Section

[Code of Federal Regulations]
[Title 49, Volume 2]
[Revised as of October 1, 2002]
From the U.S. Government Printing Office via GPO Access
[CITE: 49CFR178.53]

[Page 801-805]

TITLE 49--TRANSPORTATION

CHAPTER I--RESEARCH AND SPECIAL PROGRAMS ADMINISTRATION, DEPARTMENT OF
TRANSPORTATION

PART 178--SPECIFICATIONS FOR PACKAGINGS--Table of Contents

Subpart C--Specifications for Cylinders

Sec. 178.53 Specification 4D welded steel cylinders for aircraft use.

(a) Type, size, and service pressure. A DOT 4D cylinder is a welded
steel sphere (two seamless hemispheres) or circumferentially welded
cylinder (two seamless drawn shells) with a water capacity not over 100
pounds and a service pressure of at least 300 but not over 500 psig.
Cylinders closed in by spinning process are not authorized.
(b) Steel. Open-hearth or electric steel of uniform and weldable
quality must be used. Content may not exceed the following: Carbon,
0.25; phosphorus, 0.045; sulphur, 0.050, except that the following
steels commercially known as 4130X and Type 304, 316, 321, and 347
stainless steels may be used with proper welding procedure. A heat of
steel made under table 1 in this paragraph (b), check chemical analysis
of which is slightly out of the specified range, is acceptable, if
satisfactory in all other respects, provided the tolerances shown in
table 2 in this paragraph (b) are not exceeded, except as approved by
the Associate Administrator. The following chemical analyses are
authorized:

[[Page 802]]

Table 1--4130X Steel
------------------------------------------------------------------------
4130X Percent
------------------------------------------------------------------------
Carbon..................................... 0.25/0.35.
Manganese.................................. 0.40/0.60.
Phosphorus................................. 0.04 max.
Sulphur.................................... 0.05 max
Silicon.................................... 0.15/0.35.
Chromium................................... 0.80/1.10.
Molybdenum................................. 0.15/0.25.
Zirconium.................................. None.
Nickel..................................... None.
------------------------------------------------------------------------

Table 2--Authorized Stainless Steels
----------------------------------------------------------------------------------------------------------------
Stainless steels
---------------------------------------------------------------
304 (percent) 316 (percent) 321 (percent) 347 (percent)
----------------------------------------------------------------------------------------------------------------
Carbon (max).................................... 0.08 0.08 0.08 0.08
Manganese (max)................................. 2.00 2.00 2.00 2.00
Phosphorus (max)................................ .030 .045 .030 .030
Sulphur (max)................................... .030 .030 .030 .030
Silicon (max)................................... .75 1.00 .75 .75
Nickel.......................................... 8.0/11.0 10.0/14.0 9.0/13.0 9.0/13.0
Chromium........................................ 18.0/20.0 16.0/18.0 17.0/20.0 17.0/20.0
Molybdenum...................................... .............. 2.0/3.0 .............. ..............
Titanium........................................ .............. .............. (\1\) ..............
Columbium....................................... .............. .............. .............. (\2\)
----------------------------------------------------------------------------------------------------------------
\1\ Titanium may not be less than 5C and not more than 0.60%.
\2\ Columbium may not be less than 10C and not more than 1.0%.

Table 3--Check Analysis Tolerances
----------------------------------------------------------------------------------------------------------------
Tolerance (percent) over
the maximum limit or
under the minimum limit
Element Limit or maximum specified (percent) -------------------------
Under Over
minimum maximum
limit limit
----------------------------------------------------------------------------------------------------------------
Carbon......................... To 0.15 incl......................................... 0.01 0.01
Over 0.15 to 0.40 incl............................... .03 .04
Manganese...................... To 0.60 incl......................................... .03 .03
Over 1.15 to 2.50 incl............................... .05 .05
Phosphorus \1\................. All ranges........................................... ........... .01
Sulphur........................ All ranges........................................... ........... .01
Silicon........................ To 0.30 incl......................................... .02 .03
Over 0.30 to 1.00 incl............................... .05 .05
Nickel......................... Over 5.30 to 10.00 incl.............................. .10 .10
Over 10.00 to 14.00 incl............................. .15 .15
Chromium....................... To 0.90 incl......................................... .03 .03
Over 0.90 to 2.10 incl............................... .05 .05
Over 15.00 to 20.00 incl............................. .20 .20
Molybdenum..................... To 0.20 incl......................................... .01 .01
Over 0.20 to 0.40 incl............................... .02 .02
Over 1.75 to 3.0 incl................................ .10 .10
Titanium....................... All ranges........................................... .05 .05
Columbium...................... All ranges........................................... .05 .05
----------------------------------------------------------------------------------------------------------------
\1\ Rephosphorized steels not subject to check analysis for phosphorus.

