Grinding apparatus and grinding method

What is claimed is: 1. A grinding apparatus to grind a workpiece by rotating the workpiece held by main spindles and a grinding wheel held by a wheel spindle, and by relatively moving the grinding wheel toward and away from the workpiece, the grinding apparatus comprising: a first detector configured to detect a rotational phase of the workpiece during grinding; a second detector configured to detect a grinding resistance moment at a grinding point between the grinding wheel and the workpiece during grinding; a storage unit configured to store the grinding resistance moment in a manner associated with the detected, rotational phase; and a determination unit configured to determine a slip between the workpiece and the main spindles, based on: the detected grinding resistance moment at a current rotational phase during grinding, and on the grinding resistance moment at the same rotational phase as the current rotational phase at a previous time during grinding. 2. The grinding apparatus according to claim 1 , wherein, when the grinding wheel and the main spindles relatively move at a constant speed, the determination unit is configured to compare the current grinding resistance moment with the previous grinding resistance moment, and, when the current grinding resistance moment is lower than the previous grinding resistance moment, to determine that the slip has occurred between the workpiece and the main spindles. 3. The grinding apparatus according to claim 1 , wherein, when the grinding wheel and the main spindles relatively move at a constant speed, the determination unit is configured to compare the current grinding resistance moment with a corrected grinding resistance moment obtained by multiplying the previous grinding resist, moment by a constant smaller than one, and, when the current grinding resistance moment is lower than the corrected grinding resistance moment, to determine that the slip has occurred between the workpiece and the main spindles. 4. The grinding apparatus according to claim 1 , wherein the second detector is configured to detect an elastic wave emitted from the workpiece or the grinding wheel, and to detect the grinding resistance moment based on the detected elastic wave. 5. The grinding apparatus according to claim 1 , wherein the second detector is configured to detect a strain of a holding unit holding the workpiece, and to detect the grinding resistance moment based on the detected strain. 6. The grinding apparatus according to claim 1 , further comprising a holding unit configured to hold the workpiece, and to transmit the rotation thereto with a frictional force. 7. The grinding apparatus according to claim 1 , wherein the grinding apparatus is configured to grind the workpiece by infeeding the grinding wheel into the workpiece in a predetermined rotational phase range in one rotation of the workpiece, and by stopping infeeding the grinding wheel into the workpiece in a rotational phase range other than the predetermined rotational phase range. 8. A grinding method for grinding a workpiece by rotating the workpiece held by main spindles and a grinding wheel held by a wheel spindle, and by relatively moving the grinding wheel toward and away from the workpiece, the grinding method comprising: a first detection step of detecting a rotational phase of the workpiece during grinding; a second detection step of detecting a grinding resistance moment at a grinding point between the grinding wheel and the workpiece during grinding; a storage step of storing the detected grinding resistance moment in a manner associated with the rotational phase; and a determination step of determining a slip between the workpiece and the main spindles based on the detected grinding resistance moment at a current rotational phase during grinding, and on the grinding resistance moment at the same rotational phase as the current rotational phase at a previous time during grinding.