Abstract: An absolute thickness distribution cannot be accurately calculated with a conventional technique. A sensor device is provided that includes a plurality of magnetic sensors arranged to face an outer circumference surface of a pipeline and ultrasonic sensors arranged to face the outer circumference surface and measure a thickness of the pipeline in a measurement region in which the plurality of magnetic sensors measure a magnetic field, the ultrasonic sensors being less than the plurality of magnetic sensors.

Abstract: The present invention provides a dicing die bond film in which yielding and breaking of the dicing film are prevented and in which the die bond film can be suitably broken with a tensile force. In the dicing die bond film of the present invention, the tensile strength of the contact part in which the outer circumference of the push-up jig contacts the dicing film at 25° C. is 15 N or more and 80 N or less and the yield point elongation is 80% or more, the tensile strength of the wafer bonding part of the dicing film at 25° C. is 10 N or more and 70 N or less and the yield point elongation is 30% or more, [(the tensile strength of the contact part)?(the tensile strength of the wafer bonding part)] is 0 N or more and 60 N or less, and the breaking elongation rate of the die bond film at 25° C. is more than 40% and 500% or less.

Abstract: The present invention provides a laminated sheet that can prevent the decrease in adhering strength of a resin composition layer and the deterioration in electrical reliability and in which a back grinding tape can be peeled from a plurality of semiconductor elements collectively after dicing. The laminated sheet has a back grinding tape in which a pressure-sensitive adhesive layer is formed on a base, and a resin composition layer that is provided on the pressure-sensitive adhesive layer of the back grinding tape, wherein the tensile modulus of the pressure-sensitive adhesive layer at 23° C. is 0.1 to 5.0 MPa, and the T-peeling strength between the pressure-sensitive adhesive layer and the resin composition layer is 0.1 to 5 N/20 mm at 23° C. and 300 mm/min.

Abstract: The present invention provides a laminated sheet that can prevent the decrease in adhering strength of a resin composition layer and the deterioration in electrical reliability and in which a back grinding tape can be peeled from a plurality of semiconductor elements collectively after dicing. The laminated sheet has a back grinding tape in which a pressure-sensitive adhesive layer is formed on a base, and a resin composition layer that is provided on the pressure-sensitive adhesive layer of the back grinding tape, wherein the tensile modulus of the pressure-sensitive adhesive layer at 23° C. is 0.1 to 5.0 MPa, and the T-peeling strength between the pressure-sensitive adhesive layer and the resin composition layer is 0.1 to 5 N/20 mm at 23° C. and 300 mm/min.

Abstract: The present invention provides a dicing die bond film in which yielding and breaking of the dicing film are prevented and in which the die bond film can be suitably broken with a tensile force. In the dicing die bond film of the present invention, the tensile strength of the contact part in which the outer circumference of the push-up jig contacts the dicing film at 25° C. is 15 N or more and 80 N or less and the yield point elongation is 80% or more, the tensile strength of the wafer bonding part of the dicing film at 25° C. is 10 N or more and 70 N or less and the yield point elongation is 30% or more, [(the tensile strength of the contact part)?(the tensile strength of the wafer bonding part)] is 0 N or more and 60 N or less, and the breaking elongation rate of the die bond film at 25° C. is more than 40% and 500% or less.

Abstract: The present invention provides a thermosetting type die bond film that can be preferably broken by tensile force. It is a thermosetting type die bond film used for a method of obtaining a semiconductor element from a semiconductor wafer by forming a reforming region by irradiating the semiconductor wafer with a laser beam and then breaking the semiconductor wafer in the reforming region or a method of obtaining a semiconductor element from a semiconductor wafer by forming grooves that do not reach the backside of the semiconductor wafer on a surface thereof and then exposing the grooves from the backside by grinding the backside of the semiconductor wafer, wherein the elongation rate at break at 25° C. before thermal curing is larger than 40% and 500% or less.

Abstract: There is provided a new film for manufacturing a semiconductor device that is superior to prevent contamination of a semiconductor chip having an excellent balance of holding power during dicing a semiconductor wafer even where the semiconductor wafer is thin, peeling property when peeling the semiconductor chip that is obtained by dicing together with its adhesive layer, and low contamination property in which there is no attachment of cutting debris to the semiconductor chip. A film for manufacturing a semiconductor device that is used when manufacturing a semiconductor device has a base layer, a first pressure-sensitive adhesive layer that is provided on the base layer, a radiation curing-type second pressure-sensitive adhesive layer that is provided on the first pressure-sensitive adhesive layer and cured by radiation irradiation in advance, and an adhesive layer that is provided on the second pressure-sensitive adhesive layer.

Abstract: An object of the present invention is to provide a thermosetting die-bonding film with which a die-bonding film is suitably broken with a tensile force. The object is achieved by a thermosetting die-bonding, film at least having an adhesive layer that is used to fix a semiconductor chip to an adherend, in which the breaking energy per unit area is 1 J/mm2 or less and the elongation at break is 40% or more to 500% or less at room temperature before thermal setting.