Submerged combustion burners

What is claimed is: 1. A fluid-cooled combustion burner comprising: a burner body ( 6 ) comprising an external conduit ( 10 ) and a first internal conduit ( 12 ) substantially concentric therewith, and positioned internal of the external conduit ( 10 ), the external conduit ( 10 ) comprising a first end, a second end, and a longitudinal bore having a longitudinal axis, the first internal conduit ( 12 ) comprising a first end, a second end, and a longitudinal bore having a longitudinal axis, the external conduit ( 10 ) and first internal conduit ( 12 ) forming a first annulus ( 11 ) for passing a cooling fluid there between, and a second internal conduit ( 14 ) substantially concentric with, and positioned internal of the first internal conduit ( 12 ), the second internal conduit ( 14 ) comprising a first end, a second end, and a longitudinal bore having a longitudinal axis, and configured to form a second annulus ( 13 ) between the first and second internal conduits ( 12 , 14 ), the burner body comprising fuel and oxidant inlet ports near the second ends of the conduits; and a spin-formed or stamp formed, one-piece, integral, corrosion resistant and fatigue resistant burner tip ( 50 ) defined by a corrosion resistant and fatigue resistant inner wall ( 28 ), a corrosion resistant and fatigue resistant outer wall ( 30 ), and a corrosion resistant and fatigue resistant crown ( 32 ), the corrosion resistant and fatigue resistant outer wall ( 30 ) removably fixed to the first end of the external conduit ( 10 ) via an outer spin-formed or stamped double lap joint, and the corrosion resistant and fatigue resistant inner wall ( 28 ) removably fixed to the first end of the second internal conduit ( 14 ) via an inner spin-formed or stamped double lap joint, the spin-formed or stamp formed, one-piece, integral, corrosion resistant and fatigue resistant burner tip ( 50 ) comprising a generally central flow passage configured to pass a combustible mixture therethrough, the generally central flow passage defined by the a corrosion resistant and fatigue resistant inner wall ( 28 ), at least one of the corrosion and/or fatigue resistance being greater than material comprising the external conduit ( 10 ) under conditions experienced during submerged combustion melting of glass-forming materials, wherein the outer spin-formed or stamped double lap joint includes the first end of the external conduit curved outwardly, and the inner spin-formed or stamped double lap joint includes the first end of the second internal conduit curved outwardly. 2. The fluid-cooled combustion burner of claim 1 wherein the inner spin-formed or stamped double lap joint comprises a first spin-formed or stamped inner lap joint portion of the corrosion resistant and fatigue resistant inner wall ( 28 ) of the spin-formed or stamp formed, one-piece, integral, corrosion resistant and fatigue resistant burner tip ( 50 ), and a second spin-formed or stamped inner lap joint portion of the second internal conduit comprising material having corrosion and fatigue resistance less than that of the corrosion resistant and fatigue resistant material of the first spin-formed or stamped inner lap joint portion. 3. The fluid-cooled combustion burner of claim 2 wherein the outer spin-formed or stamped double lap joint comprises a first spin-formed or stamped outer lap joint portion of the corrosion resistant and fatigue resistant outer wall ( 30 ) of the spin-formed or stamp formed, one-piece, integral, corrosion resistant and fatigue resistant burner tip ( 50 ), and a second spin-formed or stamped outer lap joint portion of the external conduit comprising material having corrosion and fatigue resistance less than that of the corrosion resistant and fatigue resistant material of the first spin-formed or stamped outer lap joint portion. 4. The fluid-cooled combustion burner of claim 3 wherein: the first and second internal conduits and the external conduit comprise the same or different base materials selected from the group consisting of carbon steel, stainless steel, titanium, nickel-based alloys, and combinations and alloys of two or more of these; and the spin-formed or stamp formed, one-piece integral, corrosion resistant and fatigue resistant burner tip inner and outer walls and crown comprise the same or different materials selected from the group consisting of noble metals, alloys of two or more noble metals, alloys of one or more base metals with one or more noble metals, copper, copper alloys, and combinations and alloys of two or more of these. 5. The fluid-cooled combustion burner of claim 4 wherein the spin-formed or stamped inner double lap joint comprises a first weld, solder, or braze material, and the spin-formed or stamped outer double lap joint comprises a second weld, solder, or braze material, and wherein the first and second weld, solder, or braze materials may be the same or different. 6. The fluid-cooled combustion burner of claim 5 wherein the first and second weld, solder, or braze materials are independently selected from the group consisting of braze materials within the following table: Glass Glass Type Melt T, (° C.) Braze Material Solidus T, (° C.) 1 1275-1330 Pt 1769 Pd 1555 Ti 1670 Au/Pd (92/8) 1200 Ni/Pd (40/60) 1238 Pd/Co (65/35) 1219 Pd/Ni/Au (34/36/30) 1135 Cu 1083 Au 1064 2 1395-1450 Pt 1769 Pd 1555 Ti 1670 Au/Pd (92/8) 1200 Ni/Pd (40/60) 1238 Pd/Co (65/35) 1219 3 1625 Pt 1769 Ti 1670 4 1385 Pt 1769