Transmission gear synchronizer blocker ring formed of a thermoplastic material

What is claimed is: 1. A transmission gear synchronizer comprising: a sliding sleeve having an inner surface defining a sleeve spline; a hub received within the sliding sleeve, the hub having a plurality of gear teeth extending radially outward from a root diameter of the hub, the plurality of gear teeth configured to engage the sleeve spline, and a notch disposed proximate the root diameter of the hub and spaced apart from the plurality of gear teeth; and a blocker ring comprising a thermoplastic material, the blocker ring having a plurality of molded clutch teeth extending radially outward from a root diameter of the blocker ring, and an inner surface defining a molded spline, the plurality of molded clutch teeth are configured to engage the sleeve spline in response to the sliding sleeve engaging the blocker ring during a transmission shift event. 2. The transmission gear synchronizer of claim 1 wherein the blocker ring has an outer surface defining a molded engagement pad extending radially outward from the outer surface of the blocker ring, the molded engagement pad configured to nest within the notch of the hub. 3. The transmission gear synchronizer of claim 2 wherein the notch is configured to substantially align the molded clutch teeth relative to the sleeve spline and permit relative movement between the blocker ring, the hub, and the sliding sleeve when the molded engagement pad is nested within the notch of the hub. 4. The transmission gear synchronizer of claim 1 wherein the gear synchronizer further includes an engagement ring having a cone extending from a surface of the engagement ring towards the hub and gear teeth extending radially outward from a root diameter of the engagement ring, wherein the molded spline of the blocker ring is configured to engage the cone during a transmission shift event. 5. The transmission gear synchronizer of claim 1 wherein the thermoplastic material comprises a high-performance polymer composite. 6. A transmission gear synchronizer comprising: a sliding sleeve having an inner surface defining a plurality of sleeve teeth extending radially inward from the inner surface of the sliding sleeve towards a transmission shaft, a hub having a plurality of hub gear teeth extending radially outward from a root diameter of the hub, the hub configured to be received within the sliding sleeve; and a blocker ring formed from a thermoplastic material and disposed adjacent the hub, the blocker ring having (i) a plurality of molded clutch teeth extending radially outward from a root diameter of the blocker ring, and (ii) an inner surface defining a plurality of molded grooves extending axially along the inner surface of the blocker ring, wherein each molded groove of the plurality of molded grooves is disposed substantially parallel to a longitudinal axis of the blocker ring. 7. The transmission gear synchronizer of claim 6 wherein each sleeve tooth of the plurality of sleeve teeth having a tip, the tip defined by a first surface disposed at a first angle relative to a longitudinal axis of a transmission shaft and a second surface disposed at a second angle relative to the longitudinal axis of the transmission shaft. 8. The transmission gear synchronizer of claim 7 wherein each molded clutch tooth of the plurality of molded clutch teeth having an end surface defined by a third surface disposed at a third angle relative to the longitudinal axis of the transmission shaft and a fourth surface disposed at a fourth angle relative to the longitudinal axis of the transmission shaft, the second surface is configured to engage the third surface during a transmission upshift event and the first surface is configured to engage the fourth surface of an adjacent molded clutch tooth of the blocker ring during a transmission downshift event. 9. A transmission gear synchronizer comprising: a sliding sleeve having an inner surface defining a plurality of sleeve teeth extending radially inward from the inner surface of the sliding sleeve towards a transmission shaft, each sleeve tooth of the plurality of sleeve teeth having a tip, the tip defined by a first surface disposed at a first angle relative to a longitudinal axis of a transmission shaft and a second surface disposed at a second angle relative to the longitudinal axis of the transmission shaft; a hub having a plurality of hub gear teeth extending radially outward from a root diameter of the hub, the hub configured to be received within the sliding sleeve; and a blocker ring formed from a thermoplastic material and disposed adjacent the hub, the blocker ring having: a plurality of molded clutch teeth extending radially outward from a root diameter of the blocker ring, each molded clutch tooth of the plurality of molded clutch teeth having an end surface defined by a third surface disposed at a third angle relative to the longitudinal axis of the transmission shaft and a fourth surface disposed at a fourth angle relative to the longitudinal axis of the transmission shaft, the second surface is configured to engage the third surface during a transmission upshift event and the first surface is configured to engage the fourth surface of an adjacent molded clutch tooth of the blocker ring during a transmission downshift event, and an inner surface defining a plurality of molded grooves extending axially along the inner surface of the blocker ring, each molded groove of the plurality of molded grooves is disposed substantially parallel to a longitudinal axis of the blocker ring. 10. The transmission gear synchronizer of claim 9 , further comprising an engagement ring disposed between a gear and the blocker ring, the engagement ring having a cone extending axially away from a surface of the engagement ring and tapering towards the hub, wherein the plurality of molded grooves of the blocker ring are configured to frictionally engage the cone during at least one of the transmission upshift event and the transmission downshift event. 11. The transmission gear synchronizer of claim 9 wherein (i) the first surface has a first length and the second surface has a second length, the second length greater than the first length, and (ii) wherein the third surface has a third length and the fourth surface has a fourth length, the third length substantially similar to a second length of the second surface. 12. The transmission gear synchronizer of claim 9 wherein each sleeve tooth of the plurality of sleeve teeth has a first side surface extending from the inner surface to the first surface and a second side surface spaced apart from the first side surface, the second side surface extending from the inner surface to the second surface, the first side surface and the second side surface being progressively farther apart from one another along the sleeve tooth towards the tip. 13. The transmission gear synchronizer of claim 9 wherein the first surface and the second surface are disposed at an acute angle with respect to each other. 14. The transmission gear synchronizer of claim 9 wherein the first surface and the second surface are disposed at an obtuse angle with respect to each other. 15. The transmission gear synchronizer of claim 9 wherein the engagement of the second surface with the third surface defines a first contact area and the engagement of the first surface with the fourth surface of the adjacent molded clutch tooth of the blocker ring defines a second contact area, the first contact area substantially similar to the second contact area. 16. The transmission gear synchronizer of claim 9 wherein the hub defines a notch and wherein t