Nano-Engineered Structural Joints: Materials, Procedures and Applications Thereof

摘要

A method of joining two articles through a nano-enhanced joining medium is described. Nanomaterials are applied to the surfaces of sheets made of the joining medium via casting or spraying. Said sheets with nanomaterial coatings are then placed between the joining surfaces of the articles, and then application of pressure and heating is used to form a nano-engineered structural joint at the interface of said articles. The distinctly high specific surface area of nanomaterials and the energetic preference of their functionalized surfaces for bonding facilitate the joining process. Nano-engineered structural joints complement high strength levels with desired toughness and the compliance needed for accommodating deformation (e.g. thermal expansion) mismatches of joined articles without generating high stress levels near their interface. The limited quantity (per unit joint surface area) of nanomaterials utilized in nano-engineered joints benefits their economic viability.

主权项

1. A method of joining two or more articles via slender nanomaterials embedded in a joining medium and interlinked together, the method involving:
(i) dispersion of nanomaterials comprising at least one of carbon nanotubes and nanofibers within a solvent, with the weight ratio of said nanomaterials to the solvent ranging from 0.001% to 10%, where surfaces of said nanomaterials are modified in order to facilitate their dispersion and promote their interfacial interactions; (ii) application of a coating of said solvent incorporating dispersed nanomaterials on at least one of the surfaces of at least two sheets of the joining medium using at least one of spraying and casting methods, with said sheets of the joining medium made of at least one of brazing alloys, thermoplastics and thermoset precursors, and heating the applied solvent incorporating nanomaterials in order to evaporate the solvent; (iii) insertion of said sheets of the joining medium between joining surfaces of said articles, with at least one surface coated with nanomaterials interfacing the two sheets; (iv) inserting the two sheets of said joining medium between joining surfaces of the two articles, pressing the joining surfaces with sheets inserted between them against each other, and heating the joining surfaces in order to liquefy the joining medium to wet the joining surfaces of said articles, partially or fully embed the nanomaterials within the liquefied medium, and develop at least one of physical and chemical bonds with the surfaces of joining articles and nanomaterials; and (v) cooling the joining surfaces of said articles in order to form a solid joining medium that is bonded to the joining surfaces of said articles, and is enhanced by interlinked nanomaterials which are partially or fully embedded in and bonded to said joining medium.