Pipe support

The invention claimed is: 1. A pipe assembly for an aircraft fluid system comprising: an aircraft structural member; a fluid pipe extending through an opening in the aircraft structural member; a pipe support supporting the fluid pipe, the pipe support comprising: a first part and a second part which together form a collar with a pipe receiving bore supporting the fluid pipe on the structural member; a first fastener hole extending through both the first part and the second part; a second fastener hole extending through both the first part and the second part; a first fastener extending through the first fastener hole; and a second fastener extending through the second fastener hole; wherein the first and second fasteners fasten the first and second parts to each other and to the aircraft structural member, wherein the first part has a first abutment face and the second part has a second abutment face, the first and second abutment faces being configured to abut to form the collar, wherein a first bore recess is formed in the first abutment face and a second bore recess is formed in the second abutment face, the first and second bore recesses together forming the pipe receiving bore, wherein the first and second abutment faces are inclined relative to an axis of the pipe receiving bore, wherein the first and second abutment surfaces extend at an oblique angle to the axis of the pipe receiving bore, wherein the oblique angle is an acute angle less than 45 degrees; and wherein the first part has a pair of opposing first clamping faces, and the second part has a pair of opposing second clamping faces, each of the first and the second clamping faces includes a stop comprising a male stop feature protruding axially and a female stop feature, wherein the female stop features on first clamping faces of the first part are configured to receive the male stop features on the second clamping faces of the second part when the first and the second parts are brought together in an axial direction of the first and second fastener holes, wherein the stop prevents relative rotation between the first and the second parts about the first or the second fasteners. 2. The pipe assembly of claim 1 , wherein axes of the first and second fastener holes extend parallel to an axis of the pipe receiving bore. 3. The pipe assembly of claim 1 , wherein the first part has a first abutment face and the second part has a second abutment face, the first and second abutment faces being configured to abut to form the collar. 4. The pipe assembly of claim 3 , wherein a first bore recess is formed in the first abutment face and a second bore recess is formed in the second abutment face, the first and second bore recesses together forming the pipe receiving bore. 5. The pipe assembly of claim 1 , wherein the first part and the second part each comprise a first overlapping portion which are arranged to overlap to define the first fastener hole; and wherein the first part and the second part each comprise a second overlapping portion which are arranged to overlap to define the second fastener hole. 6. The pipe assembly of claim 1 , wherein the first part has a first clamping face, and the second part has a second clamping face, wherein the first and second clamping faces clamp against each other when the first and second parts are brought together in an axial direction of the first and second fastener holes. 7. The pipe assembly of claim 6 , wherein the first part has two first clamping faces on one side of the first part, and wherein the second part has two second clamping faces on one side of the second part. 8. The pipe assembly of claim 1 , wherein the stop is offset from axes of both the first and second fastener holes to prevent rotation of one of the first and second parts relative to the other of the first and second parts about either of the axes of the first and second fastener holes. 9. The pipe assembly of claim 1 , wherein one of the first and second parts is interchangeable with another of the first and second parts, respectively. 10. The pipe assembly of claim 9 , wherein the first and second parts are at least substantially identical. 11. The pipe assembly of claim 1 , further comprising a first fastener configured to extend through the first fastener hole of the first part and the second part to clamp the first and second parts with each other and the structural member; and a second fastener configured to extend through the second fastener hole of the first part and the second part to clamp the first and second parts with each other and the structural member. 12. The pipe assembly of claim 1 , wherein the fluid pipe is slidably retained by the pipe support collar. 13. The pipe assembly of claim 1 , wherein the pipe is a hydraulic pipe. 14. The pipe assembly of claim 1 , wherein the structural member is one of a rib and a support bracket. 15. A fixed wing aircraft comprising at least one pipe assembly of claim 1 . 16. A method of supporting a pipe on a structural member of an aircraft using the pipe assembly for the aircraft fluid system of claim 1 . 17. A pipe support for an aircraft fluid system, the pipe support comprising: a first part and a second part which together form a collar with a pipe receiving bore configured to support a fluid pipe on a structural member; a first fastener hole extending through both the first part and the second part; and a second fastener hole extending through both the first part and the second part, wherein the first and second fastener holes are each arranged to receive a fastener to fasten the first and second parts to each other and to the structural member, wherein the first and second parts are at least substantially identical, wherein the first part has mirror symmetry about a plane of symmetry mid-way between the first and second fastener holes, wherein the second part has mirror symmetry about the plane of symmetry mid-way between the first and second fastener holes; and, wherein the first part has a pair of opposing first clamping faces, and the second part has a pair of opposing second clamping faces, each of the first and the second clamping faces includes a stop comprising a male stop feature protruding axially and a female stop feature, wherein the female stop features on first clamping faces of the first part are configured to receive the male stop features on the second clamping faces of the second part when the first and the second parts are brought together in an axial direction of the first and second fastener holes, wherein the stop prevents relative rotation between the first and the second parts about either of the fasteners.