Multipurpose tooling for shaped particles

The invention claimed is: 1. A method of transferring a shaped particle to a substrate, the method comprising: providing a scrim comprising at least two elongate strands periodically joined together at bond regions to form an array of apertures between the strands, wherein the apertures have a first minimum dimension, and wherein at least some of the bond regions are flexible; extending the scrim along at least one direction to form an extended scrim, wherein in the extended scrim the apertures increase in size to a second minimum dimension larger than the first minimum dimension to form an array of extended apertures; applying shaped particles to the extended scrim such that at least a portion of the shaped particles enter in at least some of the extended apertures; relaxing the extended scrim to form an array of unextended apertures with the first minimum dimension, wherein the shaped particles are frictionally retained in the unextended apertures to form a particle loaded scrim; extending the particle loaded scrim along at least one direction to form an extended particle loaded scrim with extended apertures having the second minimum dimension, wherein in the extended particle loaded scrim the shaped particles are released from the extended apertures; and transferring the shaped particles released from the extended particle loaded scrim to the substrate such that the shaped particles are deposited on the substrate in a predetermined orientation. 2. The method of claim 1 , wherein the substrate web comprises a binder layer thereon, and the shaped particles are deposited on the binder layer in the oriented position. 3. The method of claim 1 , wherein at least 95% of the shaped particles are deposited on the substrate web in an oriented position. 4. The method of claim 1 , wherein the elongate strands are polymeric. 5. The method of claim 4 , wherein the scrim has first and second opposing major surfaces and further comprises polymeric ribbons with a thickness-to-width aspect ratio of at least 2:1 and a minor surface defined by their width and length, and wherein the minor surface of a plurality of the polymeric ribbons in bonded to the first major surface of the scrim. 6. The method of claim 4 , wherein at least some of the polymeric strands are elastic. 7. The method of claim 1 , wherein the elongate strands in the scrim comprise a metal. 8. A method of transferring shaped particles to a moving substrate web, the method comprising: providing a transfer tool moving in a first direction, wherein the transfer tool comprises a stretchable net-like arrangement of polymeric strands periodically joined together at bond regions to form an array of apertures therebetween, and wherein the apertures have a first minimum dimension; emitting shaped particles from a particle source onto a major surface of the moving transfer tool; stretching the transfer tool along a second direction substantially normal to the first direction to form a stretched transfer tool, wherein the stretched transfer tool comprises expanded apertures with a second minimum dimension larger than the first minimum dimension, and wherein the second minimum dimension is sufficiently large to allow entry of at least a portion of the shaped particles into the apertures with a first predetermined orientation; relaxing the stretched transfer tool along the second direction such that the apertures return to the first minimum dimension and form a loaded transfer tool having particles frictionally retained between the polymeric strands in the first orientation; stretching the loaded transfer tool along the second direction to expand the apertures to the second minimum dimension and release the shaped particles frictionally retained therein; and transferring the shaped particles released from the loaded transfer tool to a particle adherent surface of a moving substrate web, wherein a substantial portion of the shaped particles are transferred to the particle adherent surface and adhere to the particle adherent surface in a second predetermined orientation. 9. The method of claim 8 , wherein at least 95% of the shaped particles reside in the second orientation on the particle adherent surface. 10. The method of claim 8 , wherein the moving transfer tool is an endless belt. 11. The method of claim 7 , wherein at least some of the polymeric ribbons and polymeric strands are elastic. 12. The method of claim 7 , wherein the shaped particles comprise abrasive grains. 13. The method of claim 10 , wherein the shaped abrasive grains comprise a uniform triangular prism.