Proceedings of the ... International Conference on Offshore Mechanics and Arctic Engineering, Volume 18, Part 5American Society of Mechanical Engineers, 1999 - Arctic regions |
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Page 121
... nominal pressure generally peaked ( 32 MPa ) at an area of contact of 0.1 m2 . For areas of contact larger than 0.1 m2 , the average nominal pressure decreases with increasing area and the data can be fit by : a P = Po A ̄α Where : Po = ...
... nominal pressure generally peaked ( 32 MPa ) at an area of contact of 0.1 m2 . For areas of contact larger than 0.1 m2 , the average nominal pressure decreases with increasing area and the data can be fit by : a P = Po A ̄α Where : Po = ...
Page 122
... nominal pressure has been included for reference . Figure 14 indicates that the maximum pressure decreases with increasing contact area . P1 is equal to the nominal pressure , PN , in the latter part of the test while P2 , P3 , P4 are ...
... nominal pressure has been included for reference . Figure 14 indicates that the maximum pressure decreases with increasing contact area . P1 is equal to the nominal pressure , PN , in the latter part of the test while P2 , P3 , P4 are ...
Page 123
... nominal pressure ( 34.3 MPa ) occurred at a velocity of 3.16 mm / s . The maximum nominal pressure also occurred at a contact area of 0.1 m2 . A listing of the maximum values for the 1.0 m2 indentor tests is presented in Table 4 . 5 ...
... nominal pressure ( 34.3 MPa ) occurred at a velocity of 3.16 mm / s . The maximum nominal pressure also occurred at a contact area of 0.1 m2 . A listing of the maximum values for the 1.0 m2 indentor tests is presented in Table 4 . 5 ...
Contents
OMAE99PA1135 | 19 |
OMAE99PA1141 | 39 |
PROPELLERICE INTERACTION | 53 |
Copyright | |
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