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: 49CFR178.46]

[Page 787-792]

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. 178.46 Specification 3AL seamless aluminum cylinders.

(a) Size and service pressure. A DOT 3AL cylinder is a seamless
aluminum cylinder with a maximum water capacity of 1000 pounds and
minimum service pressure of 150 psig.
(b) Authorized material and identification of material. The material
of construction must meet the following conditions:
(1) Starting stock must be cast stock or traceable to cast stock.
(2) Material with seams, cracks, laminations, or other defects
likely to weaken the finished cylinder may not be used.
(3) Material must be identified by a suitable method that will
identify the alloy, the aluminum producer's cast number, the solution
heat treat batch number and the lot number.
(4) The material must be of uniform quality. Only the following heat
treatable aluminum alloys in table 1 and 2 are permitted as follows:

[[Page 788]]

Table 1.--Heat or Cast Analysis for Aluminum; Similar to ``Aluminum Association''\1\ Alloy 6061
[CHEMICAL ANALYSIS IN WEIGHT PERCENT\2\]
--------------------------------------------------------------------------------------------------------------------------------------------------------
Other
Si min/ Cu min/ Mg min/ ----------------------
max Fe max max Mn max max Cr min/max Zn max Ti max Pb max Bi max total A1
each max max
--------------------------------------------------------------------------------------------------------------------------------------------------------
0.4/0.8 0.7 0.15/0.4 0.15 0.8/1.2 0.04/0.35 0.25 0.15 0.005 0.005 0.05 0.15 Bal.
--------------------------------------------------------------------------------------------------------------------------------------------------------
\1\ The ``Aluminum Association'' refers to ``Aluminum Standards and Data 1993'', published by the Aluminum Association Inc.
\2\ Except for ``Pb'' and ``Bi'', the chemical composition corresponds with that of Table 1 of ASTM B221 for Aluminum Association alloy 6061.

[[Page 789]]

Table 2--Mechanical Property Limits
----------------------------------------------------------------------------------------------------------------
Tensile strength--PSI Elongation--percent
---------------------------------------- minimum for 2'' or
Alloy and temper 4D \1\ size
Ultimate--minimum Yield--minimum specimen
----------------------------------------------------------------------------------------------------------------
6061-T6............................................ 38,000 35,000 \2\14
----------------------------------------------------------------------------------------------------------------
\1\ ``D'' represents specimen diameters. When the cylinder wall is greater than \3/16\ inch thick, a retest
without reheat treatment using the 4D size specimen is authorized if the test using the 2 inch size specimen
fails to meet elongation requirements.
\2\ When cylinder wall is not over \3/16\-inch thick, 10 percent elongation is authorized when using a 24tx6t
size test specimen.

(5) All starting stock must be 100 percent ultrasonically inspected,
along the length at right angles to the central axis from two positions
at 90 deg. to one another. The equipment and continuous scanning
procedure must be capable of detecting and rejecting internal defects
such as cracks which have an ultrasonic response greater than that of a
calibration block with a \5/64\-inch diameter flat bottomed hole.
(6) Cast stock must have uniform equiaxed grain structure not to
exceed 500 microns maximum.
(7) Any starting stock not complying with the provisions of
paragraphs (b)(1) through (b)(6) of this section must be rejected.
(c) Manufacture. Cylinders must be manufactured in accordance with
the following requirements:
(1) Cylinder shells must be manufactured by the backward extrusion
method and have a cleanliness level adequate to ensure proper
inspection. No fissure or other defect is acceptable that is likely to
weaken the finished cylinder below the design strength requirements. A
reasonably smooth and uniform surface finish is required. If not
originally free from such defects, the surface may be machined or
otherwise conditioned to eliminate these defects.
(2) Thickness of the cylinder base may not be less than the
prescribed minimum wall thickness of the cylindrical shell. The cylinder
base must have a basic torispherical, hemispherical, or ellipsoidal
interior base configuration where the dish radius is no greater than 1.2
times the inside diameter of the shell. The knuckle radius may not be
less than 12 percent of the inside diameter of the shell. The interior
base contour may deviate from the true torispherical, hemispherical or
ellipsoidal configuration provided that--
(i) Any areas of deviation are accompanied by an increase in base
thickness;
(ii) All radii of merging surfaces are equal to or greater than the
knuckle radius;
(iii) Each design has been qualified by successfully passing the
cycling tests in this paragraph (c); and
(iv) Detailed specifications of the base design are available to the
inspector.
(3) For free standing cylinders, the base thickness must be at least
two times the minimum wall thickness along the line of contact between
the cylinder base and the floor when the cylinders are in the vertical
position.
(4) Welding or brazing is prohibited.
(5) Each new design and any significant change to any acceptable
design must be qualified for production by testing prototype samples as
follows:
(i) Three samples must be subjected to 100,000 pressure reversal
cycles between zero and service pressure or 10,000 pressure reversal
cycles between zero and test pressure, at a rate not in excess of 10
cycles per minute without failure.
(ii) Three samples must be pressurized to destruction and failure
may not occur at less than 2.5 times the marked cylinder service
pressure. Each cylinder must remain in one piece. Failure must initiate
in the cylinder sidewall in a longitudinal direction. Rate of
pressurization may not exceed 200 psig per second.
(6) In this specification ``significant change'' means a 10 percent
or greater change in cylinder wall thickness, service pressure, or
diameter; a 30 percent or greater change in water capacity or base
thickness; any change in material; over 100 percent increase in size of
openings; or any change in the number of openings.

