Tube nut assembly

I claim: 1. A tube nut assembly comprising: a pipe; a nut having an inner wall defining a bore, the pipe disposed within the bore; a first coating disposed directly on an outer surface of the nut, the first coating having a corrosive resistance greater than the inner wall defining the bore; a second coating disposed directly on the inner wall of the bore, the second coating having a corrosive resistance less than the first coating, the second coating being different from the first coating; and a corrosion seal formed from corrosion developed from the inner wall, the corrosion seal pinched between the inner wall of the bore and an outer surface of the pipe, wherein the second coating promotes the corrosion of the inner wall to form the corrosion seal. 2. The tube nut assembly as set forth in claim 1 , wherein the pipe includes a flared end, the bore defining a top opening and bottom opening of the nut, the nut having a head disposed on the top opening, the flared end of the pipe protruding from the bottom opening. 3. The tube nut assembly as set forth in claim 2 , wherein the pipe includes a sleeve, the sleeve is mounted to the pipe and disposed above the head of the nut. 4. The tube nut assembly as set forth in claim 3 , wherein the sleeve has a distal end, the distal end of the sleeve is spaced part from the flared end of the pipe. 5. The tube nut assembly as set forth in claim 2 , wherein the nut is formed of a metallic material and wherein the first coating is one of either a zinc plating or a chromate plating. 6. The tube nut assembly as set forth in claim 2 , wherein the second coating is zinc plating. 7. A method for forming a seal within a tube nut assembly, the tube nut assembly having a pipe and a nut, the pipe having a first passage, the nut having an inner wall defining a bore, the method comprising the steps of: applying a first coating directly on the outer surface of the nut, the first coating having a corrosive resistance greater than the inner wall defining the bore; applying a second coating directly on the inner wall of the bore, the second coating having a corrosive resistance less than the first coating, the second coating being different from the first coating; fitting the pipe into the bore, the pipe including a flared end, the flared end extending beyond a bottom opening of the nut; and allowing corrosion to take place within the bore, the corroding metal of the bore expanding and abutting against the outer surface of the pipe so as to form a corrosion seal, wherein the corrosion seal is pinched between the inner wall of the bore and an outer surface of the pipe, wherein the second coating promotes the corrosion of the inner wall to form the corrosion seal. 8. The method as set forth in claim 7 , further including the step of providing a mating joint, the mating joint having a seating surface and a second passage, wherein the nut is fitted into the mating joint, the seating surface abutting against an outer surface of the flared end and the second passage coaxial with the first passage.