Piezoelectric composites and methods for manufacturing same

1. A method of making a piezoelectric composite, comprising:

• providing a pair of base slabs, each base slab having a substantially planar upper surface;
  
  forming a pair of diced base slabs by dicing the upper surface of each base slab to define a first plurality of longitudinally extending slots therein and a first plurality of longitudinally extending ridges, wherein each first slot has a depth D and width K, wherein each first ridge has a width W, wherein the width W of the first ridge is less than the width K of the first slot, and wherein each adjoining first slot and first ridge has a pitch P equal to the sum of the width W and the width K;
  
  positioning the pair of diced base slabs in overlying interdigitation registration with each other such that the first plurality of ridges of one diced base slab is disposed within the first plurality of slots of the other diced base slab;
  
  connecting the pair of diced base slabs so that a plurality of first gaps is defined, each first gap formed between each of the respective first ridges of the connected pair of diced base slabs;
  
  removing a portion of one diced base slab to form a first interdigitated piezoelectric composite slab, the first interdigitated piezoelectric composite slab having a substantially planar upper surface formed from portions of the first ridges of the connected pair of diced base slabs and from portions of the plurality of first gaps;
  
  providing a pair of the first interdigitated piezoelectric composite slabs;
  
  forming a pair of diced first interdigitated piezoelectric composite slabs by dicing the upper surface of each first interdigitated piezoelectric composite slab to define a second plurality of longitudinally extending slots therein the upper surface of the first interdigitated piezoelectric composite slab and a second plurality of longitudinally extending ridges, wherein each second slot has a depth D and width K, wherein each second ridge has a width W, wherein the width W of the second ridge is less than the width K of the second slot, and wherein the second slot is spaced a distance shift S₁ from an edge of a first ridge, the shift distance S₁ being a fraction of the pitch P;
  
  positioning the pair of diced first interdigitated piezoelectric composite slabs in overlying interdigitation registration with each other such that the second plurality of ridges of one diced first interdigitated piezoelectric composite slab is disposed within the second plurality of slots of the other diced first interdigitated piezoelectric composite slab;
  
  connecting the pair of diced first interdigitated piezoelectric composite slabs so that a plurality of second gaps is defined, each second gap formed between each of the respective second ridges of the connected pair of diced first interdigitated piezoelectric composite slabs;
  
  removing a portion of one diced first interdigitated piezoelectric composite slab to form an intermediate interdigitated composite slab, the intermediate interdigitated composite slab having an upper surface;
  
  providing a pair of intermediate interdigitated composite slabs;
  
  forming a pair of diced intermediate interdigitated composite slabs by dicing the upper surface of each intermediate interdigitated composite slab to define a third plurality of longitudinally extending slots therein the upper surface of the intermediate interdigitated composite slab and a third plurality of longitudinally extending ridges, wherein each third slot has a depth D and width K, wherein each third ridge has a width W, wherein the width W of the third ridge is less than the width K of the third slot, and wherein the third slot is spaced a shift distance S₂ from a portion of a second ridge such that the third slot is spaced from the second slot, the shift distance S₂ being a fraction of the pitch P;
  
  positioning the pair of diced intermediate interdigitated composite slabs in overlying interdigitation registration with each other such that the third plurality of ridges of one diced intermediate interdigitated composite slab is disposed within the third plurality of slots of the other diced intermediate interdigitated composite slab;
  
  connecting the pair of diced intermediate interdigitated composite slabs so that a plurality of third gaps is defined, each third gap formed between each of the respective second ridges of the connected pair of diced intermediate interdigitated piezoelectric composite slabs; and
  
  removing a portion of one diced intermediate interdigitated composite slab to form a third interdigitated piezoelectric composite slab, the third interdigitated piezoelectric composite slab having a volume ratio that is less than the volume ratio of the first and intermediate interdigitated piezoelectric composite slabs.