Method of making a coated abrasive article

1 . A method of making a patterned abrasive layer on a resin coated backing comprising the steps of: providing a production tool having a dispensing surface with cavities, each cavity having a cavity longitudinal axis perpendicular to the dispensing surface and a depth, D, along the cavity longitudinal axis; selecting elongated abrasive particles having a length, L, along a longitudinal particle axis greater than a width, W, along a transverse axis perpendicular to the longitudinal particle axis, wherein the depth, D, of the cavities is between 0.5L to 2L; supplying an excess of the elongated abrasive particles to the dispensing surface such that more elongated abrasive particles are provided than the number of cavities; filling a majority of the cavities in the dispensing surface with an elongated abrasive particle disposed in an individual cavity such that the longitudinal particle axis is parallel to the longitudinal cavity; removing a remaining fraction of the excess elongated abrasive particles not disposed within a cavity after the filling step from the dispensing surface; aligning the resin coated backing with the dispensing surface with the resin layer facing the dispensing surface; transferring the elongated abrasive particles in the cavities to the resin coated backing and attaching the elongated abrasive particles to the resin layer; and removing the production tool to expose the patterned abrasive layer on the resin coated backing. 2 . The method of claim 1 wherein the depth, D, is between 1.1L to 1.5L and the elongated abrasive particles disposed in the cavities reside in the production tooling beneath the dispensing surface. 3 . The method of claim 1 comprising moving the elongated abrasive particles around on the dispensing surface with a filling assist member after the supplying step to direct the elongated abrasive particles into the cavities. 4 . The method of claim 1 wherein the dispensing surface is positioned to allow the force of gravity to slide the elongated abrasive particles into the cavities during the filling step and the dispensing surface is inverted during the transferring step to allow the force of gravity to slide the elongated abrasive particles out of the cavities. 5 . The method of claim 1 wherein the transferring step comprises pushing the elongated abrasive particles with a contacting member to move the elongated abrasive particles laterally along the longitudinal cavity axis. 6 . The method of claim 1 wherein the transferring step comprises blowing air into the cavities to move the elongated abrasive particles laterally along the longitudinal cavity axis. 7 . The method of claim 1 wherein the transferring step comprises vibrating the production tool. 8 . The method of claim 1 wherein the cavities taper inward when moving along the longitudinal cavity axis from the dispensing surface. 9 . The method of claim 1 wherein the cavities have a cavity outer perimeter surrounding the longitudinal cavity axis and the elongated abrasive particles have an abrasive particle outer perimeter surrounding the longitudinal particle axis and the shape of the cavity outer perimeter matches the shape of the abrasive particle outer perimeter. 10 . The method of claim 1 wherein the elongated abrasive particles comprise equilateral triangles and the width of the elongated abrasive particles along the longitudinal particle axis is nominally the same.