Magnetic disk device and method for manufacturing magnetic disk device

The invention claimed is: 1. A magnetic disk device comprising: a plurality of disk-shaped magnetic disks, each including a through-hole in a center section thereof; a spacer that is disposed among the magnetic disks and that includes a through-hole in a center section thereof; a hub inserted into the through-holes of the magnetic disks and the spacer; a clamp having a disk body portion, an annular flange portion having a distal surface and extending from the disk body portion, and a protrusion extending from the distal surface of the annular flange portion, the protrusion having a planar surface pressing and holding the magnetic disks and the spacer; and a plurality of fastening members, each fastening member of the plurality of fastening members fastening the clamp to the hub, wherein the clamp is fastened to the hub by the plurality of fastening members with a torque of from 5 cN·m to 45 cN·m; and a first contact length in a radial direction and defined by the planar surface between a first magnetic disk of the plurality of magnetic disks and the clamp is greater than or equal to ½ a second contact length in the radial direction and defined by contacting surfaces between the first magnetic disk of the plurality of magnetic disks and the spacer. 2. The magnetic disk device according to claim 1 , wherein the clamp is fastened to the hub by the plurality of fastening members with a torque of from 20 cN·m to 45 cN·m. 3. The magnetic disk device according to claim 1 , wherein the clamp is fastened to the hub by the plurality of fastening members with a torque of from 20 cN·m to 35 cN·m. 4. The magnetic disk device according to claim 1 , wherein each of the magnetic disks has a size of an inner diameter of 25 mm, an outer diameter of from 95 mm to 97 mm, and a thickness of 0.35 mm to 0.635 mm, the spacer has a size of an inner diameter of 25 mm, an outer diameter of from 32 mm to 33 mm, and a thickness of from 1.6 mm to 1.8 mm, and a distance from a center of each fastening member of the plurality of fastening members to a protrusion center provided on the clamp is 5 mm. 5. The magnetic disk device according to claim 1 , wherein a plurality of spacers is stacked and layered between the magnetic disks. 6. The magnetic disk device according to claim 1 , wherein a plurality of spacers is stacked and layered between a magnetic disk, of the magnetic disks, contacting the clamp and a magnetic disk adjacent to the magnetic disk. 7. The magnetic disk device according to claim 1 , wherein each of the magnetic disks has a thickness of 0.48 mm or less. 8. The magnetic disk device according to claim 1 , wherein each of the magnetic disks has a thickness of 0.36 mm or less. 9. A method for manufacturing a magnetic disk device including a plurality of disk-shaped magnetic disks, each including a through-hole in a center section thereof, a spacer that is disposed among the magnetic disks and that includes a through-hole in a center section thereof, a hub inserted into the through-holes of the magnetic disks and the spacer, a clamp having a disk body portion, an annular flange portion having a distal surface and extending from the disk body portion, and a protrusion extending from the distal surface of the annular flange portion, the protrusion having a planar surface pressing and holding the magnetic disks and the spacer, the planar surface of the protrusion contacting a first magnetic disk of the plurality of magnetic disks and extending parallel to the first magnetic disk of the plurality of magnetic disks when the clamp is fastened to the hub, and a plurality of fastening members, each fastening member of the plurality of fastening members fastening the clamp to the hub, the method comprising: fastening the clamp to the hub by the plurality of fastening members with a torque of from 5 cN·m to 45 cN·m. 10. A magnetic disk device comprising: a plurality of disk-shaped magnetic disks, each including a through-hole in a center section thereof; a spacer that is disposed among the magnetic disks and that includes a through-hole in a center section thereof; a hub inserted into the through-holes of the magnetic disks and the spacer; a clamp pressing and holding the magnetic disks and the spacer, the clamp having a disk body portion, an annular flange portion having a distal surface and extending from the disk body portion, and a protrusion extending from the distal surface of the annular flange portion, the protrusion having a planar surface for contacting a magnetic disk of the plurality of disk-shaped magnetic disks; and a fastening member that fastens the clamp to the hub, wherein the clamp is fastened to the hub by the fastening member with a torque of from 5 cN·m to 45 cN·m; and wherein the planar surface of the protrusion contacts a first magnetic disk of the plurality of magnetic disks and extends parallel to the first magnetic disk of the plurality of magnetic disks when the clamp is fastened to the hub. 11. The magnetic disk device according to claim 10 , wherein the protrusion defines a gap between the clamp and the magnetic disk of the plurality of magnetic disks at an inner circumference of the clamp.