Lightweight, high flow hose assembly and method of manufacture

What is claimed is: 1. A hose assembly, comprising: an inner tube comprising an elastomeric material, wherein the inner tube has a longitudinal length and a first circumference below a minimum expansion pressure, wherein the inner tube is expandable to a larger, second circumference upon application of fluid pressure on an inner surface of the inner tube at or above the minimum expansion pressure; and an outer tube covering the inner tube, the outer tube having a longitudinal length and a weld seam along the longitudinal length of the outer tube, the weld seam comprising melted fabric, wherein the hose assembly further includes a male coupler connected to first ends of the inner tube and the outer tube and a female coupler connected to second ends of the inner tube and the outer tube, and wherein the outer tube is not connected or attached to the inner tube between the male coupler and the female coupler. 2. The hose assembly according to claim 1 , wherein the outer tube has a first end and a second end and two sides between ends, wherein the two sides are bonded at the weld seam, and wherein the outer tube has a fixed longitudinal length. 3. The hose assembly according to claim 1 , wherein the outer tube has an inner surface with a circumference and the second circumference of the inner tube is less than or equal to the outer tube inner surface circumference. 4. The hose assembly according to claim 1 , wherein a slip coating layer comprising a lubricant is present on an outer surface of the inner tube. 5. The hose assembly according to claim 1 , wherein the weld seam has a weld width of 9.5 mm+/−3.0 mm, and wherein the weld seam has a weld thickness that is at least 50% greater than a thickness of the fabric of the outer tube in a non-weld seam section. 6. The hose assembly according to claim 5 , wherein the weld seam weld width is 9.5 mm+/−1.50 mm, and wherein the weld thickness is at least 75% greater than the thickness of the fabric of the outer tube in the non-weld seam section. 7. The hose assembly according to claim 6 , wherein the weld seam weld thickness is at least 100% greater than the thickness of the fabric of the outer tube in the non-weld seam section. 8. A process for producing the hose assembly according to claim 1 , comprising: obtaining the inner tube comprising the elastomeric material; obtaining a fabric having a first end, a second end, a first side and a second side, the sides located between the ends; wrapping the fabric around the inner tube and abutting the first side and the second side of the fabric, and heating the fabric to melt and bond the first side to the second side along a length of the sides thereby forming the outer tube having the weld seam along the longitudinal length of the hose assembly, wherein during formation of the outer tube a section of the inner tube is located inside the outer tube. 9. The process according to claim 8 , further including the step of overlapping the first side and the second side of the fabric 9.5 mm+/−3.0 mm. 10. The process according to claim 9 , further including the step of overlapping the first side and the second side of the fabric 9.5 mm+/−1.5 mm. 11. The process according to claim 9 , wherein the heating step comprises heating the fabric with hot air at a temperature between 550° C. and 750° C. 12. The process according to claim 11 , further including the step of partially forming the fabric around the inner tube with a folding fixture and shaping the fabric into a round, tubular profile using a die. 13. The process according to claim 12 , further including a step of passing the inner tube and outer tube through a set of rollers which force the heated fabric surfaces against each other under pressure after the heating step. 14. The process according to claim 8 , wherein the heating step comprises heating the fabric with hot air at a temperature between 550° C. and 750° C. 15. The process according to claim 14 , further including the step of partially forming the fabric around the inner tube with a folding fixture and shaping the fabric into a round, tubular profile using a die. 16. The process according to claim 15 , further including a step of passing the inner tube and outer tube through a set of rollers which force the heated fabric surfaces against each other under pressure after the heating step. 17. A hose assembly, comprising: an inner tube comprising an elastomeric material, wherein the inner tube has a longitudinal length and a first circumference below a minimum expansion pressure, wherein the inner tube is expandable to a larger, second circumference upon application of fluid pressure on an inner surface of the inner tube at or above the minimum expansion pressure; and an outer tube covering the inner tube, the outer tube having a longitudinal length and a weld seam along the longitudinal length of the outer tube, the weld seam consisting of melted fabric, wherein the hose assembly further includes a male coupler connected to first ends of the inner tube and the outer tube and a female coupler connected to second ends of the inner tube and the outer tube, and wherein the outer tube is not connected or attached to the inner tube between the male coupler and the female coupler. 18. The hose assembly according to claim 17 , wherein the outer tube has a first end and a second end and two sides between ends, wherein the two sides are bonded at the weld seam, and wherein the outer tube has a fixed longitudinal length. 19. The hose assembly according to claim 18 , wherein the weld seam has a weld width of 9.5 mm+/−3.0 mm, and wherein the weld seam has a weld thickness that is at least 50% greater than a thickness of the fabric of the outer tube in a non-weld seam section. 20. The hose assembly according to claim 19 , wherein the weld seam weld width is 9.5 mm+/−1.50 mm, and wherein the weld thickness is at least 75% greater than the thickness of the fabric of the outer tube in the non-weld seam section.