openregs: cfr_sections: 57 rows where part_number = 54 and title_number = 46 sorted by section

Current Code of Federal Regulations (eCFR) — the actual text of federal regulations in force. Covers 19 CFR titles with 123,000+ regulatory sections and full-text search.

Data license: Public Domain (U.S. Government data) · Data source: Federal Register API & Regulations.gov API

57 rows where part_number = 54 and title_number = 46 sorted by section_id

descending

✎ View and edit SQL

This data as json, CSV (advanced)

section_id ▼	title_number	title_name	chapter	subchapter	part_number	part_name	subpart	subpart_name	section_heading	agency	amendment_citations	full_text
46:46:2.0.1.2.12.1.1.1	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.01	Subpart 54.01—General Requirements	§ 54.01-1 Incorporation by reference.	USCG	[USCG-2003-16630, 73 FR 65164, Oct. 31, 2008, as amended by USCG-2009-0702, 74 FR 49228, Sept. 25, 2009; USCG-2012-0832, 77 FR 59777, Oct. 1, 2012; USCG-2012-0866, 78 FR 13249, Feb. 27, 2013; USCG-2013-0671, 78 FR 60148, Sept. 30, 2013]	Certain material is incorporated by reference into this part with the approval of the Director of the Federal Register under 5 U.S.C. 552(a) and 1 CFR part 51. To enforce any edition other than that specified in this section, the Coast Guard must publish a document in the Federal Register and the material must be available to the public. All approved incorporation by reference (IBR) material is available for inspection at the U.S. Coast Guard and the National Archives and Records Administration (NARA). Contact U.S. Coast Guard Headquarters at: Commandant (CG-ENG), Attn: Office of Design and Engineering Standards, U.S. Coast Guard Stop 7509, 2703 Martin Luther King Jr. Avenue SE, Washington, DC 20593-7509; phone (202) 372-1375; email typeapproval@uscg.mil. For information on the availability of this material at NARA, visit www.archives.gov/federal-register/cfr/ibr-locations or email fr.inspection@nara.gov. The material may be obtained from the following sources: (a) American Society of Mechanical Engineers ( ASME ), Two Park Avenue, New York, NY 10016-5990; 800-843-2763; CustomerCare@asme.org; www.asme.org. (1) ASME BPVC.VIII.1-2019, 2019 ASME Boiler and Pressure Vessel Code, Section VIII, Division 1, Rules for Construction of Pressure Vessels, 2019 Edition, issued July 1, 2019 (“Section VIII of the ASME BPVC”); IBR approved for §§ 54.01-2; 54.01-5 (c), (e), and table 2; 54.01-18(b); 54.01-25(a); 54.01-30; 54.01-35(a), (b), and (e); 54.03-1; 54.05-1; 54.10-1; 54.10-3(b); 54.10-5(a), (b), and table 1; 54.10-10(b) and (e); 54.10-15(c); 54.15-1(a); 54.15-5(a); 54.15-10(e) and (h); 54.15-13(a); 54.20-1(a); 54.20-3(b), (c), and (d); 54.25-1; 54.25-3; 54.25-8(b); 54.25-10(b) and (c); 54.25-15; 54.25-20(b), (c), and (e); 54.30-3(c); 54.30-5(a); 54.30-10(a). (2) [Reserved] (b) ASTM International, 100 Barr Harbor Drive, P.O. Box C700, West Conshohocken, PA 19428-2959; 610-832-9500; service@astm.org; www.astm.org. (1) ASTM A20/A20M-19, Standard Specification for General Requirements for Steel Plates for P…
46:46:2.0.1.2.12.1.1.10	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.01	Subpart 54.01—General Requirements	§ 54.01-35 Corrosion (modifies UG-25).	USCG	[CGFR 68-82, 33 FR 18828, Dec. 18, 1968, as amended by CGFR 72-59R, 37 FR 6189, Mar. 25, 1972; USCG-2003-16630, 73 FR 65167, Oct. 31, 2008]	(a) Vessels or portions of vessels subject to corrosion must be as required by UG-25 of Section VIII of the ASME BPVC (incorporated by reference; see § 54.01-1) except as noted otherwise in this section. (b) The pressure portions of pressure vessels must: (1) Normally have a corrosion allowance of one-sixth of the calculated thickness, or one-sixteenth inch, whichever is smaller, added to the calculated thickness as determined by the applicable design formula. (2) Be specifically evaluated in cases where unusually corrosive cargoes will be involved, for the possible increase of this corrosion allowance. (3) Have no additional thickness required when acceptable corrosion resistant materials are used. (4) Not normally need additional thickness allowance when the effective stress (either S or SE depending on the design formula used) is 80 percent or less of the allowable stress listed in Section VIII of the ASME BPVC for calculating thickness. (c) Telltale holes must not be permitted in pressure vessels containing dangerous fluids, such as acid, poison, corrosives, etc. (d) Exemption from these corrosion allowance requirements will be granted by the Commandant in those cases where: (1) The contents of the pressure vessel are judged to be sufficiently noncorrosive; and, (2) Where the external surface is also protected from corrosion. A suitable vapor barrier is adequate protection, while paint or other thin coatings exposed to weather or mechanical damage are not acceptable. (e) No applied linings except as provided in part UCL of Section VIII of the ASME BPVC are acceptable.
