Machine tool

The invention claimed is: 1. A machine tool comprising: a first spindle for holding a workpiece; a first drive source for moving the first spindle in an axial direction; a second spindle for holding a workpiece; a second drive source for moving the second spindle in the axial direction; and a control means for controlling the rotation of the first spindle, the rotation of the second spindle and the operation of the second drive source, so as to bring the workpiece held by the first main shaft and the workpiece held by the second main shaft into contact with each other while rotating them relative to each other, thereby to carry out the friction-heating, and to stop the relative rotation of the pair of workpieces and move only the second main shaft in the axial direction while holding the first main shaft stationary, thereby to carry out friction-welding of the pair of workpieces, characterized in that: the control means is adapted to control the operation of the first drive source so as to maintain the axial position of the first spindle upon friction-welding of the pair of the workpieces, and wherein the first drive source is an electric motor, and the machine tool further comprises torque detecting means for detecting the torque applied to the first drive source, and wherein the control means is adapted to control the operation of the first drive source upon the friction-welding of the pair of workpieces, so as to resist the torque detected by the torque detecting means. 2. The machine tool according to claim 1 , wherein the inertia of a member, driven by the first drive source and moving in the axial direction together with the first spindle, as a whole, is larger than the inertia of a member driven by the second drive source and moving in the axial direction together with the second spindle, as a whole. 3. The machine tool according to claim 1 , wherein the machine tool comprises a tool that can be moved under the control by the control means, and the control means is adapted to control the rotation of the first spindle, the rotation of the second spindle and the relative movement of the tool so that, after the pair of workpieces have been friction-welded, the first spindle and the second spindle are rotated in the same direction at the same rotation speed, while the tool is moved relative to the workpieces, thereby to carry a out cutting process for cutting the workpiece by means of the tool. 4. The machine tool according to claim 1 , wherein the control means is adapted to control the operation of the second drive source so that, after stopping the relative rotation of the pair of the workpieces and while maintaining the first spindle stationary, only the second spindle is moved to an axial position predetermined in consideration of an upset distance. 5. The machine tool according to claim 2 , wherein the machine tool comprises a tool that can be moved under the control by the control means, and the control means is adapted to control the rotation of the first spindle, the rotation of the second spindle and the relative movement of the tool so that, after the pair of workpieces have been friction-welded, the first spindle and the second spindle are rotated in the same direction at the same rotation speed, while the tool is moved relative to the workpieces, thereby to carry out a cutting process for cutting the workpiece by means of the tool. 6. The machine tool according to claim 2 , wherein the control means is adapted to control the operation of the second drive source so that, after stopping the relative rotation of the pair of the workpieces and while maintaining the first spindle stationary, only the second spindle is moved to an axial position predetermined in consideration of an upset distance. 7. The machine tool according to claim 3 , wherein the control means is adapted to control the operation of the second drive source so that, after stopping the relative rotation of the pair of the workpieces and while maintaining the first spindle stationary, only the second spindle is moved to an axial position predetermined in consideration of an upset distance.