Friction rock bolt

1 . A friction bolt assembly arranged to frictionally engage an internal surface of a bore formed in rock strata, the assembly comprising: an elongate tube having a leading end and a trailing end; an expander mechanism located within the tube towards or at the leading end and configured to apply a radial expansion force to the tube to secure the assembly to the rock strata; and an elongate tendon extending longitudinally within the tube and connected at or towards a first end to the expander mechanism and at or towards a second end to a loading mechanism positioned at or towards the trailing end of the tube, the loading mechanism projecting radially outward at the trailing end of the tube brace against the rock strata at a region around an external end of the bore and having a main load element connected with the tendon at the second end to brace against the trailing end of the tube and by adjustment create tension in the tendon to act on the expander mechanism and provide the radial expansion force, wherein the loading mechanism includes a load absorber arranged to absorb load imposed on the loading mechanism by the rock strata and in response to deform or fail to transfer said load to said main load element. 2 . The assembly as claimed in claim 1 , wherein the load absorber includes a compressible collar positioned in contact with the main load element. 3 . The assembly as claimed in claim 2 , wherein the compressible collar is cylindrical. 4 . The assembly as claimed in claim 2 , wherein the compressible collar is at least partially conical. 5 . The assembly as claimed in claim 1 , wherein the load absorber includes a curved or bent region, said region extending in a direction axially towards the main load element. 6 . The assembly as claimed in claim 1 , wherein the load absorber includes a ring fixed to the trailing end of the tube by fixings configured to fail in response to a predetermined load imposed on the loading mechanism by the rock strata. 7 . The assembly as claimed in claim 6 , wherein the ring is spaced axially from the main load element by a gap region. 8 . The assembly as claimed in claim 6 , wherein the fixings include a welding between an outer surface of the tube and the ring. 9 . The assembly as claimed in claim 1 , wherein the loading mechanism includes a flange, plate or washer and the main load element is a nut. 10 . The assembly as claimed in claim 9 , wherein the nut is secured to the second end of the tendon by threads. 11 . The assembly as claimed in claim 9 , wherein the flange, plate or washer includes an abutment surface extending radially outward from the tube and having at least a portion facing generally towards the leading end of the tube, the abutment surface capable of being engaged by a rock plate to extend radially outward from the flange, plate or washer and to brace against the rock strata at the external end of the bore. 12 . The assembly as claimed in claim 11 , wherein the rock plate is arranged to abut against and extend radially outward from the flange, plate or washer and to brace against the rock strata at the external end of the bore. 13 . The assembly as claimed in claim 1 , wherein the tendon includes an elongate bar that is radially enlarged at or towards the second end. 14 . The assembly as claimed in claim 13 , wherein the second end of the bar includes threads, the threads provided at the radially enlarged second end. 15 . The assembly as claimed in claim 1 , wherein the tube includes a longitudinal extending primary slot. 16 . The assembly as claimed in claim 1 , wherein the load absorber and the main load element define a multi-stage load support arrangement for supporting load imposed on the loading mechanism by the rock strata. 17 . The assembly as claimed in claim 15 , wherein the expander mechanism includes at least two radially outer wedge elements positionally secured to the tube and a radially inner wedge element secured to the tendon and capable of axial movement relative to the outer wedge elements to apply the radial expansion force to the outer wedge elements. 18 . The assembly as claimed in claim 17 , wherein the tube further includes a secondary slot positioned axially at the expander mechanism such that the tube deforms radially at an axial position of the expander mechanism via the primary and secondary slots in response to axial movement of the inner wedge element and the expansion force transmitted by the outer wedge elements.