Patent ID: 7922845
Filing Date: 2011-04-12
Classification: B32B,C04B,F16D

Abstract:
1. A method of bonding a first carbon composite brake disc part to a second carbon composite brake disc part through combustion synthesis of a reactant layer comprising titanium and carbon powder, said method comprising: providing an apparatus comprising: a housing; a first conductive press plate coupled to the housing and being electrically insulated therefrom by a high current power supply insulator and adapted to position the first carbon composite brake disc part; a second conductive press plate supported by the housing opposite the first conductive press plate and being electrically insulated from the housing by a high current power supply insulator, wherein a dielectric material is mounted between die bases in said apparatus and said conductive press plates, and wherein at least one of the first and second conductive press plates are translatable toward the opposite press plate, the first and second press plates further being adapted to align the first and second carbon composite brake disc parts therebetween, with the reactant layer being between at least a portion of surfaces of the first and second carbon composite brake disc parts to be bonded together; a clamping device operatively coupled to at least one of the first and second conductive press plates, to transmit a force to the first and second conductive press plates and thereby compressing the first and second carbon composite brake disc parts and the reactant layer between the press plates; and a power supply operatively coupled to the first and second conductive press plates to create an electric field between the first and second conductive press plates and thereby increase the temperature of the reactant layer; providing a plurality of carbon composite brake disc parts; providing said reactant layer comprising titanium and carbon powder between at least a portion of surfaces of the first and second carbon composite brake disc parts to be bonded; providing a thermal insulator and a retaining band around at least a portion of the reactant layer or the carbon composite brake disc parts; creating an electric potential across the reactant layer; pressing together the surfaces of the first and second carbon composite brake disc parts to be bonded under a force provided by said first and second conductive press plates; releasing the electric potential across the reactant layer to initiate a combustion reaction that creates a molten ceramic thereby bonding the first and second carbon composite brake disc parts together to form a brake disc; monitoring the temperature of at least one of the reactant layer or the carbon composite brake disc parts; and releasing and cooling the brake disc formed by the bonded carbon composite brake disc parts.