Implementations of methods of cutting a semiconductor substrate may include: aligning a saw blade substantially perpendicularly with a crystal plane of a non-cubic crystalline lattice of a semiconductor substrate and cutting through the semiconductor substrate at an angle substantially perpendicular with the crystal plane of the non-cubic crystalline lattice of the semiconductor substrate.

Implementations of methods of cutting a semiconductor substrate may include: aligning a saw blade substantially perpendicularly with a crystal plane of a non-cubic crystalline lattice of a semiconductor substrate and cutting through the semiconductor substrate at an angle substantially perpendicular with the crystal plane of the non-cubic crystalline lattice of the semiconductor substrate.

An accessory for a power tool includes a blade and a coupling. The coupling includes a blade portion, a tool portion, and a transition. The blade portion is fixedly coupled to the blade. The tool portion is configured to be removably coupled to the power tool. The tool portion also includes an opening. The transition extends between the blade portion and the tool portion, and the transition includes a first transition region, where the transition intersects with the blade portion, and a second transition region, where the transition intersects with the tool portion. The first transition region includes a first arc having a center that is arranged between the first arc and the opening, and the second transition region includes a second arc having a center that is arranged between the second arc and the opening.

An accessory for a power tool includes a blade and a coupling. The coupling includes a blade portion, a tool portion, and a transition. The blade portion is fixedly coupled to the blade. The tool portion is configured to be removably coupled to the power tool. The tool portion also includes an opening. The transition extends between the blade portion and the tool portion, and the transition includes a first transition region, where the transition intersects with the blade portion, and a second transition region, where the transition intersects with the tool portion. The first transition region includes a first arc having a center that is arranged between the first arc and the opening, and the second transition region includes a second arc having a center that is arranged between the second arc and the opening.

A bowstring which is attached to a recurve or other long bow providing a section having an abrasive circular margin used to cut wood or other substance in an emergency replacing the bowstring of the bow utilized for shooting an arrow.

A bowstring which is attached to a recurve or other long bow providing a section having an abrasive circular margin used to cut wood or other substance in an emergency replacing the bowstring of the bow utilized for shooting an arrow.

A hacksaw multitool is provided. The device includes an elongated body having a first end opposite a second end. A bit receptacle is disposed within the first end. A plurality of interchangeable bits is removably securable within the bit receptacle. A channel is disposed within an upper side of the elongated body, wherein an arm is pivotally affixed within the channel at a proximal end of the arm. A saw blade is pivotally affixed to a distal end of the arm, wherein the saw blade is slidably engaged with the channel. The saw blade is selectively movable between a deployed position and a stowed position via actuation of the arm. The saw blade is disposed perpendicular to a longitudinal axis of the elongated body when in the deployed position and the saw blade is disposed entirely within the channel when in the stowed position.

A motor housing of housings forming an outer casing of a tool main body is provided with two battery attachment portions allowing attachment of rechargeable batteries. The two battery attachment portions are configured as slide attachment type battery attachment portions. The two battery attachment portions are suited to slide attachment type rechargeable batteries that are attached through sliding. The two rechargeable batteries are attached in the right-left direction of the tool main body so that the two rechargeable batteries can be arranged side by side in the direction in which the tool main body extends.

A motor housing of housings forming an outer casing of a tool main body is provided with two battery attachment portions allowing attachment of rechargeable batteries. The two battery attachment portions are configured as slide attachment type battery attachment portions. The two battery attachment portions are suited to slide attachment type rechargeable batteries that are attached through sliding. The two rechargeable batteries are attached in the right-left direction of the tool main body so that the two rechargeable batteries can be arranged side by side in the direction in which the tool main body extends.

A foreign body removing device includes a foreign body removing tool for removing a foreign body that has adhered to a surface of a workpiece. This foreign body removing tool includes: a grip to be grasped by a worker; a blade that contacts the foreign body; and an airflow delivering portion for delivering compressed gas that has been supplied from a compressed gas supply source, as an airflow contacting the blade.