[[Page 790]]

(d) Wall thickness. The minimum wall thickness must be such that the
wall stress at the minimum specified test pressure will not exceed 80
percent of the minimum yield strength nor exceed 67 percent of the
minimum ultimate tensile strength as verified by physical tests in
paragraph (i) of this section. The minimum wall thickness for any
cylinder with an outside diameter greater than 5 inches must be 0.125
inch. Calculations must be made by the following formula:

S = [P(1.3D\2\ + 0.4d\2\)] / (D\2\ - d\2\)

Where:

S = Wall stress in psi;
P = Prescribed minimum test pressure in psig (see paragraph (g) of this
section);
D = Outside diameter in inches; and
d = Inside diameter in inches.

(e) Openings. Openings must comply with the following requirements:
(1) Openings are permitted in heads only.
(2) The size of any centered opening in a head may not exceed one-
half the outside diameter of the cylinder.
(3) Other openings are permitted in the head of a cylinder if:
(i) Each opening does not exceed 2.625 inches in diameter, or one-
half the outside diameter of the cylinder; whichever is less;
(ii) Each opening is separated from each other by a ligament; and
(iii) Each ligament which separates two openings must be at least
three times the average of the diameters of the two openings.
(4) All openings must be circular.
(5) All openings must be threaded. Threads must comply with the
following:
(i) Each thread must be clean cut, even, without checks, and to
gauge.
(ii) Taper threads, when used, must conform to one of the following:
(A) American Standard Pipe Thread (NPT) type, conforming to the
requirements of Federal Standard H-28, Section 7;
(B) National Gas Taper Thread (NGT) type, conforming to the
requirements of Federal Standard H-28, Sections 7 and 9; or
(C) Other taper threads conforming to other standards may be used
provided the length is not less than that specified for NPT threads.
(iii) Straight threads, when used, must conform to one of the
following:
(A) National Gas Straight Thread (NGS) type, conforming to the
requirements of Federal Standard H-28, Sections 7 and 9;
(B) Unified Thread (UN) type, conforming to the requirements of
Federal Standard H-28, Section 2;
(C) Controlled Radius Root Thread (UN) type, conforming to the
requirements of Federal Standard H-28, Section 4; or
(D) Other straight threads conforming to other recognized standards
may be used provided that the requirements in paragraph (e)(5)(iv) of
this section are met.
(iv) All straight threads must have at least 6 engaged threads, a
tight fit, and a factor of safety in shear of at least 10 at the test
pressure of the cylinder. Shear stress must be calculated by using the
appropriate thread shear area in accordance with Federal Standard H-28,
Appendix A5, Section 3.
(f) Heat treatment. Prior to any test, all cylinders must be
subjected to a solution heat treatment and aging treatment appropriate
for the aluminum alloy used.
(g) Hydrostatic test. Each cylinder must be subjected to an internal
test pressure using the water jacket equipment and method or other
suitable equipment and method and comply with the following
requirements:
(1) The testing apparatus must be operated in a manner so as to
obtain accurate data. The pressure gauge used must permit reading to an
accuracy of one percent. The expansion gauge must permit reading the
total expansion to an accuracy of either one percent or 0.1 cubic
centimeter.
(2) The test pressure must be maintained for a sufficient period of
time to assure complete expansion of the cylinder. In no case may the
pressure be held less than 30 seconds. If, due to failure of the test
apparatus, the required test pressure cannot be maintained, the test may
be repeated at a pressure increased by 10 percent or 100 psig, whichever
is lower. If the test apparatus again fails to maintain the test
pressure, the cylinder being tested

[[Page 791]]

must be rejected. Any internal pressure applied to the cylinder before
any official test may not exceed 90 percent of the test pressure.
(3) The minimum test pressure is the greatest of the following:
(i) 450 psig regardless of service pressure;
(ii) Two times the service pressure for cylinders having service
pressure less than 500 psig; or
(iii) Five-thirds times the service pressure for cylinders having a
service pressure of at least 500 psig.
(4) Permanent volumetric expansion may not exceed 10 percent of
total volumetric expansion at test pressure.
(h) Flattening test. One cylinder taken at random out of each lot
must be subjected to a flattening test as follows:
(1) The test must be between knife edges, wedge shaped, having a
60 deg. included angle, and rounded in accordance with the following
table. The longitudinal axis of the cylinder must be at an angle 90 deg.
to the knife edges during the test. The flattening test table is as
follows:

