A crown reinforcement of a tyre includes at least one crown triangulation belt having a given width value (R). The belt essentially includes elementary widths each having a given width value (B). Each of the elementary widths has a flattened cross section and forms an angle () with a circumferential direction of the tyre, the angle () being between 10 and 80. Adjacent elementary widths, which are positioned directly next to each other, are separated by a groove of a given width value (j) and are connected to each other by one or more weak bridges.

Methods and equipment for producing shaped food products having large amplitudes, for example, sliced, shredded, and/or strip-cut food products. The methods and equipment utilize a cutting apparatus having at least two sequential knives at different radial positions in reference to radial distances of the sequential knives in radial directions of the cutting apparatus. Each sequential knife has a corrugated shape comprising peaks and valleys, and the sequential knives are arranged to be in phase or out of phase alignment with each other.

A grate for use in forming potato stick products having a wavy cross-sectional shape is provided. The grate includes a plurality of alternating convex segments and concave segments extending in a repeating pattern along a length of the grate. A plurality of spaced apart teeth extends from the plurality of convex segments and the plurality of concave segments. A distance between the spaced apart teeth defines a width of the potato stick products.

Methods and equipment for producing shaped food products having large amplitudes, for example, sliced, shredded, and/or strip-cut food products. The methods and equipment utilize a cutting apparatus having at least two sequential knives at different radial positions in reference to radial distances of the sequential knives in radial directions of the cutting apparatus. Each sequential knife has a corrugated shape comprising peaks and valleys, and the sequential knives are arranged to be in phase or out of phase alignment with each other.

Disclosed herein is a method of manufacturing two kinds of rectangular unit pieces having different optical properties from a base material sheet through cutting using a cutting frame including a cutter, the method including preparing a base material sheet having a large length to width ratio, the base material sheet exhibiting optical directivity in a longitudinal direction or in a lateral direction, preparing a cutting frame including at least on first cutter for cutting a first unit piece exhibiting optical directivity parallel to that of the base material sheet and at least one second cutter for cutting a second unit piece exhibiting optical directivity perpendicular to that of the base material sheet, the first cutter and the second cutter being arranged adjacent to each other in the lateral direction of the base material sheet, and sequentially cutting the base material sheet using the cutting frame in the longitudinal direction of the base material sheet to simultaneously manufacture the first unit piece and the second unit piece.

A grate for use in forming potato stick products having a wavy cross-sectional shape is provided. The grate includes a plurality of alternating convex segments and concave segments extending in a repeating pattern along a length of the grate. A plurality of spaced apart teeth extends from the plurality of convex segments and the plurality of concave segments. A distance between the spaced apart teeth defines a width of the potato stick products.

A grate for use in forming potato stick products having a wavy cross-sectional shape is provided. The grate includes a plurality of alternating convex segments and concave segments extending in a repeating pattern along a length of the grate. A plurality of spaced apart teeth extends from the plurality of convex segments and the plurality of concave segments. A distance between the spaced apart teeth defines a width of the potato stick products.

In order to improve a saw device with a feed axis for a workpiece to be sawed, with a first saw unit to saw the workpiece in a first sawing plane extending transversely to the feed axis and with a second saw unit to saw the workpiece in a second sawing plane extending transversely to the feed axis, with a central device region arranged between the sawing planes, with a front device region arranged in front of the first sawing plane, viewed in a feed direction, and with a rear device region arranged behind the second sawing plane, viewed in the feed direction, in such a way that as high a cutting efficiency as possible can be achieved, it is proposed that the saw device comprises at least two transport mechanisms arranged in different device regions to transport different workpiece portions along the feed axis.

Methods and equipment for producing shaped food products having large amplitudes, for example, sliced, shredded, and/or strip-cut food products. The methods and equipment utilize a cutting apparatus having at least two sequential knives at different radial positions in reference to radial distances of the sequential knives in radial directions of the cutting apparatus. Each sequential knife has a corrugated shape comprising peaks and valleys, and the sequential knives are arranged to be in phase or out of phase alignment with each other.

Methods for fabricating layered appliances are provided. In some embodiments, a method includes generating a digital model of a polymeric shell including a plurality of tooth-receiving cavities shaped to receive and reposition a patient's teeth from a first arrangement toward a second arrangement. The polymeric shell can include an interior layer having a first stiffness, and an exterior layer having a second stiffness greater than the first stiffness. The exterior layer can include a discontinuity formed therein. The method can further include transmitting the digital model to a fabrication system configured to fabricate the polymeric shell based on the digital model.