2.4
PERFORMANCE
**************************************************************************
NOTE: Coordinate values with calculated design
requirements.
**************************************************************************
When vertically compressed by a plate extending the full length and width
of a 0.30 m one foot section of the fender, the fender shll ab sorb [8950]
[_____] joules [6,600] [_____] foot pounds of energy +10 percent when [48]
[_____] percent compressed (i.e., to a dimension of [52] [_____] percent of
its original height) with a corresponding load of not more than [85,402]
[_____] N [19,200] [_____] pounds +10 percent.
2.4.1
FENDER COMPRESSION TEST
**************************************************************************
NOTE: Coordinate values with calculated design
requirements.
**************************************************************************
Compress fender along its longitudinal axis between two parallel flat plate
surfaces to a compressed dimension of [48] [_____] percent of its original
height. Record load and the corresponding deflection at 6 mm 1/4 inch
increments and plot as a graph of load versus deflection. The
Load-Deflection curve shall then be integrated to generate an
Energy-Deflection curve for the fender. After compression of the fender to
[48] [_____] percent of its original height, the fender shall be rebound to
98 percent of its original height within [ten] [_____] minutes after the
load is removed.
2.4.2
ANGULAR FENDER COMPRESSION TEST
**************************************************************************
NOTE: Coordinate values with calculated design
requirements.
**************************************************************************
Compress fender along its longitudinal axis between two flat plate
surfaces, at an angle of [0.26] [_____] rad [15] [_____] degrees to each
other, to a compressed dimension of [48] [_____] percent of its original
height. Record load and the corresponding deflection at 6 mm 1/4 inch
increments and plot as a graph of load versus deflection. The
Load-Deflection curve shall then be integrated to generate an
Energy-Deflection curve for the fender. After compression of the fender to
[48] [_____] percent of its original height, the fender shall rebound to 98
percent of its original height within [10] [_____] minutes after the load
is removed.
PART 3
EXECUTION
3.1
INSTALLATION
Install fenders with the fender longitudinal axis vertical. Install the
fenders in the position and at the spacing indicated on the drawings.
3.1.1
Antiseize Compound
Coat threads of bolts prior to applying washers and nuts.
Recoat bolt
SECTION 02397
Page 8
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