Composite transition fitting

The invention claimed is: 1 . A pipe fitting comprising: a first body and a second body that together at least partially define a fluid flow passage; the first body defining a first portion of the fluid flow passage that extends from a first end of the fluid flow passage to a first internal opening; the second body defining a second portion of the fluid flow passage that extends from a second internal opening to a second end of the fluid flow passage; wherein the first body has a first interface surface that surrounds the first internal opening, the first interface surface having a plurality of anti-rotation grooves; wherein the second body has a second interface surface that surrounds the second internal opening and engages with the first interface surface, the first internal opening being in fluid communication with the second internal opening, and the second interface surface having a plurality of anti-rotation fingers that are each received by and engage with a corresponding one of the anti-rotation grooves; wherein rotation of the second body relative to the first body is resisted by the engagement of the anti-rotation fingers with the anti-rotation grooves; and wherein all of the anti-rotation grooves are substantially parallel. 2 . The pipe fitting according to claim 1 , wherein the first body has a wall extending about a central axis with an outer surface, an inner surface, and an end surface that spans between the outer surface and the inner surface; wherein the end surface comprises the first interface surface; and wherein the anti-rotation grooves each extend from the outer surface of the wall towards a central plane that contains the central axis and is substantially perpendicular to the anti-rotation grooves. 3 . The pipe fitting according to claim 2 , wherein each of the anti-rotation grooves is spaced from the central plane, and spaced from the first internal opening. 4 . The pipe fitting according to claim 2 , wherein the anti-rotation grooves on a first side of the central plane are symmetrical relative to the anti-rotation grooves on a second side of the central plane. 5 . The pipe fitting according to claim 4 , wherein the inner surface defines at least part of the first portion of the fluid flow passage; wherein the first internal opening comprises a circular opening; and wherein the central axis extends through a center of the circular opening. 6 . The pipe fitting according to claim 5 , wherein the end surface comprises a top surface that is substantially perpendicular to the central axis. 7 . The pipe fitting according to claim 6 , wherein each of the anti-rotation grooves has a first side surface, a second side surface, and a bottom surface; wherein the first side surface and the second side surface each extend axially inwardly from the top surface, the first side surface being spaced from the second side surface; wherein the bottom surface is spaced axially inwardly from the top surface and extends between the first side surface and the second side surface; and wherein the first side surface, the second side surface, and the bottom surface of each anti-rotation groove defines a groove cavity. 8 . The pipe fitting according to claim 7 , wherein the anti-rotation grooves each have a groove end surface that extends axially inwardly from the top surface to the bottom surface, and that extends between the first side surface and the second side surface; and wherein the groove end surface of each of the anti-rotation grooves is spaced from the central plane, and spaced from the circular opening. 9 . The pipe fitting according to claim 8 , wherein the first side surface of each anti-rotation groove is substantially parallel to the second side surface; and wherein the groove end surface of each of the anti-rotation grooves is rounded. 10 . The pipe fitting according to claim 9 , wherein each of the anti-rotation grooves has a width defined by a distance between the first side surface and the second side surface; wherein each of the anti-rotation grooves has a depth defined by an axial distance of the bottom surface from the top surface; and wherein a ratio of the width to the depth is in a range from 1.45 to 1.55. 11 . The pipe fitting according to claim 10 , wherein the wall is a cylindrical wall that extends concentrically about the central axis, with the outer surface being a cylindrical outer surface and the inner surface being a cylindrical inner surface of the cylindrical wall; wherein the groove end surface of each of the anti-rotation grooves is spaced a radial distance from the cylindrical inner surface of the cylindrical wall; wherein the cylindrical wall has a wall thickness defined by a distance between the cylindrical outer surface and the cylindrical inner surface; and wherein a ratio of the radial distance to the wall thickness is greater than 0.3. 12 . The pipe fitting according to claim 11 , wherein the second body has a cylindrical extension that extends concentrically about the central axis; wherein the cylindrical extension has an inner extension surface that engages with the cylindrical outer surface of the cylindrical wall; and wherein the cylindrical wall has at least one circumferential groove that extends radially inwardly from the cylindrical outer surface. 13 . The pipe fitting according to claim 12 , wherein the at least one circumferential groove comprises a sealing groove that contains a resiliently compressible o-ring, the o-ring being configured to provide a fluid tight seal between the cylindrical wall and the cylindrical extension. 14 . The pipe fitting according to claim 13 , wherein the cylindrical extension has a circumferential finger that extends radially inwardly from the inner extension surface; wherein the at least one circumferential groove receives and engages with the circumferential finger; and wherein axial movement of the second body relative to the first body is resisted by the engagement of the circumferential finger with the at least one circumferential groove. 15 . The pipe fitting according to claim 8 , wherein the second end of the fluid flow passage is axially spaced from the first body; wherein the first end of the fluid flow passage is axially spaced from the second body; wherein the first body has a threaded end portion for threadedly engaging with a threaded attachment; wherein the threaded end portion defines the first end of the fluid flow passage; wherein the second body has a cylindrical end portion for engaging with a cylindrical attachment; and wherein the cylindrical end portion defines the second end of the fluid flow passage. 16 . The pipe fitting according to claim 7 , wherein the bottom surface of each of the anti-rotation grooves is substantially flat, and substantially parallel to the top surface; wherein the first side surface and the second side surface each have a substantially flat portion; wherein the substantially flat portion of the first side surface and the substantially flat portion of the second side surface are substantially perpendicular to the top surface; and wherein the first side surface and the second side surface each have a rounded transition portion that connects the substantially flat portion to the top surface. 17 . The pipe fitting according to claim 16 , wherein the first interface surface has a bearing area where the anti-rotation grooves contact with the anti-rotation fingers to resist rotation of the second body about the central axis relative to the first body; wherein the be