Extruded cylinder liner

What is claimed is: 1. An extruded engine cylinder liner, comprising: a cylindrical body having a longitudinal axis and defining an inner surface and an outer surface; a plurality of spaced apart projections protruding from the outer surface, the projections being arranged in a rifled pattern such that each projection spirals around the outer surface, wherein each projection extends continuously along an entire height of the cylindrical body; and a wear-resistant coating disposed on the inner surface. 2. The liner of claim 1 , wherein the plurality of spaced apart projections define a plurality of channels between adjacent projections, the channels being arranged in a rifled pattern. 3. The liner of claim 2 , wherein the channels extend along the entire height of the cylindrical body. 4. The liner of claim 1 , wherein the projections are equally spaced apart around a circumference of the outer surface. 5. The liner of claim 2 , wherein each of the channels have a same width. 6. The liner of claim 1 , wherein the cylindrical body is formed of aluminum or aluminum alloy. 7. The liner of claim 1 , wherein the projections extend in a direction that is 20 to 70 degrees from the longitudinal axis. 8. The liner of claim 1 , wherein the projections have a rectangular or triangular cross-sectional shape. 9. An engine block, comprising: a body including a first material; at least two cast-in cylinder liners including a second material metallurgically bonded to the body, the cylinder liners each including a plurality of spaced apart projections protruding from an outer surface thereof and extending in a direction oblique to a longitudinal axis of the liner, and channels defined between adjacent ones of the projections, wherein the first and second cylinder liners are arranged in the body such that one of the projections of the first cylinder liner is aligned with one of the channels of the second cylinder liner; and the first material surrounding and extending between the features. 10. The engine block of claim 9 , wherein the plurality of spaced apart projections define a plurality of channels between adjacent projections, the channels extending in a direction oblique to the longitudinal axis. 11. The engine block of claim 10 , wherein the first material substantially fills the plurality of channels. 12. The engine block of claim 9 , wherein the first material surrounding and extending between the projections resists relative movement between the cast-in cylinder liners and the body in a vertical and a horizontal direction. 13. The engine block of claim 9 , wherein the projections, for each of the cylinder liners, are arranged in a rifled pattern such that each projection spirals around the outer surface, wherein each projection extends continuously along an entire height of the cylindrical body. 14. A method comprising: extruding a metal material through a die to form a cylindrical body defining an inner surface, and an outer surface having spaced apart protruding features; rotating the die about a longitudinal axis during the extruding step such that the features have a rifled pattern; sectioning the cylindrical body into cylinder liners; and applying a wear-resistant coating to the inner surface after the extruding and rotating steps and prior to the sectioning step. 15. The method of claim 14 , wherein the die is continuously rotated during the extruding step such that the features extend continuously along the entire length of the cylinder body. 16. The method of claim 14 , wherein each of the features extends continuously along an entire height of the cylindrical body. 17. The method of claim 14 , wherein the die is rotated such that the features extend in a direction that is 20 to 70 degrees from the longitudinal axis.