Junction structure

The invention claimed is: 1. A junction structure comprising: a first material that is a metallic material, and a third material that is a metallic material and is weldable to the first material, at least one of the first material or the third material having: a weld zone where the first material and the third material are melted and joined together; and at least one exhaust groove or at least one exhaust hole around the weld zone, the at least one exhaust groove or the at least one exhaust hole penetrating a thickness of the at least one of the first material or the third material; and a second material which is a nonferrous metallic material or a nonmetallic material, the second material being sandwiched and fixed between the first material and the third material by lap joining, wherein: the second material has a through part; the at least one of the first material or the third material has a projection; the projection is located in the through part; and the at least one exhaust groove or the at least one exhaust hole is located outside the projection and is either: (i) located at least partially inside an inner periphery of the through part; or (ii) aligned with the inner periphery of the through part. 2. The junction structure according to claim 1 , wherein: the weld zone has a circular or oval ring-shaped pattern, the circular or oval ring-shaped pattern being a welding pattern to which energy is applied from a heat source; and the at least one exhaust groove or the at least one exhaust hole is located outside the circular or oval ring-shaped pattern. 3. The junction structure according to claim 1 , wherein: the weld zone has a spot or linear pattern, the spot or linear pattern being a welding pattern to which energy is applied from a heat source; and the at least one exhaust groove or the at least one exhaust hole is located outside the spot or linear pattern. 4. The junction structure according to claim 1 , wherein the at least one of the first material or the third material is melted by energy applied to the projection from a heat source along the thickness of the at least one of the first material or the third material, such that the first material, the third material and the second material are fixed and joined together. 5. The junction structure according to claim 1 , wherein the projection has a region to which energy is applied from a heat source along the thickness of the at least one of the first material or the third material, the region being smaller than a diameter or a width of the projection. 6. The junction structure according to claim 2 , wherein: the heat source is a laser; and the first material and the third material are melted and joined together by the laser being applied along the thickness of the at least one of the first material or the third material such that the second material is sandwiched between the first material and the third material, whereby the first material, the third material, and the second material are fixed together. 7. The junction structure according to claim 2 , wherein: the heat source is an arc; and the first material and the third material are melted and joined together by the arc being applied along the thickness of the at least one of the first material or the third material such that the second material is sandwiched between the first material and the third material, whereby the first material, the third material, and the second material are fixed together. 8. The junction structure according to claim 2 , wherein: the heat source is a plasma; and the first material and the third material are melted and joined together by the plasma being applied along the thickness of the at least one of the first material or the third material such that the second material is sandwiched between the first material and the third material, whereby the first material, the third material, and the second material are fixed together. 9. The junction structure according to claim 1 , wherein a surface of the second material adjacent to the through part is melted by indirect heat generated when the projection is welded, the surface of the second material adjacent to the through part flowing and being fixed around an outer periphery of the projection. 10. The junction structure according to claim 1 , wherein the at least one of the first material or the third material has a positioning protrusion at an end of the at least one exhaust groove or the at least one exhaust hole defined outside the projection, the positioning protrusion protruding toward the second material and being capable of positioning the second material. 11. The junction structure according to claim 10 , wherein the first material and the third material comprise two opposing materials. 12. The junction structure according to claim 1 , wherein the third material is composed by folding back the first material. 13. The junction structure according to claim 1 , wherein: a diameter or a width of the projection is smaller than a diameter or a width of the through part; and the projection and the inner periphery of the through part are spaced apart from each other by a gap in a radial direction or a width direction of the through part. 14. The junction structure according to claim 1 , wherein: each of the first material and the third material are ferrous; and the second material is the nonferrous metallic material. 15. The junction structure according to claim 1 , wherein the second material is the nonmetallic material and is carbon fiber reinforced plastic or polyethylene terephthalate. 16. The junction structure according to claim 1 , wherein the second material is the nonmetallic material and is resin.