Abstract: A method of fabricating a heat sink, including the steps of providing a base plate having a plurality of grooves therein, providing a plurality of blanks each having bell-bottom shaped foot portions on opposite sides thereof, separating each blank into a pair of mirror image heat fin portions, each of the heat fin portions having one of the bell-bottom shaped foot portions and a plurality of tongues projecting therefrom, positioning the heat sink fin portions with the bell-bottom shaped foot portions in respective ones of the grooves of the base plate, and swaging the bell-bottom shaped foot portions into the grooves, thereby creating the heat sink with the tongues projecting from the base plate.

Abstract: A method of forming a high fin density heatsink from a plurality of fins each having a bottom portion of generally bell-bottom shape and a base unit of predetermined thickness having a plurality of grooves therein. The method comprises the steps of placing the plurality of fins loosely in respective ones of the grooves, and applying downward and horizontal pressure to the base unit intermediate respective ones of the fins for swaging the base unit so as to urge the fins downwardly into the respective ones of the grooves thereby creating a solid connection between the base unit and the fins with excellent thermal contact therebetween.

Abstract: An apparatus for forming a high fin density heatsink from a plurality of fins each having a bottom portion of generally bell-bottom shape and a base unit of predetermined thickness having a plurality of grooves therein. The method includes the steps of placing the plurality of fins loosely in respective ones of the grooves, and applying downward and horizontal pressure to the base unit intermediate respective ones of the fins for swaging the base unit so as to urge the fins downwardly into the respective ones of the grooves thereby creating a solid connection between the base unit and the fins with excellent thermal contact therebetween.