The invention relates to a flat woven carpet tile (1) with a warp direction and a weft direction. The carpet tile (1) has three or more edges extending along a circumference of the carpet tile. The carpet tile comprises a plurality of indentations (12) and protrusions (13) along all edges. The indentations (12) and protrusions (13) are shaped, dimensioned and located so that the carpet tile (1) is adapted to be joined with abutting identically shaped carpet tiles by mutual interlocking of pairs of mating indentations and protrusions along all the edges in order to form a seamless and coherent carpet. At least some of the protrusions (13) comprise transversely extending gripping elements (14) and the mating indentations (12) comprise corresponding transversely extending notches (15). The gripping elements (14) and notches (15) are dimensioned so that a good interlocking is ensured even if a pulling force is applied in a plane of the carpet tiles in a direction in which the pulling force would otherwise pull the carpet tiles apart. The present invention also relates to a method of manufacturing such a carpet tile, and in particular a method comprising use of laser cutting.

A new and improved microfabrication device, microfabrication method, transfer mold, and transfer object that can suppress a defect are provided. A microfabrication device comprises a tool mounting portion, a predetermined cutting tool, an oscillator, and a controller, wherein the controller performs a cutting process to satisfy at least one of: a cutting condition (1) that oscillations at a start point and an end point of each set are in phase with each other; and a cutting condition (2) that oscillations of the sets are in phase with each other.

A new and improved microfabrication device, microfabrication method, transfer mold, and transfer object that can suppress a defect are provided. A microfabrication device comprises a tool mounting portion, a predetermined cutting tool, an oscillator, and a controller, wherein the controller performs a cutting process to satisfy at least one of: a cutting condition (1) that oscillations at a start point and an end point of each set are in phase with each other; and a cutting condition (2) that oscillations of the sets are in phase with each other.

A punch for punching a sheet of material, the punch having a body formed with a fissure for receiving the sheet of material, a pivot shaft defining a pivot point, and a lever pivotably mounted about said pivot shaft has an open position and a closed position. A block is provided which is positionable between the lever and the body. The body is provided with longitudinal support ridges and the lever is provided with side ridges, with the pivot point positioned in substantially the same plane as the longitudinal support ridge so that when the punch is closed, the side ridges of the lever pass outside of the support ridges of the body in a nesting relationship, allowing the punch to form a flat profile when closed.

A punch for punching a sheet of material, the punch having a body formed with a fissure for receiving the sheet of material, a pivot shaft defining a pivot point, and a lever pivotably mounted about said pivot shaft has an open position and a closed position. A block is provided which is positionable between the lever and the body. The body is provided with longitudinal support ridges and the lever is provided with side ridges, with the pivot point positioned in substantially the same plane as the longitudinal support ridge so that when the punch is closed, the side ridges of the lever pass outside of the support ridges of the body in a nesting relationship, allowing the punch to form a flat profile when closed.

A conveyor system 24 carries work items, such as flexible, pliable, food products 22, through a scanning system 28 which generates data pertaining to various physical parameters of the food products. Thereafter, the food products are transported through a processing station which may be in the form of a portioning system 30. Next, the portioned food products are transported to a harvesting system 32 utilizing a actuator 34 to unload the food product portions 36 by vacuuming the portions into a nozzle 90. Such food products are transported to one or more desired locations through a hose/tube connected to a nozzle or may be launched through the air in a trajectory aimed at the desired placement location.

A conveyor system 24 carries work items, such as flexible, pliable, food products 22, through a scanning system 28 which generates data pertaining to various physical parameters of the food products. Thereafter, the food products are transported through a processing station which may be in the form of a portioning system 30. Next, the portioned food products are transported to a harvesting system 32 utilizing a actuator 34 to unload the food product portions 36 by vacuuming the portions into a nozzle 90. Such food products are transported to one or more desired locations through a hose/tube connected to a nozzle or may be launched through the air in a trajectory aimed at the desired placement location.

A stretch film roll comprises a wound stretch film web section having longitudinal edges that are non-linear, where the stretch film roll comprises a cylindrical central portion and tapered end portions.

A stretch film roll comprises a wound stretch film web section having longitudinal edges that are non-linear, where the stretch film roll comprises a cylindrical central portion and tapered end portions.

A roll of sanitary tissue product that includes a shaped line of weakness, wherein the roll of sanitary tissue product exhibits a roll compressibility of from about 7%, and the sanitary tissue product has a Full Sheet Average Trapezoidal Tear Strength of about 8 g to about 20 g, as measured by the Full Sheet Average Trapezoidal Tear Force Method.