46:46:2.0.1.2.12.1.1.11	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.01	Subpart 54.01—General Requirements	§ 54.01-40 External pressure (modifies UG-28).	USCG	[CGFR 70-143, 35 FR 19906, Dec. 30, 1970]	(a) The exemption from external pressure consideration provided by the note under UG-28(f) does not apply. (b) Vessels which may at times be subjected to partial vacuum due to nature of the contents, temperature, unloading operations, or other facet of employment must either have vacuum breaker protection or be designed for not less than one-half atmosphere of external pressure.
46:46:2.0.1.2.12.1.1.2	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.01	Subpart 54.01—General Requirements	§ 54.01-2 Adoption of Division 1 of Section VIII of the ASME BPVC.	USCG	[CGFR 68-82, 33 FR 18828, Dec. 18, 1968, as amended by CGFR 69-127, 35 FR 9976, June 17, 1970; CGFR 72-59R, 37 FR 6188, Mar. 25, 1972; CGD 72-206R, 38 FR 17226, June 29, 1973; CGD 73-254, 40 FR 40163, Sept. 2, 1975; CGD 77-147, 47 FR 21809, May 20, 1982; CGD 85-061, 54 FR 50963, Dec. 11, 1989. Redesignated by CGD 88-032, 56 FR 35822, July 29, 1991; USCG-2003-16630, 73 FR 65164, Oct. 31, 2008]	(a) Pressure vessels must be designed, constructed, and inspected in accordance with Section VIII of the ASME BPVC (incorporated by reference, see § 54.01-1), as limited, modified, or replaced by specific requirements in this part. The provisions in the appendices to Section VIII of the ASME BPVC are adopted and must be followed when the requirements in Section VIII make them mandatory. For general information, table 1 to § 54.01-2(a) lists the various paragraphs in Section VIII of the ASME BPVC that are limited, modified, or replaced by regulations in this part. Table 1 to § 54.01-2( a )—Limitations and Modifications in the Adoption of Section VIII of the ASME BPVC Note 1 to table § 54.01-2(a): The references to specific provisions in Section VIII of the ASME BPVC are coded. The first letter, such as “U,” refers to Division 1 of Section VIII. The second letter, such as “G,” refers to a subsection within Section VIII. The number refers to the paragraph within the subsection. (b) References to the ASME BPVC, such as paragraph UG-125, indicate: (1) U = Division 1 of Section VIII of the ASME BPVC. (2) G = Part containing general requirements. (3) 125 = Paragraph within part. (c) When a paragraph or a section of the regulations in this part relates to material in Section VIII of the ASME BPVC, the relationship with the code will be shown immediately following the heading of the section or at the beginning of the paragraph, as follows: (1) (Modifies U__.) This indicates that the material in U__ is generally applicable but is being altered, amplified or augmented. (2) (Replaces U__.) This indicates that U__ does not apply. (3) (Reproduces U__.) This indicates that U__ is being identically reproduced for convenience, not for emphasis.
