Gap control via overmold teeth and hard stops

What is claimed is: 1. A forceps for use in a surgical procedure, the forceps comprising: a shaft having a proximal portion and a distal portion; and an end effector operably coupled to the distal portion of the shaft and including a pair of opposing jaw members, at least one of the jaw members including: a support base coupled to the distal portion of the shaft; an insulative plate mounted to the support base; a plurality of overmold teeth projecting from the insulative plate and configured to define a gap distance between the jaw members; a sealing plate defining a plurality of openings therein, the sealing plate mounted to the insulative plate such that each of the plurality of overmold teeth is disposed within a respective one of the plurality of openings; an insulative housing mounted to the support base; and a hard stop extending from the insulative housing and configured to bear a majority of an applied load as the jaw members are closed about tissue. 2. The forceps according to claim 1 , wherein the insulative housing encapsulates at least a portion of each of the support base, the insulative plate, and the sealing plate. 3. The forceps according to claim 1 , wherein the hard stop is fabricated from plastic. 4. The forceps according to claim 1 , wherein the hard stop is formed on a proximal end of the insulative housing. 5. The forceps according to claim 1 , wherein the sealing plate includes a longitudinally extending blade slot defined therein, the plurality of openings located along the blade slot. 6. A method of forming a jaw member of an end effector, comprising; mounting an insulative plate having a plurality of overmold teeth projecting therefrom to a support base; mounting a sealing plate having a plurality of openings defined therein onto the insulative plate, thereby disposing each of the plurality of overmold teeth within a respective one of the plurality of openings; and mounting an insulative housing having a plastic hard stop extending therefrom to the support base, the hard stop configured to bear a majority of an applied load as the jaw member and another jaw member are closed about tissue. 7. The method according to claim 6 , wherein mounting the insulative housing to the support base includes molding the insulative housing around at least a portion of the support base. 8. The method according to claim 7 , further comprising molding the insulative housing around at least a portion of each of the insulative plate and the sealing plate. 9. The method according to claim 6 , wherein the sealing plate further includes a longitudinally extending blade slot, the plurality of openings of the seal plate located along the blade slot. 10. A jaw member for an end effector assembly, the jaw member comprising: a support base; an insulative plate mounted to the support base; a plurality of overmold teeth projecting from the insulative plate; a sealing plate defining a plurality of openings therein, the sealing plate mounted to the insulative plate such that each of the plurality of overmold teeth is disposed within a respective one of the plurality of openings; an insulative housing mounted to the support base; and a hard stop extending from the insulative housing. 11. The jaw member according to claim 10 , wherein the insulative housing encapsulates at least a portion of each of the support base, the insulative plate, and the sealing plate. 12. The jaw member according to claim 10 , wherein the hard stop is fabricated from plastic. 13. The jaw member according to claim 10 , wherein the hard stop is formed on a proximal end of the insulative housing. 14. The jaw member according to claim 10 , wherein the sealing plate includes a longitudinally extending blade slot defined therein, the plurality of openings located along the blade slot.