said basic composition comprising
(A) inorganic particles of a size of from about 50 Å - to about 0.5 u,
(B) solid particles having a size of the order of 0.5-100 u, and being at least one order of magnitude larger than the respective particles stated under (A), and (C) compact-shaped solid particles of a material having a strength exceeding that of ordinary sand and stone used for ordinary concrete, typically a strength corresponding to at least one of the following criteria; (1) a die pressure of about 30 MPa at a degree of packing of 0.70, above 50 MPa at a degree of packing of 0.75, and above 90 MPa at a degree of packing of 0.80, (on particles of the material having a size ratio between the largest and smallest particle substantially not exceeding 4 mm), (2) a compressive strength of a composite material with the particles embedded in a specified matrix exceeding 170 MPa (in case of a substantial amount of the particles being larger than 4 mm) and 200 MPa (in case of substantially all particles being smaller than 4 mm), (3) a Moh'"'"'s hardness (referring to the mineral constituting the particles) exceeding 7 and (4) a Knoop indentor hardness (referring to the mineral constituting the particles) exceeding 800, said particles having a size of 100 u-0.1 m, a liquid, and a surface-active dispersing agent, the particles (A) being homogeneously distributed in the voids between particles (B) and optionally (D) additional bodies which have at least one dimension which is at least one order of magnitude larger than the particles (A), with the proviso that when additional bodies D are not present or are present and consist of sand and/or stone, at least 20% by weight of the particles B are Portland cement particles. - View Dependent Claims (2, 3, 4, 5)
- to about 0.5 u,
Specification