46:46:2.0.1.2.12.1.1.3	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.01	Subpart 54.01—General Requirements	§ 54.01-5 Scope (modifies U-1 and U-2).	USCG	[CGFR 68-82, 33 FR 18828, Dec. 18, 1968, as amended by CGFR 69-127, 35 FR 9976, June 17, 1970; CGD 77-147, 47 FR 21809, May 20, 1982; 55 FR 696, Jan. 8, 1990; CGD 88-057, 55 FR 24236, June 15, 1990; CGD 85-061, 55 FR 41917, Oct. 16, 1990; CGD 95-027, 61 FR 26000, May 23, 1996; USCG-2000-7790, 65 FR 58460, Sept. 29, 2000; USCG-2003-16630, 73 FR 65165, Oct. 31, 2008]	(a) This part contains requirements for pressure vessels. Table 1 to § 54.01-5 gives a breakdown by parts in this subchapter of the regulations governing various types of pressure vessels, boilers, and thermal units. (b) Pressure vessels are divided into Classes I, I-L (low temperature), II, II-L (low temperature), and III. Table 2 to § 54.01-5 describes these classes and sets out additional requirements for welded pressure vessels. (c) The requirements for pressure vessels by class are as follows: (1) Class I-L and II-L pressure vessels must meet the applicable requirements in this part. (2) Pressure vessels containing hazardous materials as defined in § 150.115 of this chapter must meet the requirements of this part or, as applicable, the requirements in 49 CFR parts 171-177, or part 64 of this subchapter. (3) Except as provided in paragraph (c)(4) of this section, Classes I, II, and III pressure vessels not containing hazardous materials must be designed and constructed in accordance with the requirements in Section VIII of the ASME BPVC (incorporated by reference; see § 54.01-1) and must be stamped with the ASME “U” symbol. These pressure vessels must also comply with the requirements that are listed or prescribed in paragraphs (d) through (g) of this section. Compliance with other provisions in this part is not required. (4) Classes II and III pressure vessels that have a net internal volume of less than 0.14 cubic meters (5 cubic feet) and do not contain hazardous materials must be stamped with either the ASME “U” or “UM” symbol. Compliance with other provisions in this part is not required. (d) Pressure vessels described in paragraph (c)(3) of this section must— (1) Have detailed plans that include the information required by § 54.01-18; (2) Meet §§ 54.01-35, 54.20-3(c), and 54.25-3; (3) Have pressure relief devices required by subpart 54.15; (4) Meet the applicable requirements in §§ 54.10-3, 54.10-20, and 54.10-25 for inspection, reports, and stamping; (5) If welded, meet the post weld heat t…
46:46:2.0.1.2.12.1.1.4	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.01	Subpart 54.01—General Requirements	§ 54.01-10 Steam-generating pressure vessels (modifies U-1(g)).	USCG	[CGFR 68-82, 33 FR 18828, Dec. 18, 1968, as amended by CGD 81-79, 50 FR 9436, Mar. 8, 1985; CGD 95-012, 60 FR 48044, Sept. 18, 1995; USCG-2003-16630, 73 FR 65166, Oct. 31, 2008]	(a) Pressure vessels in which steam is generated are classed as “Unfired Steam Boilers” except as required otherwise by paragraph (b) of this section. Unfired steam boilers must be fitted with an efficient water level indicator, a pressure gage, a blowdown valve, and an approved safety valve as required by § 54.15-15. Unfired steam boilers must be constructed in accordance with this part other than when the pressures are more than 206 kPa (30 psig) or the temperatures of the working fluid are more than 454 °C (850 °F) when such boilers must be constructed in accordance with part 52 of this subchapter. (b) Vessels known as “Evaporators” or “Heat Exchangers” are not classified as unfired steam boilers. They must be fitted with an approved safety device as required under § 54.15-15 and constructed in accordance with this part. (c) An evaporator in which steam is generated must be fitted with an efficient water level indicator, a pressure gage, and a blowdown valve.
46:46:2.0.1.2.12.1.1.5	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.01	Subpart 54.01—General Requirements	§ 54.01-15 Exemptions from shop inspection and plan approval (modifies U-1(c)(2)).	USCG	[CGFR 68-82, 33 FR 18828, Dec. 18, 1968, as amended by CGFR 69-127, 35 FR 9977, June 17, 1970; CGFR 70-143, 35 FR 19906, Dec. 30, 1970; CGD 77-147, 47 FR 21810, May 20, 1982; USCG-2003-16630, 73 FR 65166, Oct. 31, 2008; USCG-2010-0759, 75 FR 60002, Sept. 29, 2010]	(a) The following classifications are exempt from shop inspection and plan approval requirements of this part: (1) Vessels containing water at a pressure not greater than 689 kPa (100 psig), and at a temperature not above 93 °C (200 °F) including those containing air, the compression of which serves only as a cushion. Air-charging lines may be permanently attached if the air pressure does not exceed 103 kPa (15 psig). (2)(i) Hot water supply storage tanks heated by steam or any other indirect means when none of the following limitations is exceeded: (A) A heat input of 58 kW (200,000 Btu per hour); (B) A water temperature of 93 °C (200 °F); (C) A nominal water-containing capacity of 454 liters (120 gallons); or (D) A pressure of 689 kPa (100 psig). (ii) The exemption of any tank under this paragraph (a)(2) requires that it must be fitted with a safety relief valve of at least 1-inch diameter, set to relieve below the maximum allowable working pressure of the tank. (3)(i) Vessels having an internal operating pressure not exceeding 103 kPa (15 psig) with no limitation on size. (ii) Cargo tanks of pressure vessel configuration are not included in the exemption in paragraph (a)(3)(i) of this section. (4) Class I, II, and III pressure vessels that meet the requirements of § 54.01-5(c)(3) and (4). (5) Condensers and heat exchangers, regardless of size, when the design is such that the liquid phase is not greater than 689 kPa (100 psig) and 200 °F (93 °C) and the vapor phase is not greater than 103 kPa (15 psig) provided that the Officer in Charge, Marine Inspection is satisfied that system overpressure conditions are addressed by the owner or operator. (b) For fluid conditioner fittings see § 56.15-1 of this subchapter.
