Exothermic bonding for cylinder block inserts

What is claimed is: 1. A method for manufacturing an engine block, the method comprising: forming an expansion hole in a block body of the engine block at a top deck of the block body, the expansion hole encircling an engine block bore at a head face of the top deck, the engine block bore extending into the block body from the head face; placing an insert into the expansion hole, the insert including an insert body, the insert body generally matching a shape of the expansion hole; placing a reaction material between the insert and the block body; initiating an exothermic reaction in the reaction material, the exothermic reaction forming an insert bond layer between the insert and the block body using the reaction material, and wherein the exothermic reaction provides enough heat to metallurgically bond the insert to the block body; and forming an insert bore through the insert body. 2. The method of claim 1 , wherein the expansion hole is a flat-bottomed hole and includes an expansion hole bottom surface and an expansion hole side surface extending between the expansion hole bottom surface and the head face, wherein the insert is a cylinder and includes an insert bottom surface and an insert side surface, and wherein the insert bond layer includes a bottom surface bond layer that metallurgically joins the insert bottom surface to the expansion hole bottom surface and a side surface bond layer that metallurgically joins the insert side surface to the expansion hole side surface. 3. The method of claim 1 , wherein placing the reaction material between the insert and the block body includes applying the reaction material to the insert body prior to placing the insert into the expansion hole. 4. The method of claim 1 , wherein the insert bond layer includes material from the block body and the insert, and residual reaction material. 5. The method of claim 1 , wherein forming the insert bore includes machining the insert bore through the insert body. 6. The method of claim 5 , wherein forming the insert bore is performed after forming the insert bond layer and includes aligning the insert bore with the engine block bore. 7. The method of claim 1 , wherein forming the insert bore is performed prior to placing the insert into the expansion hole, and wherein placing the insert into the expansion hole includes aligning the insert bore with the engine block bore. 8. A method for remanufacturing an engine block including a block body having a top deck with a head face and a plurality of engine block bores extending into the block body from the head face, the plurality of engine block bores including a cylinder bore and a cooling passage, the method comprising: machining an expansion hole in the top deck that encircles an engine block bore of the plurality of engine block bores at the head face, wherein machining includes removing a worn portion of the engine block; placing an insert into the expansion hole, the insert including an insert body, the insert body generally matching a shape of the expansion hole; placing a reaction material between the insert and the block body; initiating an exothermic reaction in the reaction material, the exothermic reaction forming an insert bond layer between the insert and the block body using the reaction material, and wherein the exothermic reaction provides enough heat to metallurgically bond the insert to the block body; and forming an insert bore through the insert body. 9. The method of claim 8 , wherein the expansion hole is a flat-bottomed hole and includes an expansion hole bottom surface and an expansion hole side surface extending between the expansion hole bottom surface and the head face, wherein the insert is a cylinder and includes an insert bottom surface and an insert side surface, and wherein the insert bond layer includes a bottom surface bond layer that metallurgically joins the insert bottom surface to the expansion hole bottom surface and a side surface bond layer that metallurgically joins the insert side surface to the expansion hole side surface. 10. The method of claim 8 , wherein placing the reaction material between the insert and the block body includes applying the reaction material to the insert body prior to placing the insert into the expansion hole. 11. The method of claim 8 , wherein the insert bond layer includes material from the block body and the insert, and residual reaction material. 12. The method of claim 8 , wherein forming the insert bore includes machining the insert bore through the insert body. 13. The method of claim 8 , wherein forming the insert bore is performed after forming the insert bond layer and includes aligning the insert bore with the engine block bore. 14. The method of claim 8 , wherein forming the insert bore is performed prior to placing the insert into the expansion hole, and wherein placing the insert into the expansion hole includes aligning the insert bore with the engine block bore.