Table 3--Flattening Test Table
------------------------------------------------------------------------
Radius
Cylinder wall thickness in inches in
inches
------------------------------------------------------------------------
Under .150.................................................... .500
.150 to .249.................................................. .875
.250 to .349.................................................. 1.500
.350 to .449.................................................. 2.125
.450 to .549.................................................. 2.750
.550 to .649.................................................. 3.500
.650 to .749.................................................. 4.125
------------------------------------------------------------------------

(2) An alternate bend test in accordance with ASTM E 290 using a
mandrel diameter not more than 6 times the wall thickness is authorized
to qualify lots that fail the flattening test of this section without
reheat treatment. If used, this test must be performed on two samples
from one cylinder taken at random out of each lot of 200 cylinders or
less.
(3) Each test cylinder must withstand flattening to nine times the
wall thickness without cracking. When the alternate bend test is used,
the test specimens must remain uncracked when bent inward around a
mandrel in the direction of curvature of the cylinder wall until the
interior edges are at a distance apart not greater than the diameter of
the mandrel.
(i) Mechanical properties test. Two test specimens cut from one
cylinder representing each lot of 200 cylinders or less must be
subjected to the mechanical properties test, as follows:
(1) The results of the test must conform to at least the minimum
acceptable mechanical property limits for aluminum alloys as specified
in paragraph (b) of this section.
(2) Specimens must be 4D bar or gauge length 2 inches with width not
over 1\1/2\ inch taken in the direction of extrusion approximately
180 deg. from each other; provided that gauge length at least 24 times
thickness with width not over 6 times thickness is authorized, when
cylinder wall is not over \3/16\ inch thick. The specimen, exclusive of
grip ends, may not be flattened. Grip ends may be flattened to within
one inch of each end of the reduced section. When the size of the
cylinder does not permit securing straight specimens, the specimens may
be taken in any location or direction and may be straightened or
flattened cold by pressure only, not by blows. When such specimens are
used, the inspector's report must show that the specimens were so taken
and prepared. Heating of specimens for any purpose is forbidden.
(3) The yield strength in tension must be the stress corresponding
to a permanent strain of 0.2 percent of the gauge length.
(i) The yield strength must be determined by either the ``offset''
method or the ``extension under load'' method as prescribed in ASTM
Standard B-557.
(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
10,000,000 psi. 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

[[Page 792]]

6,000 psi, 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.
(j) Rejected cylinder. Reheat treatment of rejected cylinders is
authorized one time. Subsequent thereto, cylinders must pass all
prescribed tests to be acceptable.
(k) Duties of inspector. In addition to the requirements of
Sec. 178.35, the inspector shall:
(1) Verify compliance with the provisions of paragraph (b) of this
section by:
(i) Performing or witnessing the performance of the chemical
analyses on each melt or cast lot or other unit of starting material; or
(ii) Obtaining a certified chemical analysis from the material or
cylinder manufacturer for each melt, or cast of material; or
(iii) Obtaining a certified check analysis on one cylinder out of
each lot of 200 cylinders or less, if a certificate containing data to
indicate compliance with the material specification is obtained.
(2) The inspector shall verify ultrasonic inspection of all material
by inspection or by obtaining the material producer's certificate of
ultrasonic inspection. Ultrasonic inspection must be performed or
verified as having been performed in accordance with paragraph (c) of
this section.
(3) The inspector must also determine that each cylinder complies
with this specification by:
(i) Selecting the samples for check analyses performed by other than
the material producer;
(ii) Verifying that the prescribed minimum thickness was met by
measuring or witnessing the measurement of the wall thickness; and
(iii) Verifying that the identification of material is proper.
(4) Prior to initial production of any design or design change,
verify that the design qualification tests prescribed in paragraph
(c)(6) of this section have been performed with acceptable results.
(l) Definitions. (1) In this specification, a ``lot'' means a group
of cylinders successively produced having the same:
(i) Size and configuration;
(ii) Specified material of construction;
(iii) Process of manufacture and heat treatment;
(iv) Equipment of manufacture and heat treatment; and
(v) Conditions of time, temperature and atmosphere during heat
treatment.
(2) In no case may the lot size exceed 200 cylinders, but any
cylinder processed for use in the required destructive physical testing
need not be counted as being one of the 200.
(m) Inspector's report. In addition to the information required by
Sec. 178.35, the record of chemical analyses must also include the alloy
designation, and applicable information on iron, titanium, zinc,
magnesium and any other applicable element used in the construction of
the cylinder.

[Amdt. 178-114, 61 FR 25942, May 23, 1996, as amended at 66 FR 45386-
45388, Aug. 28, 2001; 67 FR 51652, Aug. 8, 2002]