46:46:2.0.1.2.12.1.1.6	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.01	Subpart 54.01—General Requirements	§ 54.01-17 Pressure vessel for human occupancy (PVHO).	USCG	[CGD 76-009, 43 FR 53683, Nov. 16, 1978]	Pressure vessels for human occupancy (PVHOs) must meet the requirements of subpart B (Commercial Diving Operations) of part 197 of this chapter.
46:46:2.0.1.2.12.1.1.7	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.01	Subpart 54.01—General Requirements	§ 54.01-18 Plan approval.	USCG	[CGFR 68-82, 33 FR 18828, Dec. 18, 1968, as amended by USCG-2003-16630, 73 FR 65166, Oct. 31, 2008]	(a) Manufacturers intending to fabricate pressure vessels, heat exchangers, evaporators, and similar appurtenances, covered by the regulations in this part must submit detailed plans in accordance with subpart 50.20 of this subchapter except as provided in paragraph (c) of this section. (b) The following information must be submitted: (1) Calculations for all pressure containment components including the maximum allowable working pressure, the hydrostatic or pneumatic test pressure, and the intended safety device setting. (2) Joint design and methods of attachment of all pressure containment components. (3) Foundations and supports (design and attachment). (4) Pertinent calculations for pressure vessel foundations and/or supports. (5) A bill of material meeting the requirements of Section VIII of the ASME BPVC (incorporated by reference; see § 54.01-1), as modified by this part. (6) A diagrammatic arrangement drawing of the assembled unit indicating location of internal and external components. (c) Plans for Class I, II, and III pressure vessels with the ASME “U” stamp that do not contain hazardous materials are not required to be submitted for approval (see § 54.01-5(e)).
46:46:2.0.1.2.12.1.1.8	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.01	Subpart 54.01—General Requirements	§ 54.01-25 Miscellaneous pressure components (modifies UG-11).	USCG	[CGFR 68-82, 33 FR 18828, Dec. 18, 1968, as amended by CGFR 69-127, 35 FR 9977, June 17, 1970; USCG-2003-16630, 73 FR 65167, Oct. 31, 2008]	(a) Pressure components for pressure vessels must be as required by UG-11 of Section VIII of the ASME BPVC (incorporated by reference; see § 54.01-1) except as noted otherwise in this section. (b) All pressure components conforming to an accepted ANSI (American National Standards Institute) Standard referred to in an adopted code, specification or standard or in this subchapter must also be marked in accordance with MSS SP-25 (incorporated by reference; see § 54.01-1).
46:46:2.0.1.2.12.1.1.9	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.01	Subpart 54.01—General Requirements	§ 54.01-30 Loadings (modifies UG-22).	USCG	[CGFR 68-82, 33 FR 18828, Dec. 18, 1968, as amended by USCG-2003-16630, 73 FR 65167, Oct. 31, 2008]	(a) The loadings for pressure vessels must be as required by UG-22 of Section VIII of the ASME BPVC (incorporated by reference; see § 54.01-1) except as noted otherwise in this section. (b) In evaluating loadings for certain pressure vessel applications, the Commandant may require consideration of the following loads in addition to those listed in UG-22 of Section VIII of the ASME BPVC: (1) Loading imposed by vessel's attitude in roll, list, pitch and trim. (2) Dynamic forces due to ship motions.
46:46:2.0.1.2.12.2.1.1	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.03	Subpart 54.03—Low Temperature Operation	§ 54.03-1 Scope.	USCG	[CGFR 68-82, 33 FR 18828, Dec. 18, 1968, as amended by USCG-2003-16630, 73 FR 65167, Oct. 31, 2008]	The pressure vessels for low temperature operation must be as required by Section VIII of the ASME BPVC (incorporated by reference; see § 54.01-1) as modified by this subpart.
