An object of the present invention is to provide an ultrasonic bonding tool capable of bonding a lead wire, without any trouble, even to a surface of a thin-film base having a plate thickness of 2 mm or less such as a glass substrate. In the present invention, a surface portion of a chip portion (1c) of an ultrasonic bonding tool (1) used in an ultrasonic bonding apparatus has a plurality of planar portions (10) formed so as to be separated from one another, and a plurality of concavities (11) formed between the plurality of planar portions. Each of the plurality of planar portions (10) has a flatness of 2 m or less.

A device for cutting a mat or panel made of mineral wool or a board or panel made of porous construction material, including a system for moving the mat or panel made of mineral wool or the board or panel made of porous construction material, which includes at least one conveyor, capable of moving along a direction, an endless diamond element designed to cut the mat or panel made of mineral wool or the board or panel made of porous construction material, a device for running the endless diamond element in a direction perpendicular to the direction of movement of the mat or panel made of mineral wool or the board or panel made of porous construction material, the endless diamond element being an endless diamond wire, an endless diamond cable or an endless diamond strip.

An abrasive article including a substrate having an elongated body, a tacking layer overlying the substrate, and a first type of abrasive particle overlying the tacking layer and defining a first abrasive particle concentration at least about 10 particles per mm of substrate.

A wire saw apparatus including: a wire row formed of a wire wound around a plurality of wire guides and reciprocatively travels in an axial direction; a nozzle from a coolant or slurry is supplied to the wire; and a workpiece feed mechanism presses a held workpiece against the wire row, the wire saw apparatus slice the workpiece into a wafer shape by pressing the workpiece held by the workpiece feed mechanism against the wire row and feeding it for slicing while supplying the coolant or the slurry from the nozzle to the wire, the wire saw apparatus nozzle is arranged above the wire row to be orthogonal to the wire row, and windbreak plates are arranged on both left and right sides of the arranged nozzle seen from an axial direction.

A method for slicing an ingot with a wire saw, comprising: forming a wire row by a wire spirally wound between a plurality of wire guides and configured to travel in an axial direction of the wire; feeding an ingot held with a workpiece-feeding mechanism to the wire row for slicing; and slicing the ingot into a plurality of wafers, while supplying a slurry to a contact portion between the ingot and the wire, wherein a warp direction in a wire travelling direction of a wafer obtained in previous ingot slicing is checked in advance, and the ingot is then sliced under a condition that a warp direction in a workpiece feeding direction of a wafer to be obtained matches the checked warp direction in the wire travelling direction, so that the wafers have identical warp directions in the workpiece feeding direction and in the wire travelling direction.

A method for slicing an ingot with a wire saw, comprising: forming a wire row by a wire spirally wound between a plurality of wire guides and configured to travel in an axial direction of the wire; feeding an ingot held with a workpiece-feeding mechanism to the wire row for slicing; and slicing the ingot into a plurality of wafers, while supplying a slurry to a contact portion between the ingot and the wire, wherein a warp direction in a wire travelling direction of a wafer obtained in previous ingot slicing is checked in advance, and the ingot is then sliced under a condition that a warp direction in a workpiece feeding direction of a wafer to be obtained matches the checked warp direction in the wire travelling direction, so that the wafers have identical warp directions in the workpiece feeding direction and in the wire travelling direction.

A method for slicing a workpiece using a wire saw which includes wire row formed by winding a fixed abrasive grain wire having abrasive grains secured to a surface around a plurality of grooved rollers, the method including feeding a columnar workpiece to wire row for slicing while allowing fixed abrasive grain wire to reciprocate and travel in an axial direction, thereby slicing the workpiece at a plurality of positions aligned in axial direction at same time. After end of slicing the workpiece, the fixed abrasive grain wire is rewound from position at the end of slicing the workpiece by length of or more and or less of the fixed abrasive grain wire fed's length from start of slicing when the workpiece and wire row begin to contact with each other to the end of slicing the workpiece, and then the workpiece is drawn out of wire row.

A spool of saw wire is disclosed. The saw wire is wound on the core of the spool (718). The saw wire is made of steel wire (406) wherein two or more crimp deformations are implemented. Each of said two or more crimp deformations has a crimp direction that is perpendicular to the longitudinal axis. Each of the crimp directions is different from the other crimp directions. The saw wire on the spool comprises a number of elastic rotations per unit length applied in the elastic rotation direction. The spool with saw wire can give excellent processability in the sawing process.

A spool of saw wire is disclosed. The saw wire is wound on the core of the spool (718). The saw wire is made of steel wire (406) wherein two or more crimp deformations are implemented. Each of said two or more crimp deformations has a crimp direction that is perpendicular to the longitudinal axis. Each of the crimp directions is different from the other crimp directions. The saw wire on the spool comprises a number of elastic rotations per unit length applied in the elastic rotation direction. The spool with saw wire can give excellent processability in the sawing process.

A method for slicing a workpiece with a wire saw which includes a wire row formed by winding a fixed abrasive grain wire having abrasive grains secured to a surface thereof around multiple grooved rollers, the method including feeding a workpiece to the wire row for slicing while allowing the fixed abrasive grain wire to reciprocatively travel in an axial direction thereof, thereby slicing the workpiece at multiple positions aligned in an axial direction of the workpiece simultaneously. The method includes: supplying a coolant for workpiece slicing onto the wire row when the workpiece is sliced with the fixed abrasive grain wire; and supplying a coolant for workpiece drawing, which differs from and has a higher viscosity than the coolant for workpiece slicing, onto the wire row when the workpiece is drawn out from the wire row after the slicing of the workpiece.