Section



[Code of Federal Regulations]
[Title 46, Volume 7]
[Revised as of October 1, 2004]
From the U.S. Government Printing Office via GPO Access
[CITE: 46CFR171.055]

[Page 116-123]
 
                           TITLE 46--SHIPPING
 
   CHAPTER I--COAST GUARD, DEPARTMENT OF HOMELAND SECURITY (CONTINUED)
 
PART 171_SPECIAL RULES PERTAINING TO VESSELS CARRYING PASSENGERS--Table 
of Contents
 
                         Subpart C_Large Vessels
 
Sec. 171.055  Intact stability requirements for a monohull sailing 
vessel or a monohull auxiliary sailing vessel.

    (a) Except as specified in paragraph (b) of this section, each 
monohull sailing vessel and auxiliary sailing vessel must be shown by 
design calculations to meet the stability requirements in this section.

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    (b) Additional or different stability requirements may be needed for 
a vessel of unusual form, proportion, or rig. The additional 
requirements, if needed, will be prescribed by the Commandant.
    (c) Each vessel must have positive righting arms in each condition 
of loading and operation from--
    (1) 0 to at least 70 degrees of heel for service on protected or 
partially protected waters; and
    (2) 0 to at least 90 degrees of heel for service on exposed waters.
    (d) Each vessel must be designed to satisfy the following equations:
    (1) For a vessel in service on protected or partially protected 
waters--
[GRAPHIC] [TIFF OMITTED] TC01MR91.010

where--

X=1.0 long tons/sq. ft. (10.9 metric tons/sq. meter).
Y=1.1 long tons/sq. ft. (12.0 metric tons/sq. meter).
Z=1.25 long tons/sq. ft. (13.7 metric tons/sq. meter).

    (2) For a vessel on exposed waters--
    [GRAPHIC] [TIFF OMITTED] TC01MR91.011
    
where--

HZA, HZB, and HZC are calculated in the manner specified in paragraph 
(e) or (f) of this section.
X=1.5 long tons/sq. ft. (16.4 metric tons/sq. meter).
Y=1.7 long tons/sq. ft. (18.6 metric tons/sq. meter).
Z=1.9 long tons/sq. ft. (20.8 metric tons/sq. meter).
A=the projected lateral area or silhouette in square feet (meters) of 
the portion of the vessel above the waterline computed with all sail set 
and trimmed flat. Sail overlap areas need not be included except 
parachute type spinnakers which are to be added regardless of overlap.
H=the vertical distance in feet (meters) from the center of A to the 
center of the underwater lateral area or approximately to the one-half 
draft point.
W=the displacement of the vessel in long (metric) tons.

    (e) Except as provided in paragraph (f) of this section, HZA, HZB, 
and HZC must be determined as follows for each condition of loading and 
operation:
    (1) Plot the righting arm curve on Graphs 171.055 (b), (c), and (d) 
or (e).
    (2) If the angle at which the maximum righting arm occurs is less 
than 35 degrees, the righting arm curve must be truncated as shown on 
Graph 171.055(a).
    (3) Plot an assumed heeling arm curve on Graph 171.055(b) that 
satisfies the following conditions:
    (i) The assumed heeling arm curve must be defined by the equation--

HZ=HZA cos² (T)

where--

HZ=heeling arm.
HZA=heeling arm at 0 degrees of heel.
T=angle of heel.

    (ii) The first intercept shown on Graph 171.055(b) must occur at the 
angle of heel corresponding to the angle at which deck edge immersion 
first occurs.
    (4) Plot an assumed heeling arm curve on Graph 171.055(c) that 
satisfies the following conditions:
    (i) The assumed heeling arm curve must be defined by the equation--

HZ=HZB cos² (T)

where--

HZ=heeling arm.
HZB=heeling arm at 0 degrees of heel.
T=angle of heel.


[[Page 118]]


    (ii) The area under the assumed heeling arm curve between 0 degrees 
and the downflooding angle or 60 degrees, whichever is less, must be 
equal to the area under the righting arm curve between the same limiting 
angles.
    (5) Plot an assumed heeling arm curve on Graph 171.055 (d) or (e) 
that satisfies the following conditions:
    (i) The assumed heeling arm curve must be defined by--

HZ=HZC cos² (T)

where--

HZ=heeling arm.
HZC=heeling arm at 0 degrees of heel.
T=angle of heel.

    (ii) The area under the assumed heeling arm curve between the angles 
of 0 and 90 degrees must be equal to the area under the righting arm 
curve between 0 degrees and--
    (A) 90 degrees if the righting arms are positive to an angle less 
than or equal to 90 degrees; or
    (B) The largest angle corresponding to a positive righting arm but 
no more than 120 degrees if the righting arms are positive to an angle 
greater than 90 degrees.
    (6) The values of HZA, HZB, and HZC are read directly from Graphs 
171.055 (b), (c), and (d) or (e).
    (f) For the purpose of this section, the downflooding angle means 
the static angle from the intersection of the vessel's centerline and 
waterline in calm water to the first opening that cannot be rapidly 
closed watertight.
    (g) HZB and, if the righting arms are positive to an angle of 90 
degrees or greater, HZC may be computed from the following equation:
[GRAPHIC] [TIFF OMITTED] TC01MR91.012

where--

I=the area under the righting arm curve to--
    (1) the downflooding angle or 60 degrees, whichever is less, when 
computing HZB; or
    (2) the largest angle corresponding to a positive righting arm or 90 
degrees, whichever is greater, but no greater than 120 degrees when 
computing HZC.
T=the downflooding angle or 60 degrees, whichever is less, when 
computing HZB or 90 degrees when computing HZC.

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[CGD 79-023, 48 FR 51017, Nov. 4, 1983, as amended by CGD 83-005, 51, FR 
924, Jan. 9, 1986]