46:46:2.0.1.2.12.2.1.2	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.03	Subpart 54.03—Low Temperature Operation	§ 54.03-5 General.	USCG	[CGFR 68-82, 33 FR 18828, Dec. 18, 1968, as amended by CGFR 69-127, 35 FR 9977, June 17, 1970]	(a) Requirements for ferritic steels, high alloy steels, and heat-treated ferritic steels are contained in §§ 54.25-10, 54.25-15, and 54.25-20, respectively. (b) Requirements for toughness testing of material product forms and weldments (including weld procedure qualification and production toughness tests) are contained in subpart 54.05. (c) Materials suitable for a given minimum service temperature may be used in warmer service. Steels differing in chemical composition, mechanical properties, or heat treatments from those specified may be specially approved by the Commandant. Similarly, aluminum alloys and other nonferrous materials not intended to be covered by these sections may be specially considered by the Commandant for service at any low temperature.
46:46:2.0.1.2.12.3.1.1	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.05	Subpart 54.05—Toughness Tests	§ 54.05-1 Scope (replaces UG-84).	USCG	[CGFR 68-82, 33 FR 18828, Dec. 18, 1968, as amended by USCG-2003-16630, 73 FR 65167, Oct. 31, 2008]	The toughness tests of materials used in pressure vessels must be as required by this subpart in lieu of requirements in UG-84 of Section VIII of the ASME BPVC (incorporated by reference; see § 54.01-1).
46:46:2.0.1.2.12.3.1.10	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.05	Subpart 54.05—Toughness Tests	§ 54.05-25 [Reserved]	USCG
46:46:2.0.1.2.12.3.1.11	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.05	Subpart 54.05—Toughness Tests	§ 54.05-30 Allowable stress values at low temperatures.	USCG	[CGD 73-133R, 39 FR 9179, Mar. 8, 1974, as amended by CGD 82-063b, 48 FR 4781, Feb. 3, 1983; CGD 95-072, 60 FR 50462, Sept. 29, 1995; CGD 96-041, 61 FR 50727, 50728, Sept. 27, 1996; USCG-2009-0702, 74 FR 49228, Sept. 25, 2009; USCG-2012-0832, 77 FR 59777, Oct. 1, 2012; USCG-2013-0671, 78 FR 60148, Sept. 30, 2013]	(a) The Coast Guard will give consideration to the enhanced yield and tensile strength properties of ferrous and nonferrous materials at low temperature for the purpose of establishing allowable stress values for service temperature below 0 °F. (b) The use of such allowable stress values must be specially approved by the Coast Guard for each application. Further information may be obtained by writing to the Commandant (CG-ENG), Attn: Office of Design and Engineering Standards, U.S. Coast Guard Stop 7509, 2703 Martin Luther King Jr. Avenue SE, Washington, DC 20593. (c) Submittals must include information and calculations specified by the U.S. Coast Guard, Office of Design and Engineering Standards (CG-ENG) to demonstrate that the allowable stress for the material cannot be exceeded under any possible combination of vessel loads and metal temperature.
46:46:2.0.1.2.12.3.1.2	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.05	Subpart 54.05—Toughness Tests	§ 54.05-3 Tests required.	USCG	[CGFR 68-82, 33 FR 18828, Dec. 18, 1968, as amended by CGFR 69-127, 35 FR 9977, June 17, 1970]	(a) Where material or welding toughness tests are required by §§ 54.25-10, 54.25-15, 54.25-20, and subpart 57.03 or 57.06 of this subchapter, the following requirements apply: (1) Additional requirements for ferritic steels with properties enhanced by heat treatment are in § 54.25-20. (2) Certified reports of toughness tests by the material manufacturer will be acceptable evidence provided the specimens taken are representative of the material delivered and that the material is not subject to treatment during or following fabrication that will reduce its impact properties. If such treatment is subsequently applied to the material, test specimens must be so taken and treated as to be representative of the material in the finished vessel. (b) The requirements of this subpart are also applicable to nonpressure vessel type low temperature tanks and associated secondary barriers, as defined in § 38.05-4 of subchapter D of this chapter.
