Flow master for apparatus testing

The invention claimed is: 1. A method for evaluating a flow testing system for an aerospace component using a flow master, the method comprising: determining an desired back pressure through a flow path through the aerospace component; forming a metering outlet through a metering plate of the airflow master based on the desired back pressure; attaching the metering plate to a hollow body of the airflow master, in a fluid seal; positioning a first sealing surface of the flow master at a mounting location of the airflow testing system; securing the flow master to the airflow testing position in a fluid seal; flowing air through the flow master; sensing back pressure across the flow master using the airflow testing system; and evaluating the airflow testing system based on a difference between the desired back pressure and the sensed back pressure. 2. The method of claim 1 , wherein determining the desired back pressure comprises: sensing back pressure across the flow path through an ideal physical copy of the aerospace component. 3. The method of claim 1 , wherein positioning the first sealing surface at the mounting location comprises: aligning geometry of the first sealing surface identical to corresponding sealing surface geometry of the aerospace component with complementary geometry of a first sealing mold of the airflow testing system. 4. The method of claim 3 , wherein securing the flow master to the airflow testing position comprises: clamping the first sealing surface to the first sealing mold. 5. The method of claim 4 , further comprising: exerting a clamping force on a second sealing mold complementary to a second sealing surface opposite the hollow body from the first sealing surface. 6. The method of claim 1 , wherein forming a metering outlet comprises: forming a plurality of holes through the metering plate. 7. The method of claim 6 , wherein forming the plurality of holes comprises: forming at least one hole through the metering plate; testing flow through the resulting at least one hole; and forming additional holes through the metering plate; and wherein sensing back pressure further comprises re-testing flow through all resulting holes. 8. The method of claim 1 , wherein a diameter and a number of the plurality of holes are selected to permit a desired flow rate of outlet air flow resulting in the desired back pressure. 9. The method of claim 1 , further comprising: determining a second desired back pressure across a second flow path through the aerospace component; forming a metering outlet through a second metering plate based on the second desired back pressure; replacing the metering plate with the second metering plate; and sensing a second back pressure across the flow master using the airflow testing system. 10. A flow master configured to mate with a testing apparatus for testing airflow characteristics of an aerospace component, the flow master comprising: a first sealing surface matching a first sealing surface shape of the aerospace component, and having a first inlet aperture corresponding to a first internal airflow path of the aerospace component; a hollow body extending from the first sealing surface and defining an interior space fluidly accessible via the inlet aperture, the hollow body having a duct opening; a metering plate secured in a fluid seal across the duct opening of the hollow body, the metering plate having a metering outlet selected to provide an overall flow loss and resulting back pressure across the flow master. 11. The flow master of claim 10 , further comprising: a second sealing surface matching a second sealing surface shape of the aerospace component, and situated at an opposite end of the hollow body from the first sealing surface; and wherein the flow master is configured to be retained at the testing apparatus via a clamping force exerted on the first and second sealing surfaces. 12. The flow master of claim 10 , wherein the hollow body comprises a hollow strut extending between the first sealing surface and the second sealing surface. 13. The flow master of claim 12 , wherein the duct opening is situated in an outlet section extending from the hollow strut. 14. The flow master of claim 10 , wherein the metering plate is secured to the duct opening via a band clamp. 15. The flow master of claim 10 , wherein the metering plate is secured to the duct opening via an O-ring seal. 16. The flow master of claim 10 , wherein the first sealing surface and the hollow body are formed of aluminum. 17. The flow master of claim 10 , wherein the metering outlet comprises a plurality of holes extending through the metering plate. 18. The flow master of claim 10 , wherein the first sealing surface forms a fluid seal with the testing apparatus. 19. The flow master of claim 10 , wherein the metering plate consists of a planar element. 20. The flow master of claim 19 , wherein the planar element is a planar disk.