Diffusion bonded fastener assembly

We claim: 1 . A method of installing a fastener assembly on a substrate having a longitudinally oriented substrate aperture extending through a thickness thereof between proximal and distal substrate surfaces, the method comprising: providing a bolt having a shaft and a head, the shaft having proximal and distal shaft ends longitudinally separated by a shaft body, the head being located at the proximal shaft end, and at least a bondable portion of the shaft body spaced from the proximal shaft end being at least partially made of a bondable material; inserting the distal shaft end of the bolt longitudinally into the substrate aperture from the proximal substrate surface; extending the distal shaft end of the bolt from the distal substrate surface with at least a portion of the bondable portion of the shaft body being located distal to the distal substrate surface; providing at least one collar having proximal and distal collar ends longitudinally separated by a collar body, the collar body including a longitudinally oriented collar aperture extending through a thickness thereof between proximal and distal collar surfaces, the collar aperture defining an inner collar wall having a bondable portion which is at least partially made of a bondable material; inserting the distal shaft end of the bolt longitudinally into the collar aperture from the proximal collar surface; extending the distal shaft end of the bolt into the collar aperture with the bondable portion of the shaft body being at least partially located lateral to the bondable portion of the inner collar wall; activating the bondable material of both of the inner collar wall and the shaft body; and bonding the shaft and the collar into an integral fastener assembly structure through activation of the bondable material. 2 . The method of claim 1 , wherein inserting the distal shaft end of the bolt longitudinally into the collar aperture from the proximal collar surface includes bringing the proximal collar surface and the distal substrate surface into compressive contact. 3 . The method of claim 1 , including: providing a spring washer having a spring washer aperture extending longitudinally therethrough; and inserting the shaft into the spring washer aperture to interpose the spring washer longitudinally between the inner collar wall and the distal substrate surface. 4 . The method of claim 1 , inserting the distal shaft end of the bolt longitudinally into the substrate aperture from the proximal substrate surface includes applying a longitudinally tensile force to the shaft to reduce a lateral cross-sectional area of the shaft and thereby facilitate the insertion of at least a portion of the shaft through the substrate aperture. 5 . The method of claim 4 , including, once at least a portion of the shaft is located laterally within the substrate aperture, releasing the longitudinally tensile force from the shaft to facilitate an interference fit between the shaft and an inner wall of the substrate aperture. 6 . The method of claim 4 , wherein providing a bolt having a shaft and a head includes providing a pulling section at the distal shaft end and including: applying a longitudinally tensile force to the shaft via interaction of a tension source with the pulling section; with the longitudinally tensile force, reducing a lateral cross-sectional area of the shaft and thereby facilitate the insertion of at least a portion of the shaft through the substrate aperture. 7 . The method of claim 6 , including, once at least a portion of the shaft is located laterally within the substrate aperture, releasing the longitudinally tensile force from the shaft to facilitate an interference fit between the shaft and an inner wall of the substrate aperture. 8 . The method of claim 7 , including, once the interference fit is established between the shaft and an inner wall of the substrate aperture, removing the pulling section from the distal shaft end. 9 . The method of claim 1 , including thermally insulating the proximal collar surface from the distal substrate surface during activation of the bondable material. 10 . A fastener assembly, comprising: a bolt having a shaft and a head, the shaft having proximal and distal shaft ends longitudinally separated by a shaft body, the head being located at the proximal shaft end, and at least a bondable portion of the shaft body spaced from the proximal shaft end being at least partially made of a bondable material; and at least one collar having proximal and distal collar ends longitudinally separated by a collar body, the collar body including a longitudinally oriented collar aperture extending through a thickness thereof between proximal and distal collar surfaces, the collar aperture defining an inner collar wall having a bondable portion which is at least partially made of a bondable material; wherein at least the bondable portion of the shaft body is located inside the collar aperture, laterally adjacent to the bondable portion of the inner collar wall, and the bondable material of both of the inner collar wall and the shaft body has been activated to bond the shaft and the collar into an integral fastener assembly structure. 11 . The fastener assembly of claim 10 , wherein a longitudinally tensile force is selectively applied to the shaft during placement of the shaft at least partially within the collar to facilitate an interference fit between the shaft and the inner collar wall. 12 . The fastener assembly of claim 11 , including a pulling section located at the distal shaft end for transferring the longitudinally tensile force to the shaft. 13 . The fastener assembly of claim 10 , including a spring washer having a spring washer aperture extending longitudinally therethrough, the shaft body extending through the spring washer aperture to interpose the spring washer longitudinally between the inner collar wall and the head of the bolt. 14 . The fastener assembly of claim 10 , including a substrate at least partially surrounding the shaft body between the collar and the head when the bondable material of both of the inner collar wall and the shaft body has been activated to bond the shaft and the collar into an integral fastener assembly structure. 15 . A mechanical assembly, comprising: a fastener assembly, including a bolt having a shaft and a head, the shaft having proximal and distal shaft ends longitudinally separated by a shaft body, the head being located at the proximal shaft end, and at least a bondable portion of the shaft body spaced from the proximal shaft end being at least partially made of a bondable material, and at least one collar having proximal and distal collar ends longitudinally separated by a collar body, the collar body including a longitudinally oriented collar aperture extending through a thickness thereof between proximal and distal collar surfaces, the collar aperture defining an inner collar wall having a bondable portion which is at least partially made of a bondable material; and at least one substrate having a longitudinally oriented substrate aperture extending through a thickness thereof between proximal and distal substrate surfaces, the shaft body of the bolt being located at least partially laterally within the substrate aperture with the distal shaft end of the bolt extending from the distal substrate surface with at least a portion of the bondable portion of the shaft body being located distal to the distal substrate surface; wherein the shaft body of the bolt is located at least partially laterally within the collar aperture with the