46:46:2.0.1.2.12.3.1.3	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.05	Subpart 54.05—Toughness Tests	§ 54.05-5 Toughness test specimens.	USCG	[CGFR 68-82, 33 FR 18828, Dec. 18, 1968, as amended by CGD 73-254, 40 FR 40163, Sept. 2, 1975; USCG-2000-7790, 65 FR 58460, Sept. 29, 2000]	(a) Charpy V-notch impact tests. Where required, Charpy V-notch tests must be conducted in accordance with ASTM E23 (incorporated by reference, see § 54.01-1), using the Type A specimen shown in ASTM E23—Figure 4. Special attention is drawn to the fact that the Charpy Keyhole and U-notch specimens are not acceptable substitutes for the Charpy V-notch specimen and must not be used to qualify materials within the scope of this subpart. Each set of Charpy impact tests must consist of three specimens. For materials 1/2 -inch thick or less, the largest possible Charpy specimens for that thickness must be cut centered at the material's mid-thickness. For materials thicker than 1/2 -inch, full size Charpy specimens must be cut centered at a location as near as practicable to a point midway between the material's surface and half-thickness. Except where otherwise specified, transversely oriented specimens must be used. When longitudinal specimens are used, the required energy values may not be less than 1.5 times the values required for transversely oriented specimens. In all cases, the notch must be cut normal to the material's surface. Test specimens must be taken at least one “t” from any heat-treated edge (where “t” is the material's nominal thickness). (b) Drop weight tests. Where required, drop weight tests must be conducted for no-break performance in accordance with ASTM E208 (incorporated by reference, see § 54.01-1). For material thicknesses between 1/2 -inch and 5/8 -inch, the ASTM E208 specimen P-3, machined to 1/2 -inch thickness, must be used with a stop distance of 0.090-inch. In preparing weld specimens for drop weight testing, weld reinforcement must be ground flush, the hard facing bead centered on and transverse to the weld, and the notch centered on and parallel to the weld axis. (c) Retest procedures. (1) When Charpy V-notch impact specimens are used and the average value of the three initial specimens fails to meet the stated requirements by an amount not exceeding 15 percent, or t…
46:46:2.0.1.2.12.3.1.4	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.05	Subpart 54.05—Toughness Tests	§ 54.05-6 Toughness test temperatures.	USCG	[CGD 85-061, 54 FR 50964, Dec. 11, 1989]	Each toughness test must be conducted at temperatures not warmer than −20 °F or 10 °F below the minimum service temperature, whichever is lower, except that for service at or below −320 °F, the tests may be conducted at the service temperature in accordance with § 54.25-10(a)(2).
46:46:2.0.1.2.12.3.1.5	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.05	Subpart 54.05—Toughness Tests	§ 54.05-10 Certification of material toughness tests.	USCG	[CGFR 68-82, 33 FR 18828, Dec. 18, 1968, as amended by CGFR 73-254, 40 FR 40164, Sept. 2, 1975; USCG-1999-5151, 64 FR 67178, Dec. 1, 1999]	(a) Plate material. The manufacturer of plates may certify such material, provided it has been given an appropriate heat-treatment, by reporting the results of tests of one set of Charpy impact specimens or of two drop weight specimens, as applicable, taken from each plate as rolled. Impact specimens must be taken as outlined in section 12 of ASTM A20/A20M (incorporated by reference, see § 54.01-1). The long axis of the Charpy specimen must be perpendicular to the final direction of rolling. When the direction of maximum stress is unknown, the manufacturer may certify on the basis of specimens taken parallel to the final direction of rolling. (b) Pipe or tube material. (1) The manufacturer of pipe, tube, or welded fittings formed from pipe or tube may certify such material by reporting the results of tests of one set of Charpy impact specimens, provided the requirement for production in this paragraph (b)(1) or (2) of this section, as well as the requirement for sampling in paragraph (b)(3) of this section are met. The specimens must have the major axis parallel to the length of pipe or tube. In the case of welding fittings, the specimens may be taken from the tubing prior to forming provided the fittings are normalized after forming. Such specimens must be normalized before testing. (2) One set of specimens may represent each five (5) short tons, or less, of the pipe, tubes, or welding fittings produced from one heat of steel poured from a single melting furnace charge and subsequently processed in the same manner, provided all are given a normalizing heat-treatment in a continuous treating furnace in which the temperature is automatically controlled and checked by recording pyrometer. (3) One set of specimens may represent each five (5) short tons, or less, of the pipe, tubes, or welding fittings that have been given a normalizing heat-treatment as a single charge in a batch-treating furnace equipped with recording pyrometer provided all have been produced from a single melting furnace heat and are subse…
