Mechanical locking of ovoid cutting element with carbide matrix

We claim: 1. A cutting assembly for use in a drill bit comprising: a matrix including a matrix material; an insert embedded in the matrix, the insert including an ultrahard material, the insert having an ovoid contact surface, the matrix encapsulating the insert by at least 50% in at least one axis to restrain the insert in the matrix, wherein the matrix is positioned proximate the insert at the ovoid contact surface; a front surface, the insert and the matrix being exposed on the front surface, an insert front surface being curved in a first direction along the front surface and straight in a second direction along the front surface; and a top surface, a first end surface of the insert being exposed on the top surface and the matrix being exposed on the top surface, the first end surface on the top surface being planar, wherein a width of the insert increases from the top surface into the matrix along the at least one axis. 2. The cutting assembly of claim 1 , the matrix material being a brazable material. 3. The cutting assembly of claim 1 , the insert and the matrix directly contacting one another. 4. The cutting assembly of claim 1 , further comprising an arcuate cutting edge between the front surface and the first end surface. 5. The cutting assembly of claim 1 , the insert further comprising a planar second end surface opposite the first end surface. 6. The cutting assembly of claim 1 , the insert further comprising a rear surface curved in the first direction and planar in the second direction, the rear surface being opposite the front surface. 7. The cutting assembly of claim 1 , further comprising a binder layer positioned between the insert and the matrix. 8. The cutting assembly of claim 1 , the insert being exposed on a sidewall of the matrix and a top surface of the matrix. 9. A method of manufacturing a cutting assembly for use in a drill bit, the method comprising: providing an ovoid insert including an ultrahard material; casting the ovoid insert into a matrix substantially encapsulating at least a portion of the ovoid insert; grinding a top surface of the ovoid insert and the matrix; and grinding a sidewall of the ovoid insert and the matrix. 10. The method of claim 9 , further comprising grinding a bottom surface of the ovoid insert and the matrix. 11. The method of claim 9 , wherein the grinding the sidewall somprises grinding a front surface of the insert and grinding an opposing rear surface of the ovoid insert. 12. The method of claim 9 , providing an ovoid insert including casting the ovoid insert from a precursor having a first portion and a second portion joined during casting. 13. The method of claim 9 , wherein grinding the top surface includes grinding the ovoid insert and the matrix to expose a top portion of the ovoid insert on the top surface and wherein grinding the sidewall includes grinding the ovoid insert and the matrix to expose a side portion of the ovoid insert on the sidewall.