A method for manufacturing a semiconductor device includes laminating a plurality of semiconductor wafers via an adhesive, heating such that the adhesive reaches a specific viscosity, and pressing the semiconductor wafers under a provisional pressure bonding load such that a gap between solder of through-electrodes provided to chip parts and through-electrodes of an adjacent semiconductor wafer falls within a specific range that is greater than zero, to produce a provisional pressure-bonded laminate; cutting the provisional pressure-bonded laminate with a cutter to produce a provisional pressure-bonded laminate chip part; and heating the provisional pressure-bonded laminate chip part to at least curing temperature of the adhesive and at least melting point of the solder, and pressing the provisional pressure-bonded laminate chip part under a main pressure bonding load to produce a main pressure-bonded laminate chip part such that the solder comes into contact with the through-electrodes of adjacent chip parts.

Provided is a dicing device capable of favorably performing a maintenance work, even when a workpiece is large. A dicing device includes a housing that accommodates inside thereof, a worktable configured to hold and move a workpiece, and a spindle configured to be rotatable while holding a blade, wherein the housing has: an end face provided in a moving direction of the worktable, the end face being on a side where a maintenance work of the dicing device is performed; and a slider constituting a part of the end face, and the slider is configured to be freely slidable in a direction to shorten a distance from the end face to the spindle.

A method of manufacturing semiconductor chips includes: forming grooves on a front face side of a substrate; and forming grooves on a back face side of the substrate as defined herein, and in manufacturing conditions in which a variation range of a top section of the cutting member having a tapered tip end shape with no top face in the groove width direction changes from a range included in the groove on the front face side to a range away from the groove on the front face side as wear of the cutting member advances, the use of the cutting member is stopped before the variation range changes from the range included in the groove on the front face side to the range away from the groove on the front face side.