Corrosion resistant heat exchanger element and method of manufacture

1. A heat exchanger element for use in a corrosive environment comprising a metal tube jacketed at least over a substantial portion of its length including at least one end with an extruded layer of a given fluorocarbon resin having a thickness within the limits affording efficient heat transfer combined with resistance to corrosion of said tube, said given resin being of the type which has a high viscosity in the melt stage, a nipple of corrosion resistant metal, said nipple having a first end with a circumferential shoulder thereat and an axial region adjacent said shoulder which region has a lesser diameter than said shoulder providing an undercut annular groove therebehind, said first end of said nipple being telescopingly engaged within said one end of said metal tube, and said nipple having an opposite end which projects from said one end of said metal tube, a sleeve of fluorocarbon resin surrounding said one end of said metal tube and at least a portion of said opposite end of said nipple, said sleeve extending over said metal tube and its jacket layer of resin to a point beyond the location of said nipple shoulder, and a corrosion resistant metal ferrule surrounding said sleeve of resin and being substantially coextensive therewith, said ferrule being contracted radially squeezing said metal tube within said axial region behind said nipple shoulder thereby effecting interlocking engagement between said metal tube and said nipple and establishing a fluid-tight seal between said ferrule, said nipple, said metal tube and the intervening resin material.