Piston with abradable coating to generate appropriate contact geometry on running surface

What is claimed is: 1. A piston for use in an internal combustion engine, comprising: a body portion presenting an outer surface, a portion of said outer surface presenting a shape being not greater than 0.1 mm from a circular shape; and an abradable coating applied to said portion of said outer surface for rubbing against at least one other component of the internal combustion engine wherein an exposed surface of said abradable coating presents a shape being greater than 0.1 mm from a circular shape after said abradable coating rubs against the at least one other component of the internal combustion engine. 2. The piston of claim 1 , wherein said body portion of said piston includes a crown having at least one ring groove extending about a center axis and ring lands each disposed adjacent one of said ring grooves, and said abradable coating is applied to said outer surface along said ring lands. 3. The piston of claim 2 , wherein an exposed surface of said abradable coating along said ring lands presents a shape being greater than 0.1 mm from a circular shape after said abradable coating rubs against the at least one other component of the internal combustion engine. 4. The piston of claim 1 , wherein said body portion includes a crown, said body portion includes a pair of pin bosses depending from said crown and spaced from one another about a center axis, each of said pin bosses defines a pin bore for receiving a wrist pin, and said abradable coating is applied to said outer surface along said pin bore of said pin bosses. 5. The piston of claim 1 , wherein said body portion includes a crown, said body portion includes a pair of skirt sections spacing a pair of pin bosses from one another about a center axis and depending from said crown, and said abradable coating is applied to said outer surface along said skirt sections. 6. The piston of claim 1 , wherein said abradable coating includes at least one of: a polymer, an aluminum-silicon alloy, graphite, and hexagonal boron nitride. 7. The piston of claim 1 , wherein said abradable coating has a thickness of 20 to 400 μm. 8. The piston of claim 1 , wherein said body portion is formed of a metal material, said metal material being selected from an iron-based material and an aluminum-based material; said body portion extends around a center axis and longitudinally along said center axis from an upper end to a lower end; said body portion includes a crown extending circumferentially about said center axis from said upper end toward said lower end; said crown defines at least one ring groove extending circumferentially about said center axis for receiving at least one ring; a plurality of ring lands each disposed adjacent one of said ring grooves; said outer surface of said ring lands presenting said shape being not greater than 0.1 mm from a circular shape; said abradable coating applied to said outer surface of said ring lands; said abradable coating having a thickness of 50 to 300 μm along said ring lands; said abradable coating including at least one of: a polymer, an aluminum-silicon alloy, graphite, and hexagonal boron nitride; said body portion including a pair of pin bosses spaced from one another about said center axis and depending from said crown to said lower end; each of said pin bosses defining a pin bore for receiving a wrist pin; said outer surface along each of said pin bosses defining said pin bore, and said pin bore presenting said shape being not greater than 0.1 mm from a circular shape; said abradable coating being applied to said outer surface along said pin bores of said pin bosses; said abradable coating having a thickness of 20 to 30 μm along said pin bores; said body portion including a pair of skirt sections spacing said pin bosses from one another about said center axis and depending from said lower crown to said lower end; said outer surface of said skirt sections presenting said shape being not greater than 0.1 mm from a circular shape; an abradable coating applied to said outer surface of said skirt sections; and said abradable coating having a thickness of 100 to 400 μm along said skirt sections. 9. A piston assembly for use in an internal combustion engine, comprising: a piston including a body portion presenting an outer surface, said body portion including a crown and a pair of pin bosses depending from said crown and spaced from one another about a center axis, each of said pin bosses defines a pin bore; a connecting rod including a connecting end disposed between said pin bosses of said piston; said connecting end presenting a connecting surface defining a pin opening, said pin opening being axially aligned with said pin bores of said piston; a wrist pin extending through said aligned pin bores of said piston and pin opening of said connecting rod for connecting said piston to said connecting rod, said wrist pin presenting a contact surface facing said outer surface of said pin bosses and said connecting surface of said connecting rod; at least one of said outer surface of said piston, said connecting surface of said connecting rod, and said contact surface of said wrist pin including a portion presenting a shape being not greater than 0.1 mm from a circular shape; and an abradable coating applied to said portion of said at least one surface wherein an exposed surface of said abradable coating presents a shape being greater than 0.1 mm from a circular shape after said abradable coating rubs against the at least one other component of the internal combustion engine. 10. The piston assembly of claim 9 , wherein said abradable coating is applied to said contact surface of said wrist pin. 11. The piston assembly of claim 9 , wherein said abradable coating is applied to at least one of said outer surface of said pin bosses and said connecting surface of said connecting rod. 12. A method of manufacturing a piston for use in an internal combustion engine, comprising the steps of: providing a body portion of a piston presenting an outer surface, a portion of the outer surface presenting a shape being not greater than 0.1 mm from a circular shape; and applying an abradable coating to the portion of the outer surface for rubbing against at least one other component of the internal combustion engine wherein an exposed surface of the abradable coating presents a shape being greater than 0.1 mm from a circular shape after rubbing the abradable coating against at least one other component of the internal combustion engine. 13. The method of claim 12 , wherein the step of applying the abradable coating includes at least one of: screen printing, rolling, and spraying the abradable coating onto the portion of the outer surface. 14. The method of claim 13 , wherein the step of applying the abradable coating includes thermal spraying the abradable coating onto the portion of the outer surface. 15. The method of claim 12 , wherein the step of providing the body portion of the piston includes machining the portion of the outer surface to the shape being not greater than 0.1 mm from a circular shape. 16. A method of manufacturing a piston assembly for use in an internal combustion engine, comprising the steps of: providing a body portion of a piston, the body portion presenting an outer surface, the body portion including a crown and a pair of pin bosses depending from the crown and spaced from one another about a center axis, and each of the pin bosses defining a pin bore; providing a connecting rod for being disposed between the pin bosses of the piston, the connecting rod including a connecting end wi