Bottom hole assembly with wearable stabilizer pad for directional steering

What is claimed is: 1. A method of drilling a wellbore comprising; obtaining formation properties along a planned deviated wellbore trajectory; selecting a stabilizer pad expected to wear a desired amount according to the formation properties sufficient to affect a wellbore curvature along the planned deviated wellbore trajectory; and drilling along the planned deviated wellbore trajectory using a bottom hole assembly with the selected stabilizer pad in contact with wellbore; wherein selecting the stabilizer pad comprises selecting stabilizer pad properties such that the wellbore curvature of the planned deviated wellbore trajectory is within a range of 10 to 12 degrees per 100 feet when drilling through an upper strata to a lower strata. 2. The method of claim 1 , wherein selecting the stabilizer pad further comprises selecting stabilizer pad properties such that the wellbore curvature of the planned deviated wellbore trajectory contains a consistent build rate over the planned deviated wellbore trajectory. 3. The method of claim 1 , wherein the planned deviated wellbore trajectory comprises a three dimensional change in angular deviation. 4. The method of claim 1 , further comprising selecting a material for the stabilizer pad from the group consisting of carbon fiber and ceramic. 5. A method of drilling a wellbore comprising; obtaining formation properties along a planned deviated wellbore trajectory; selecting a stabilizer pad expected to wear a desired amount according to the formation properties sufficient to affect a wellbore curvature along the planned deviated wellbore trajectory; and drilling along the planned deviated wellbore trajectory using a bottom hole assembly with the selected stabilizer pad in contact with wellbore; wherein obtaining formation properties further comprises: identifying the formation properties of a lower strata having a greater hardness than an upper strata; and selecting the stabilizer pad to wear sufficiently when drilling through the upper strata to achieve a desired curvature upon drilling through the lower strata. 6. A method of drilling a wellbore comprising; obtaining formation properties along a planned deviated wellbore trajectory; selecting a stabilizer pad expected to wear a desired amount according to the formation properties sufficient to affect a wellbore curvature along the planned deviated wellbore trajectory; and drilling along the planned deviated wellbore trajectory using a bottom hole assembly with the selected stabilizer pad in contact with wellbore; wherein selecting the stabilizer pad comprises selecting one or both of a stabilizer pad geometry and a stabilizer pad thickness expected to wear a predetermined amount according to the formation properties along the planned deviated wellbore trajectory. 7. The method of claim 6 , further comprising drilling directionally along the planned deviated wellbore trajectory by wearing the stabilizer pad at the predetermined amount as the stabilizer rotates and contacts the wellbore. 8. The method of claim 7 , wherein wearing the stabilizer pad changes a dogleg severity of the bottom hole assembly during drilling along the planned deviated wellbore trajectory. 9. A method of drilling a wellbore comprising; obtaining formation properties along a planned deviated wellbore trajectory; selecting a stabilizer pad expected to wear a desired amount according to the formation properties sufficient to affect a wellbore curvature along the planned deviated wellbore trajectory; and drilling along the planned deviated wellbore trajectory using a bottom hole assembly with the selected stabilizer pad in contact with wellbore; wherein selecting the stabilizer pad comprises selecting stabilizer pad properties such that the wellbore curvature of the planned deviated wellbore trajectory varies between 6 degrees per 100 feet and 22 degrees per 100 feet over the planned deviated wellbore trajectory; and wherein selecting the stabilizer pad further comprises selecting a stabilizer pad including at least one layer with a first durability and positioned proximal to the bottom hole assembly, and a least a second layer with a second durability that is less than the first durability. 10. A method of drilling a wellbore comprising; obtaining formation properties along a planned deviated wellbore trajectory; selecting a stabilizer pad expected to wear a desired amount according to the formation properties sufficient to affect a wellbore curvature along the planned deviated wellbore trajectory; and drilling along the planned deviated wellbore trajectory using a bottom hole assembly with the selected stabilizer pad in contact with wellbore; wherein selecting the stabilizer pad comprises selecting stabilizer pad properties such that the wellbore curvature of the planned deviated wellbore trajectory varies between 6 degrees per 100 feet and 22 degrees per 100 feet over the planned deviated wellbore trajectory; and wherein selecting the stabilizer pad further comprises selecting a stabilizer pad including at least one layer of tungsten carbide hard facing positioned proximal to the bottom hole assembly, and at least one carbon fiber layer disposed on the tungsten carbide layer. 11. A directional drilling system comprising: a bottom hole assembly having one or more stabilizer pads including one or more wearable outer portions positioned for contacting a wellbore during drilling, the wearable outer portions being configured to wear in response to contact with the wellbore during drilling, wherein the one or more stabilizer pads further comprise one or more wear-resistant inner portions radially inward of the wearable outer portions, to arrest further stabilizer pad wear beyond the wearable outer portions. 12. The directional drilling system of claim 11 , wherein the wearable outer portion is secured directly to the wear-resistant inner portion. 13. The directional drilling system of claim 11 , wherein a thickness of a particular stabilizer pad comprises a thicknesses of its wear-resistant radially inward portion and a thickness of its wearable outer portions. 14. The directional drilling system of claim 11 , wherein the bottom hole assembly comprises a mud motor with a bent housing configured for drilling a deviated wellbore section, with the stabilizer pad positioned to affect a wellbore curvature imparted by a bent housing in drilling the deviated wellbore section. 15. The directional drilling system of claim 11 , wherein the bottom hole assembly includes a rotary steerable assembly configured for drilling a deviated wellbore section wherein the stabilizer pads are positioned on the bottom hole assembly to affect a wellbore curvature imparted by a remote steerable assembly. 16. The directional drilling system of claim 11 , wherein the one or more wearable outer portions of the stabilizer pad is adapted to change a dogleg severity of the bottom hole assembly during drilling of a curved portion of the wellbore. 17. The directional drilling system of claim 11 , wherein the one or more wearable outer portions is formed from a material selected from the group of carbon fiber and ceramic. 18. The directional drilling system of claim 11 , wherein the one or more wearable outer portions includes a first layer with a first durability and positioned proximal to the bottom hole assembly, and at least a second layer with a second durability that is greater than the first durability, said second layer positioned on the first layer distal to the bottom hole assembly.