Impregnated bit with improved cutting structure and blade geometry

What is claimed is: 1. A rotary drag bit for drilling subterranean formations comprising: a bit body having a face extending from a centerline to a gage; a plurality of blades on the face generally extending radially outwardly toward the gage, each blade of the plurality of blades having a rotationally leading front edge and a rotationally trailing edge; a plurality of matrix pockets disposed on the plurality of blades; a plurality of discrete impregnated cutting posts each housed within an associated matrix pocket of the plurality of matrix pockets, each of the plurality of matrix pockets located rotationally behind an associated discrete impregnated cutting post of the plurality of discrete impregnated cutting posts and providing a space located above the matrix pocket and rotationally behind the associated discrete impregnated cutting post, each discrete impregnated cutting post of the plurality of discrete impregnated cutting posts comprising diamond particles disposed in a metal matrix material, each discrete impregnated cutting post of the plurality of discrete impregnated cutting posts extending outwardly from at least one blade of the plurality of blades generally forwardly in a direction of intended rotation of the rotary drag bit, at least some of the discrete impregnated cutting posts having outermost ends extending rotationally forwardly beyond the front edge of an associated blade of the plurality of blades and over a junk slot between the associated blade and a rotationally forward adjacent blade in a manner promoting, in combination with the space located above each matrix pocket and rotationally behind the associated discrete impregnated cutting post, drilling fluid flow over and around the at least some of the plurality of discrete impregnated cutting posts during operation of the rotary drag bit in subterranean formations to facilitate cooling of the at least some of the discrete impregnated cutting posts and cleaning of formation material removed by the at least some of the plurality of discrete impregnated cutting posts, each discrete impregnated cutting post having a longitudinal axis oriented at an acute angle between about 10 degrees and about 80 degrees with respect to the direction of intended rotation of the rotary drag bit, and each discrete impregnated cutting post located proximate the front edge of the at least one blade. 2. The rotary drag bit of claim 1 , wherein at least a portion of a surface of the at least one blade between the front edge of the at least one blade and the trailing edge of the at least one blade is recessed behind at least one discrete impregnated cutting post of the plurality of discrete impregnated cutting posts. 3. The rotary drag bit of claim 1 , wherein a top surface of at least one blade of the plurality of blades tapers toward the face of the bit body from a front edge of the at least one blade to a trailing edge of the at least one blade. 4. The rotary drag bit of claim 1 , wherein at least one of the plurality of discrete impregnated cutting posts is set at a backrake angle different than a backrake angle of at least one other of the plurality of discrete impregnated cutting posts. 5. The rotary drag bit of claim 1 , wherein each of the plurality of discrete impregnated cutting posts is set at a different backrake angle. 6. The rotary drag bit of claim 1 , wherein each of the plurality of discrete impregnated cutting posts has an outermost end extending rotationally forwardly beyond the front edge of an associated blade of the plurality of blades on which each of the plurality of discrete impregnated cutting posts is located and over an adjacent junk slot. 7. The rotary drag bit of claim 1 , wherein a shape of each matrix pocket of the plurality of matrix pockets determines the acute angle between the longitudinal axis of each associated discrete impregnated cutting post and the direction of intended rotation of the rotary drag bit. 8. The rotary drag bit of claim 1 , wherein each matrix pocket of the plurality of matrix pockets comprises diamond grit dispersed within a matrix of wear-resistant material. 9. A method of forming a rotary drag bit for drilling subterranean formations, the method comprising: forming a bit body having a face extending from a centerline to a gage; forming a plurality of blades on the face generally extending radially outwardly toward the gage, each blade of the plurality of blades having a rotationally leading front edge and a rotationally trailing edge; disposing a plurality of matrix pockets on the plurality of blades; forming a plurality of discrete impregnated cutting posts each housed within an associated matrix pocket of the plurality of matrix pockets such that each of the plurality of matrix pockets is located rotationally behind an associated discrete impregnated cutting post of the plurality of discrete impregnated cutting posts and provides a space located above the matrix pocket and rotationally behind the associated discrete impregnated cutting post, each discrete impregnated cutting post of the plurality of discrete impregnated cutting posts comprising diamond particles disposed in a metal matrix material, each discrete impregnated cutting post of the plurality of discrete impregnated cutting posts extending outwardly from at least one blade of the plurality of blades generally forwardly in a direction of intended rotation of the rotary drag bit, at least some of the discrete impregnated cutting posts having outermost ends extending rotationally forwardly beyond the front edge of an associated blade of the plurality of blades and over a junk slot between the associated blade and a rotationally forward adjacent blade in a manner promoting, in combination with the space located above each matrix pocket and rotationally behind the associated discrete impregnated cutting post, drilling fluid flow over and around the at least some of the plurality of discrete impregnated cutting posts during operation of the rotary drag bit in subterranean formations to facilitate cooling of the at least some of the discrete impregnated cutting posts and cleaning of formation material removed by the at some of the plurality of discrete impregnated cutting posts, each discrete impregnated cutting post having a longitudinal axis oriented at an acute angle between about 10 degrees and about 80 degrees with respect to the intended direction of rotation of the rotary drag bit, and each discrete impregnated cutting post located proximate the front edge of the at least one blade. 10. The method of claim 9 , wherein forming a plurality of blades on the face comprises forming at least a portion of a surface of the at least one blade between the front edge and the trailing edge of the at least one blade having a recess behind at least one discrete impregnated cutting post of the plurality of discrete impregnated cutting posts. 11. The method of claim 9 , wherein forming a plurality of blades on the face comprises forming a top surface of at least one blade of the plurality of blades tapering toward the face of the bit body from a front edge of the at least one blade to a trailing edge of the at least one blade. 12. The method of claim 9 , wherein forming a plurality of discrete impregnated cutting posts comprises forming at least one of the plurality of discrete impregnated cutting posts at a backrake angle different than a backrake angle of at least one other of the plurality of discrete impregnated cutting posts. 13. The method of claim 9 , wherein forming a plurality of discrete impregnated cutting posts comprises forming each of the plurality of discrete impregnated cutting posts at a different b