46:46:2.0.1.2.12.3.1.6	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.05	Subpart 54.05—Toughness Tests	§ 54.05-15 Weldment toughness tests—procedure qualifications.	USCG		(a) Plate for which Charpy V-notch impact testing is required in the parent material and for which V-notch minima are specified must similarly have welding procedures qualified for toughness by Charpy V-notch testing. For these tests, the test plates must be oriented with their final rolling direction parallel to the weld axis ( i.e., so that transverse impact specimens result), and with the V-notch normal to the plate surface. The sample weld joint preparation must be the same as that used in production. The number of test specimens and the location of their notches must be as shown in Figure 1 to § 54.05-15(a) and as described in paragraphs (a)(1) through (5) of this section. (1) Three specimens with the notch centered in the weld metal. (2) Three specimens with the notch centered on the fusion line between parent plate and weld. (The fusion line may be identified by etching the specimen with a mild reagent.) (3) Three specimens with the notch centered in the heat affected zone, 1 mm from the fusion line. (4) Same as paragraph (a)(3) of this section, but 3 mm from the fusion line. (5) Same as paragraph (a)(3) of this section, but 5 mm from the fusion line. (b) Plate materials for which Charpy V-notch minimums are not specified, or for which a Charpy V-notch correlation with NDT is not known, and which are themselves tested for toughness by the drop-weight procedure, must have welding procedures similarly qualified by the drop-weight test. For such qualifications, two drop-weight specimens are to be tested, with the notch positioned directly above and parallel to the centerline of the weld. (c) Piping welding toughness tests must be qualified, by making Charpy V-notch impact tests as prescribed in paragraph (a) of this section. (d) Materials which are specially approved based on toughness criteria or tests, other than those discussed in paragraphs (a) and (b) of this section, must have welding procedures tested and qualified for toughness as deemed appropriate and necessary by the Commandant. (e) In th…
46:46:2.0.1.2.12.3.1.7	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.05	Subpart 54.05—Toughness Tests	§ 54.05-16 Production toughness testing.	USCG		(a) For vessels of welded construction, production toughness test plates must be prepared for each 50 feet of longitudinal and circumferential butt-weld in each Class I-L vessel, or for each 150 feet in each Class II-L vessel, except for material other than stainless steel that is exempted from impact test requirements by this subchapter. In the case of stainless steels, weld production toughness tests may be limited to weld metal only if this is all that is required be § 54.25-15. The test-plate thickness must be the same as that of the vessel wall at the location of the production weld being sampled. The test plates must be prepared, wherever possible, as run-off tabs attached at the ends of weld butts or seams. The rolling direction of the run-off tabs should be oriented parallel to the rolling direction of the adjacent production material. The test-plate material must be taken from one of the heats of material used in the vessel, and both the electrodes and welding procedures must be the same as used in the fabrication of the vessel. From each test plate, one set of three Charpy impact bars or two drop-weight specimens, as applicable according to the test used in procedure qualification, must be taken transverse to the weld axis. For Charpy V-notch specimens, the notch must be normal to the material surface and its location alternated (approximately) on successive tests between the weld metal and heat affected zone. Thus, approximately half of all weld production impact tests will be of weld metal and half of heat affected zone material. For the weld metal tests, the V-notch is to be centered between the fusion lines. For the heat affected zone tests, the notch is to be centered so as to sample, as nearly as practicable, the most critical location for toughness observed in the weld procedure qualification tests. Where the drop weight specimen is used in production weld testing, it must be prepared in the same manner as specified for procedure qualification testing in § 54.05-15(b). (b) For vessels not exceed…
46:46:2.0.1.2.12.3.1.8	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.05	Subpart 54.05—Toughness Tests	§ 54.05-17 Weld toughness test acceptance criteria.	USCG	[CGFR 68-82, 33 FR 18828, Dec. 18, 1968, as amended by CGD 73-254, 40 FR 40164, Sept. 2, 1975]	(a) For Charpy V-notch impact tests the energy absorbed in both the weld metal and heat affected zone impact tests in weld qualification and production must be: (1) For weld metal specimens, not less than the transverse values required for the parent material. (2) For heat affected zone specimens, when the specimens are transversely oriented, not less than the transverse values required for the parent material. (3) For heat affected zone specimens, when the specimens are longitudinally oriented, not less than 1.5 times the transverse values required for the parent material. (b) For drop-weight tests both specimens from each required set must exhibit a no-break performance.
