Traction sheave for elevator system

The invention claimed is: 1. An elevator system comprising: an elevator car; a motor; a traction sheave operably connected to the motor to drive rotation of the traction sheave, the traction sheave including: an outer sheave surface having a distance from a sheave axis that varies along a width of the traction sheave, the outer surface including: a first portion having a first coefficient of friction; and two second portions having a second coefficient of friction less than the first coefficient of friction; and a belt operably connected to the elevator car, the belt in frictional contact with the outer sheave surface such that rotation of the traction sheave urges movement of the elevator car; wherein the first portion is positioned at a center area of the outer sheave surface relative to the width of the traction sheave; wherein the first portion defines about 1/3 of the width of the traction sheave; wherein each of the second portions defines about 1/3 of the width of the traction sheave; and wherein the outer sheave surface has a spherical crown. 2. The elevator system of claim 1 , wherein the first coefficient of friction of the first portion is defined by an abrasive blast applied to the first portion. 3. The elevator system of claim 2 , wherein the second coefficient of friction of the one or more second portions is defined by masking the one or more second portions during the abrasive blast operation. 4. The elevator system of claim 1 , wherein the first coefficient of friction of the first portion is defined by a coating applied to the first portion. 5. The elevator system of claim 1 , wherein the second coefficient of friction of the one or more second portions is defined by a coating applied to the one or more second portions. 6. A traction sheave for an elevator system comprising: an outer sheave surface having a distance from a sheave axis that varies along a width of the traction sheave, the outer surface including: a first portion having a first coefficient of friction; and two second portions having a second coefficient of friction less than the first coefficient of friction; wherein the first portion is positioned at a center area of the outer sheave surface relative to the width of the traction sheave; wherein the first portion defines about 1/3 of the width of the traction sheave; wherein each of the second portions defines about 1/3 of the width of the traction sheave; and wherein the outer sheave surface has a spherical crown. 7. The traction sheave of claim 6 , wherein the first coefficient of friction of the first portion is defined by an abrasive blast applied to the first portion. 8. The traction sheave of claim 7 , wherein the second coefficient of friction of the one or more second portions is defined by masking the one or more second portions during the abrasive blast operation. 9. The traction sheave of claim 6 , wherein the first coefficient of friction of the first portion is defined by a coating applied to the first portion. 10. The traction sheave of claim 6 , wherein the one or more second portions are two second portions, each second portion extending from a sheave end toward a center of the sheave. 11. The traction sheave of claim 6 , wherein the second coefficient of friction of the one or more second portions is defined by a coating applied to the one or more second portions. 12. The traction sheave of claim 6 wherein a difference between the first coefficient of friction and the second coefficient of friction is defined by a difference in materials of the first portion and the one or more second portions.