(c) Identification of material. Material must be identified by any
suitable method except that plates and billets for hotdrawn cylinders
must be marked with the heat number.
(d) Manufacture. Cylinders must be manufactured using equipment and
processes adequate to ensure that each cylinder produced conforms to the
requirements of this subpart. No defect is permitted that is likely to
weaken the finished container appreciably. A reasonably smooth and
uniform surface finish is required. Welding procedures and operators
must be qualified in accordance with CGA Pamphlet C-3 (incorporated by
reference; see Sec. 171.7 of this subchapter).
(e) Wall thickness. The wall stress at the minimum test pressure may
not exceed 24,000 psi, except where steels commercially known as 4130X,
types

[[Page 803]]

304, 316, 321, and 347 stainless steels are used, stress at the test
pressures may not exceed 37,000 psi. The minimum wall thickness for any
container having a capacity of 1,100 cubic inches or less is 0.04 inch.
The minimum wall thickness for any container having a capacity in excess
of 1,100 cubic inches is 0.095 inch. Calculations must be done by the
following:
(1) Calculation for a ``sphere'' must be made by the formula:

S = PD / 4tE

Where:

S = wall stress in psi;
P = test pressure prescribed for water jacket test, i.e., at least two
times service pressure, in psig;
D = outside diameter in inches;
t = minimum wall thickness in inches;
E = 0.85 (provides 85 percent weld efficiency factor which must be
applied in the girth weld area and heat affected zones which zone must
extend a distance of 6 times wall thickness from center line of weld);
E = 1.0 (for all other areas).

(2) Calculation for a cylinder must be made by the formula:

S = [P(1.3D² + 0.4d²)] / (D² -
d^T12)

Where:

S = wall stress in psi;
P = test pressure prescribed for water jacket test, i.e., at least two
times service pressure, in psig;
D = outside diameter in inches;
d = inside diameter in inches.

(f) Heat treatment. The completed cylinders must be uniformly and
properly heat-treated prior to tests.
(g) Openings in container. Openings in cylinders must comply with
the following:
(1) Each opening in the container, except those for safety devices,
must be provided with a fitting, boss, or pad, securely attached to the
container by brazing or by welding or by threads. If threads are used,
they must comply with the following:
(i) Threads must be clean cut, even, without checks, and tapped to
gauge.
(ii) Taper threads must be of a length not less than that specified
for American Standard taper pipe threads.
(iii) Straight threads, having at least 4 engaged threads, must have
a tight fit and calculated shear strength of at least 10 times the test
pressure of the container. Gaskets, adequate to prevent leakage, are
required.
(2) Closure of a fitting, boss, or pad must be adequate to prevent
leakage.
(h) Hydrostatic test. Each cylinder must successfully withstand a
hydrostatic test, as follows:
(1) The test must be by water-jacket, or other suitable method,
operated so as to obtain accurate data. A pressure gauge must permit a
reading to an accuracy of 1 percent. An expansion gauge must permit
reading of total expansion to an accuracy of either 1 percent or 0.1
cubic centimeter.
(2) Pressure must be maintained for at least 30 seconds and
sufficiently longer to ensure complete expansion. Any internal pressure
applied after heat-treatment and previous to the official test may not
exceed 90 percent of the test pressure. If, due to failure of the test
apparatus, the test pressure cannot be maintained, the test may be
repeated at a pressure increased by 10 percent or 100 psig, whichever is
the lower.
(3) Permanent volumetric expansion may not exceed 10 percent of the
total volumetric expansion at test pressure.
(4) Containers must be tested as follows:
(i) Each container to at least 2 times service pressure; or
(ii) One container out of each lot of 200 or less to at least 3
times service pressure. Others must be examined under pressure of 2
times service pressure and show no defects.
(i) Flattening test for spheres and cylinders. Spheres and cylinders
must be subjected to a flattening test as follows:
(1) One sphere taken at random out of each lot of 200 or less must
be subjected to a flattening test as follows:
(i) The test must be performed after the hydrostatic test.
(ii) The test must be between parallel steel plates on a press with
a welded seam at right angles to the plates. Any projecting
appurtenances may be cut off (by mechanical means only) prior to
crushing.
(2) One cylinder taken at random out of each lot of 200 or less must
be subjected to a flattening test, as follows:
(i) The test must be performed after the hydrostatic test.

