This invention relates to a composition for repairing metallic articles which in its initial state is in the form of an adhesive, self-supporting putty, capable of being molded including 5-15% by weight of a sacrificial binder containing at least one acrylic resin and volatile solvent. The invention
This invention relates to a composition for repairing metallic articles which in its initial state is in the form of an adhesive, self-supporting putty, capable of being molded including 5-15% by weight of a sacrificial binder containing at least one acrylic resin and volatile solvent. The invention also relates to a kit for the composition and methods for repair.
대표청구항▼
What is claimed is: 1. A wide-gap filler material for forming near-net-shape repairs or joints in a metallic substrate which, in its initial state, is in the form of an adhesive, self-supporting putty, capable of being molded under manual pressure to take the shape of the joint or repair cavity, an
What is claimed is: 1. A wide-gap filler material for forming near-net-shape repairs or joints in a metallic substrate which, in its initial state, is in the form of an adhesive, self-supporting putty, capable of being molded under manual pressure to take the shape of the joint or repair cavity, and which will not thereafter flow, slump, or separate from the substrate under the force of its own weight during subsequent drying and heat treatment operations, consisting essentially of, by weight, 85-95% of a metallic or alloy powder, 5-15% of a sacrificial binder, wherein the sacrificial binder consists essentially of, by weight, 30-40% of a methacrylate polymer, ethyl methacrylate copolymer or a n-butyl methacrylate polymer, with a glass transition temperature below 20째 C., 30-45% of either a glycol ether or glycol ether acetate solvent with a vapor pressure of less than 20 mm Hg at 20째 C., 15-25% of a phthalic or adipic ester plasticizer and 1-2% of a nonyl phenol base or octyl phenol base nonionic surfactant. 2. The wide-gap filler material of claim 1, wherein the alloy powder or powders have as their basis ingredient iron, nickel or cobalt. 3. The wide-gap filler material of claim 1, wherein a two-part repair filler material is provided, the first part comprising a mixture of sacrificial binder and metallic or alloy powder having as its basis metal an element selected from the group consisting of nickel, cobalt or iron, the second part comprising a mixture of sacrificial binder and metallic or alloy powder having with as its basis metal an element selected from the group consisting of nickel, cobalt or iron, and containing a melting point depressant such as boron or silicon in a quantity substantially exceeding that present in the first part alloy powder or the substrate article, wherein separate putty components are supplied in a predetermined weight ratio. 4. The wide-gap filler material of claim 1, wherein the metallic or alloy powder and metallic or alloy substrate are selected from iron, nickel or cobalt-based superalloys and the powders have a particle size of-325 mesh.
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