Disk device with magnetic recording media and improved impact resistance

What is claimed is: 1. A disk device comprising: a housing including a bottom wall and a cover opposing the bottom wall; a plurality of magnetic recording media disposed in the housing in a multi-layered manner to be coaxial with each other with intervals therebetween; and a plurality of spacer rings, one of the spacer rings being disposed between each adjacent pair of the plurality of magnetic recording media, at least one of an uppermost magnetic recording medium adjacent to the cover and a lowermost magnetic recording medium adjacent to the bottom wall comprising a substrate having a rigidity higher than that of substrates of the other magnetic recording media, and one or more of the plurality of spacer rings being in contact with the magnetic recording media comprising the substrate having the higher rigidity, and having a thermal expansion coefficient different from a thermal expansion coefficient of the other spacer rings. 2. The disk device of claim 1 , wherein the uppermost magnetic recording medium and the lowermost magnetic recording medium comprise the substrate having the rigidity higher than that of the substrates of the other magnetic recording media, and the spacer ring in contact with the uppermost magnetic recording medium and the spacer ring in contact with the lowermost magnetic recording medium have the thermal expansion coefficient different from the thermal expansion coefficient of the other spacer rings. 3. The disk device of claim 1 , wherein the one or more substrates having the higher rigidity is formed of a material different from a material of the substrates of the other magnetic recording media. 4. The disk device of claim 3 , wherein the thermal expansion coefficient of the one or more spacer rings brought into contact with the magnetic recording media comprising the substrate having the higher rigidity, is intermediate between a thermal expansion coefficient of the one or more substrates having the higher rigidity and a thermal expansion coefficient of the substrates of the other magnetic recording media. 5. The disk device of claim 4 , wherein the one or more substrates having the higher rigidity is formed from glass, and the substrates of the other magnetic recording media are each formed from aluminum. 6. The disk device of claim 3 , wherein a thickness of the one or more substrates having the higher rigidity is greater than a thickness of the substrates of the other magnetic recording media. 7. The disk device of claim 1 , wherein a thickness of the one or more substrates having the higher rigidity is greater than a thickness of the substrates of the other magnetic recording media. 8. The disk device of claim 1 , further comprising: a spindle motor provided on the bottom wall and including a rotatable hub engaged with the plurality of magnetic recording media and the plurality of spacer rings, an annular flange being provided at an end portion of the hub on a side of the bottom wall on which the lowermost magnetic recording medium is placed; and a clamp spring fixed to an end of the hub on a side of the cover and pressing the uppermost magnetic recording medium, wherein at least one of the clamp spring and the flange has a thermal expansion coefficient different from the thermal expansion coefficient of the other spacer rings. 9. The disk device of claim 1 , further comprising: a spindle motor provided on the bottom wall and including a rotatable hub engaged with the plurality of magnetic recording media and the plurality of spacer rings, an annular flange being provided at an end portion of the hub on a side of the bottom wall on which the lowermost magnetic recording medium is placed; and a clamp spring fixed to an end of the hub on a side of the cover and pressing the uppermost magnetic recording medium, wherein the clamp spring and the flange have a thermal expansion coefficient different from the thermal expansion coefficient of the other spacer rings.