[[Page 804]]

(ii) The test must be between knife edges, wedge shaped, 60 deg.
angle, rounded to \1/2\ inch radius. For lots of 30 or less, physical
tests are authorized to be made on a ring at least 8 inches long cut
from each cylinder and subjected to the same heat treatment as the
finished cylinder.
(j) Physical test and specimens for spheres and cylinders. Spheres
and cylinders must be subjected to a physical test as follows:
(1) Physical test for spheres are required on 2 specimens cut from a
flat representative sample plate of the same heat taken at random from
the steel used to produce the sphere. This flat steel from which the 2
specimens are to be cut must receive the same heat-treatment as the
spheres themselves. Sample plates must be taken for each lot of 200 or
less spheres.
(2) Specimens for spheres must have a gauge length 2 inches with a
width not over 1\1/2\ inches, or a gauge length at least 24 times the
thickness with a width not over 6 times the thickness is authorized when
a wall is not over \3/16\ inch thick.
(3) Physical test for cylinders is required on 2 specimens cut from
1 cylinder taken at random out of each lot of 200 or less. For lots of
30 or less, physical tests are authorized to be made on a ring at least
8 inches long cut from each cylinder and subjected to the same heat
treatment as the finished cylinder.
(4) Specimens for cylinders must conform to the following:
(i) A gauge length of 8 inches with a width not over 1\1/2\ inches,
or a gauge length of 2 inches with a width not over 1\1/2\ inches, or a
gauge length at least 24 times the thickness with a width not over 6
times the thickness is authorized when a cylinder wall is not over \3/
16\ inch thick.
(ii) The specimen, exclusive of grip ends, may not be flattened.
Grip ends may be flattened to within 1 inch of each end of the reduced
section. Heating of the specimen for any purpose is not authorized.
(5) The yield strength in tension must be the stress corresponding
to a permanent strain of 0.2 percent of the gauge length. The following
conditions apply:
(i) The yield strength must be determined by either the ``offset''
method or the ``extension under load'' method as prescribed in ASTM E 8
(incorporated by reference; see Sec. 171.7 of this subchapter).
(ii) In using the ``extension under load'' method, the total strain
(or ``extension under load'') corresponding to the stress at which the
0.2 percent permanent strain occurs may be determined with sufficient
accuracy by calculating the elastic extension of the gauge length under
appropriate load and adding thereto 0.2 percent of the gauge length.
Elastic extension calculations must be based on an elastic modulus of
30,000,000. In the event of controversy, the entire stress-strain
diagram must be plotted and the yield strength determined from the 0.2
percent offset.
(iii) For the purpose of strain measurement, the initial strain must
be set while the specimen is under a stress of 12,000 psi and the strain
indicator reading being set at the calculated corresponding strain.
(iv) Cross-head speed of the testing machine may not exceed \1/8\
inch per minute during yield strength determination.
(k) Acceptable results for physical and flattening tests. Either of
the following is an acceptable result:
(1) An elongation of at least 40 percent for a 2 inch gauge length
or at least 20 percent in other cases and yield strength not over 73
percent of tensile strength. In this instance, the flattening test is
not required.
(2) An elongation of at least 20 percent for a 2 inch gauge length
or 10 percent in other cases. Flattening is required to 50 percent of
the original outside diameter without cracking.
(l) Rejected cylinders. Reheat-treatment is authorized for rejected
cylinders. Subsequent thereto, containers must pass all prescribed tests
to be acceptable. Repair of welded seams by welding prior to reheat-
treatment is authorized.
(m) Marking. Marking on each container by stamping plainly and
permanently are only authorized where the metal is at least 0.09 inch
thick, or on a metal nameplate permanently secured to the container by
means other

[[Page 805]]

than soft solder, or by means that would not reduce the wall thickness.

[Amdt. 178-114, 61 FR 25942, May 23, 1996, as amended at 66 FR 45386,
45388, Aug. 28, 2001; 67 FR 51653, Aug. 8, 2002]