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| MIL-R-81965A(AS)
Salt spray. This test shall be conducted in accordance with the salt spray test except
4.6.7.6
and with the following changes:
Type I and Type II bomb racks.
1.
The primary release test shall be conducted utilizing the LEMA.
2.
The arm test shall be conducted utilizing a pull force of 150 pounds (68.04 kilograms).
3.
The minimum voltage test shall be as defined in 4.6.7.2c.
Type I bomb racks only.
b.
1.
The IFOBRL shall be locked prior to the salt spray exposure period.
2.
The IFOBRL shall be electrically unlocked using 20 VDC sustained just prior to the
release of the primary release test.
3.
The auxiliary release test shall be conducted utilizing the auxiliary unlock assembly and
secondary release assembly (see e. through g. of 4.6.6). The auxiliary unlock assembly
and secondary release assembly shall be replaced with spare units after completion of
the salt spray test.
c.
Type II bomb racks only.
1.
The store shall be released by pulling vertically upward on the manual release cable
assembly during the auxiliary release test.
4.6.7.7
Shock test. This test shall be conducted in accordance with the shock test, with the
following changes:
a.
When testing a Type I bomb rack, the IFOBRL shall have been locked prior to each applied
shock.
b.
The bomb rack shall be unlocked and released via the IFOBRL and LEMA, at rated
voltage, after each shock applied with the bomb rack loaded.
c.
Light load tests shall be conducted using a 101 pound (45.81 kilogram) store as indicated in
Table IV.
d.
Yield load shock tests shall be conducted with a 1,000 pound (453.6 kilogram) store. Applied
shock amplitudes for the yield load shall be based on the limit shock loads given in Table IV.
Yield shock loads are 1.15 times the values shown in Table IV.
e.
The ultimate load shock test shall not be conducted.
4.6.7.8
Vibration. This test shall be conducted in accordance with the vibration test with the
following changes:
a.
The input amplitude of vibration shall be 0.020 inch (0.0508 centimeter) D.A. or 2.6 g's,
whichever is less for test store weight of 1,000 pounds (453.6 kilograms).
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