Abstract: A method for accurately depositing a required volume of solder material on a specific area of a lead frame, substrate or other part of an electronic component to be bonded by reflow of solder material to another part into a reliable, void-free connection during a subsequent assembly step comprises the following steps. Minute particles of solder material whose cumulative volume corresponds to the total volume to be deposited are loaded into a cavity cut into a fixture made from a material such as graphite. The cavity delineates the specific area of deposit. The part is then laid upon the fixture and immobilized thereon by a cover made from a material such as graphite. The fixture and its enclosed part are then subjected to solder material melting temperature under a controlled atmosphere in a furnace. The cavity is patterned and dimensioned to accommodate the right number of uniformly dimensioned particles necessary to precisely create the desired deposit of solder material.

Abstract: A method for accurately depositing a required volume of solder material on a specific area of a lead frame, substrate or other part (4) of an electronic component to be bonded by reflow of solder material to another part into a reliable, void-free connection during a subsequent assembly step comprises the following steps. Minute particles (3) of solder material whose cumulative volume corresponds to the total volume to be deposited are loaded into a cavity (2) cut into a fixture (1) made from a material such as graphite. The cavity delineates the specific area of deposit. The part (4) is then laid upon the fixture and immobilized thereon by a cover (7) made from a material such as graphite. The fixture and its enclosed part are then subjected to solder material melting temperature under a controlled atmosphere in a furnace. The cavity is patterned and dimensioned to accommodate the right number of uniformly dimensioned particles necessary to precisely create the desired deposit of solder material.

Abstract: A method for accurately depositing a required volume of solder material on a specific area of a lead frame, substrate or other part of an electronic component to be bonded by reflow of solder material to another part into a reliable, void-free connection during a subsequent assembly step comprises the following steps. Minute particles of solder material whose cumulative volume corresponds to the total volume to be deposited are loaded into a cavity cut into a fixture made from a material such as graphite. The cavity delineates the specific area of deposit. The part is then laid upon the fixture and immobilized thereon by a cover made from a material such as graphite. The fixture and its enclosed part are then subjected to solder material melting temperature under a controlled atmosphere in a furnace. The cavity is patterned and dimensioned to accommodate the right number of uniformly dimensioned particles necessary to precisely create the desired deposit of solder material.

Abstract: A ceramic metal matrix composite and copper material having a layer of ceramic metal matrix composite such as aluminum silicon carbide (Al—SiC) bonded to a layer of metal such as copper useful for forming heat-dissipating components for microelectronics concerned with lightweight, high stiffness, high thermal conductivity and compatible thermo expansion characteristics. The clad material may be formed from plurality of sucessive layers of composite and metal. The material is formed by rolling an extruded strip of Al—SiC with the metal layer. Alternately, an interim layer of aluminum, aluminum silicon or other bond-enhancing material is clad to the metal layer prior to rolling it with the composite. The interim layer is thought to form a stronger bond with the exposed aluminum matrix portion of the composites layer.