Method and apparatus for turning pens

What is claimed: 1. A method of turning a blank comprising: inserting a body of a head stock assembly into a head stock of a lathe; inserting at least a portion of a mandrel shaft into a through opening defined in the head stock assembly; securing the portion of the mandrel shaft within the head stock assembly in place with a collet formed from a front portion of the head stock assembly body and a cap threadably engaged therewith; positioning a first bushing on the mandrel shaft with a head thereof abutting the cap of the head stock assembly; engaging a blank with a body of the first bushing; positioning a second bushing on the mandrel shaft with a body thereof engaged with the blank opposite the first bushing; moving a tail stock assembly engaged with a tail stock of the lathe from a first position wherein the mandrel shaft is exterior of a through opening defined in the tail stock assembly to a second position wherein at least a portion of the mandrel shaft is inserted within the through opening defined in the tail stock assembly and a nose cone of the tail stock assembly is abutting a body of the second bushing; securing the portion of the mandrel shaft within the tail stock assembly in place with a collet formed from a front portion of a bearing assembly of the tail stock assembly and the nose cone of the tail stock assembly; rotating the turning assembly with the lathe; and turning the blank with at least one lathe tool. 2. The method of claim 1 wherein the mandrel shaft is centered within the head stock assembly, tail stock assembly, and blank. 3. The method of claim 2 wherein the mandrel shaft defines a longitudinal axis of rotation of the turning assembly. 4. The method of claim 1 further comprising: positioning a third bushing on the mandrel shaft adjacent the body of the second bushing; engaging a second blank with a body of the third bushing; and positioning a fourth bushing on the mandrel shaft with a body thereof engaged with the second blank opposite the third bushing; and moving the tail stock assembly from the first position to a third position wherein the at least a portion of the mandrel shaft is inserted within the through opening defined in the tail stock assembly and the nose cone of the tail stock assembly is abutting a body of the fourth bushing, prior to securing the portion of the mandrel shaft within the tail stock assembly in place. 5. The method of claim 4 wherein the first bushing and second bushing are substantially identical in diameter and are larger in diameter than the third bushing. 6. The method of claim 5 wherein the fourth bushing is smaller in diameter than the third bushing. 7. The method of claim 1 further comprising: turning the blank until an outer diameter thereof is substantially level with a wear ring of one or both of the first bushing and the second bushing. 8. The method of claim 7 further comprising: replacing the first bushing when the wear ring thereof is reduced in diameter to be level with a wear indicator groove defined in the body of the first bushing; and replacing the second bushing when the wear ring thereof is reduced in diameter to be level with a wear indicator groove defined in the body of the second bushing. 9. The method of claim 1 further comprising: directing air flow from a housing of bearing assembly of the tail stock assembly towards the at least one lathe tool via one or more angled channels defined in an exterior surface of the bearing housing.