Amorphous metal permanent fastener utilizing a thermoplastically swaged retainer

What is claimed is: 1 . A fastener for joining work pieces, said fastener comprising: a pin including a head portion which bears against an outside face of a first work piece, and a shank portion which passes through apertures in the work pieces, where the shank portion includes locking geometric features on an outer surface thereof; and a retaining collar composed of an amorphous metal alloy, said collar including a cylindrical inner wall, where the collar is adapted to be heated into a thermoplastic material region, disposed about the shank portion of the pin, pressed against an outside face of a second work piece while the pin is pulled to apply compression to the work pieces, and radially compressed such that the cylindrical inner wall plastically deforms to engage with the locking geometric features on the shank portion of the pin. 2 . The fastener of claim 1 wherein the locking geometric features do not have continuous rotational symmetry around the outer surface, thereby preventing rotation of the retaining collar on the pin after the retaining collar has been formed onto the pin. 3 . The fastener of claim 2 wherein the locking geometric features are a plurality of interrupted circumferential grooves. 4 . The fastener of claim 2 wherein the locking geometric features are a plurality of axial grooves which do not extend to an end of the shank portion of the pin. 5 . The fastener of claim 1 wherein the retaining collar has an outer wall with a conical shape which enables an installation tool to simultaneously apply an axial force to press the collar against the second work piece and a radial compression to plastically deform the collar onto the shank portion of the pin. 6 . The fastener of claim 1 wherein the pin also includes a pulling tip at an end of the pin opposite the head portion, where the pulling tip is used to pull the pin while the retaining collar is being installed. 7 . The fastener of claim 6 wherein the pulling tip includes a circumferential undercut groove at its base which enables the pulling tip to be purposely broken off of the pin after the retaining collar has been installed. 8 . The fastener of claim 1 wherein the work pieces are composed of composite materials. 9 . The fastener of claim 8 wherein the retaining collar reaches the thermoplastic material region at a temperature of less than 220° C., where the retaining collar when heated and pressed against the second work piece does not damage the composite materials. 10 . The fastener of claim 1 wherein the pin is also composed of an amorphous metal alloy. 11 . The fastener of claim 1 wherein the head portion of the pin has a non-rotationally symmetric shape which fits into a compatible counter-sink hole in the outside face of the first work piece, thereby preventing rotation of the pin relative to the work pieces. 12 . A fastener for joining composite material work pieces, said fastener comprising: a pin including a head portion which bears against an outside face of a first work piece, a shank portion which passes through apertures in the work pieces, where the shank portion includes non-rotationally symmetric locking geometric features on an outer surface thereof, and a pulling tip at an end opposite the head portion; and a retaining collar composed of an amorphous metal alloy, said collar including a cylindrical inner wall, where the collar is adapted to be heated into a thermoplastic material region, disposed about the shank portion of the pin, pressed against an outside face of a second work piece while the pulling tip of the pin is pulled to apply compression to the work pieces, and radially compressed such that the cylindrical inner wall plastically deforms to engage with the locking geometric features on the shank portion of the pin. 13 . The fastener of claim 12 wherein the retaining collar has an outer wall with a conical shape which enables an installation tool to simultaneously apply an axial force to press the collar against the second work piece and a radial compression to plastically deform the collar onto the shank portion of the pin. 14 . The fastener of claim 12 wherein the retaining collar reaches the thermoplastic material region at a temperature of less than 220° C., where the retaining collar when heated and pressed against the second work piece does not damage the composite materials. 15 . The fastener of claim 12 wherein the head portion of the pin has a non-rotationally symmetric shape which fits into a compatible counter-sink hole in the outside face of the first work piece, thereby preventing rotation of the pin relative to the work pieces. 16 . A method for joining work pieces with an amorphous metal fastener, said method comprising: arranging the work pieces in a position to be joined, with holes in the work pieces aligned to receive the fastener; inserting a fastener pin through the holes in the work pieces until a head portion of the fastener pin bears against an outside surface of a first work piece, where a shank portion of the fastener pin extends beyond an outside surface of a second work piece, and the shank portion includes locking geometric features on an outer surface thereof; heating an amorphous metal retaining collar to a working temperature, where the working temperature causes the retaining collar to have thermoplastic material properties; placing the retaining collar over the shank portion of the fastener pin, where the retaining collar has a cylindrical inner wall which surrounds the locking geometric features on the shank portion of the pin, and a conical outer wall; and pulling the fastener pin while simultaneously applying a force to the conical outer wall of the retaining collar which counteracts the pulling of the fastener pin and also compresses the retaining collar onto the locking geometric features on the shank portion of the fastener pin. 17 . The method of claim 16 further comprising cooling the retaining collar at a rate sufficient to preserve amorphous metal material properties in the retaining collar. 18 . The method of claim 16 wherein the work pieces are composed of composite materials, and the working temperature is less than 220° C., where the retaining collar when heated and pressed against the second work piece does not damage the composite materials. 19 . The method of claim 16 wherein the head portion of the fastener pin has a non-rotationally symmetric shape which fits into a compatible counter-sink hole in the outside surface of the first work piece, thereby preventing rotation of the pin relative to the work pieces, and the locking geometric features on the outer surface of the shank portion of the fastener pin are non-rotationally symmetric, thereby preventing rotation of the retaining collar on the fastener pin after the retaining collar has been compressed onto the pin. 20 . The method of claim 16 wherein a tool which is used to compress the retaining collar onto the shank portion of the fastener pin includes a heating element, and the tool is also used to heat the retaining collar to the working temperature.