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  • 1955-1959  (3)
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  • 1
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    Unknown
    Wind-tunnel investigation of the heat transfer to the X-15 airplane (1958)
    In:  Other Sources
    Details
    Publication Date: 2012-05-04
    Description: Paper describes the wind tunnel test program which has provided a picture of the general distribution of heat transfer coefficients over the X-15 airplane. The tunnel tests have emphasized the importance of the interactions of the flow fields of components and have shown that in some cases, where the local flow direction and total pressure can be reasonably closely inferred, use of experimental pressures to compute flow conditions yields very good predictions of heat transfer rate. There are still some regions of the airplane for which the heat transfer could not be adequately studied because of the size or construction of the model. Such local regions will not necessarily limit the operation of the airplane but will require evaluation in the full-scale tests. (author)
    Format: text
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    NASA TECHNICAL REPORTS
  • 2
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    Unknown
    A Method for Calculating the Contour of Bodies of Revolution with a Prescribed Pressure Gradient at Supersonic Speed with Experimental Verification (1956)
    In:  CASI
    Details
    Publication Date: 2019-06-28
    Type: NACA-TN-3555
    Format: application/pdf
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    NASA TECHNICAL REPORTS
  • 3
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    Heat-Transfer and Pressure Measurements on a Flat-Face Cylinder at a Mach Number Range of 2.49 to 4.44 (1959)
    In:  CASI
    Details
    Publication Date: 2019-08-16
    Description: Heat-transfer coefficients and pressure distributions were obtained on a 4-inch-diameter flat-face cylinder in the Langley Unitary Plan wind tunnel. The measured stagnation heat-transfer coefficient agrees well with 55 percent of the theoretical value predicted by the modified Sibulkin method for a hemisphere. Pressure measurements indicated the dimensionless velocity gradient parameter r du\ a(sub t) dx, where x=0 at the stagnation point was approximately 0.3 and invariant throughout the Mach number range from 2.49 to 4.44 and the Reynolds number range from 0.77 x 10(exp 6) to 1.46 x 10(exp 6). The heat-transfer coefficients on the cylindrical afterbody could be predicted with reasonable accuracy by flat-plate theory at an angle of attack of 0 deg. At angles of attack the cylindrical afterbody stagnation-line heat transfer could be computed from swept-cylinder theory for large distances back of the nose when the Reynolds number is based on the distance from the flow reattachment points.
    Keywords: Fluid Mechanics and Heat Transfer
    Type: NASA-TM-X-19
    Format: application/pdf
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    NASA TECHNICAL REPORTS
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