46:46:2.0.1.2.12.3.1.9	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.05	Subpart 54.05—Toughness Tests	§ 54.05-20 Impact test properties for service of 0 °F and below.	USCG	[CGD 73-254, 40 FR 40164, Sept. 2, 1975, as amended by USCG-2000-7790, 65 FR 58460, Sept. 29, 2000]	(a) The impact energies of each set of transverse Charpy specimens may not be less than the values shown in table 1 to § 54.05-20(a). Only one specimen in a set may be below the required average and the value of that specimen must be above the minimum impact value permitted on one specimen only. See § 54.05-5(c) for retest requirements. Table 1 to § 54.05-20( a )—Charpy V-Notch Impact Requirements 1 Straight line interpolation for intermediate values is permitted. (b) Transversely oriented Charpy V-notch impact specimens of ASTM A203 (incorporated by reference, see § 54.01-1) nickel steels must exhibit energies not less than the values shown in paragraph (a) of this section. Requirements for 9 percent nickel steels are contained in § 54.25-20. Other nickel alloy steels, when specially approved by the Commandant, must exhibit a no-break performance when tested in accordance with the drop weight procedure. If, for such materials, there are data indicating suitable correlation with drop-weight tests, Charpy V-notch tests may be specially considered by the Commandant in lieu of drop-weight tests. If the drop-weight test cannot be performed because of material thickness limitations (less than one-half inch), or product shape, or is otherwise inapplicable (because of heat treatment, chemistry etc.) other tests or test criteria will be specified by the Commandant. (c) Where sufficient data are available to warrant such waiver, the Commandant may waive the requirements for toughness testing austenitic stainless-steel materials. Where required, austenitic stainless steels are to be tested using the drop-weight procedure and must exhibit a no-break performance. Where data are available indicating suitable correlation of Charpy V-notch results with drop-weight NDT or no-break performance, Charpy V-notch tests may be specially considered by the Commandant in lieu of dropweight tests. If the dropweight test cannot be performed because of material thickness limitations (less than one-half inch), or product shape, or is ot…
46:46:2.0.1.2.12.4.1.1	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.10	Subpart 54.10—Inspection, Reports, and Stamping	§ 54.10-1 Scope (modifies UG-90 through UG-103 and UG-115 through UG-120).	USCG	[CGFR 68-82, 33 FR 18828, Dec. 18, 1968, as amended by USCG-2003-16630, 73 FR 65167, Oct. 31, 2008]	The inspection, tests, stamping, and reports for pressure vessels must be as required by paragraphs UG-90 through UG-103 and UG-115 through UG-120 of Section VIII of the ASME BPVC (incorporated by reference; see § 54.01-1) except as noted otherwise in this subpart.
46:46:2.0.1.2.12.4.1.2	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.10	Subpart 54.10—Inspection, Reports, and Stamping	§ 54.10-3 Marine inspectors and Coast Guard Symbol stamping (replaces UG-90 and UG-91, and modifies UG-92 through UG-103).	USCG	[CGFR 68-82, 33 FR 18828, Dec. 18, 1968, as amended by CGD 77-147, 47 FR 21810, May 20, 1982; USCG-2003-16630, 73 FR 65167, Oct. 31, 2008]	(a) Only marine inspectors will apply the Coast Guard Symbol. They will not apply any other code symbol to pressure vessels. (b) All pressure vessels not exempted under provisions of § 54.01-15 must be subject to shop inspection by a marine inspector referring to procedures outlined in UG-92 through UG-103 of Section VIII of the ASME BPVC (incorporated by reference; see § 54.01-1) and §§ 50.30-10, 50.30-15, and 50.30-20 of this subchapter. The marine inspector will then stamp the vessel with the Coast Guard Symbol. (c) Pressure vessels exempted under provisions of § 54.01-15, except as provided in paragraph (d) of this section, are not required to be stamped with the Coast Guard Symbol. (d) Pressure vessels described in § 54.01-5(c)(3), except pressure vessels in systems regulated under subpart 58.60 of this subchapter, must be visually examined by a marine inspector prior to installation. The marine inspector also reviews the associated plans and manufacturers' data reports. If, upon inspection, the pressure vessel complies with the applicable requirements in § 54.01-5, the marine inspector stamps the pressure vessel with the Coast Guard Symbol.
46:46:2.0.1.2.12.4.1.3	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.10	Subpart 54.10—Inspection, Reports, and Stamping	§ 54.10-5 Maximum allowable working pressure (reproduces UG-98).	USCG	[USCG-2003-16630, 73 FR 65167, Oct. 31, 2008]	(a) The maximum allowable working pressure for a vessel is the maximum pressure permissible at the top of the vessel in its normal operating position at the designated coincident temperature specified for that pressure. It is the least of the values found for maximum allowable working pressure for any of the essential parts of the vessel by the principles given in paragraph (b) of this section and adjusted for any difference in static head that may exist between the part considered and the top of the vessel. (See appendix 3 of Section VIII of the ASME BPVC (incorporated by reference; see § 54.01-1.)) (b) The maximum allowable working pressure for a vessel part is the maximum internal or external pressure, including the static head hereon, as determined by the rules and formulas in Section VIII of the ASME BPVC, together with the effect of any combination of loadings listed in UG-22 of Section VIII of the ASME BPVC (see § 54.01-30) that are likely to occur, or the designated coincident operating temperature, excluding any metal thickness specified as corrosion allowance. (See UG-25 of Section VIII of the ASME BPVC.) (c) Maximum allowable working pressure may be determined for more than one designated operating temperature, using for each temperature the applicable allowable stress value. Table 1 to § 54.10-5 gives the interrelation among the various pressure levels pertinent to this part of the regulations. It includes reference to Section VIII of the ASME BPVC for definitions and explanations.
46:46:2.0.1.2.12.4.1.4	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.10	Subpart 54.10—Inspection, Reports, and Stamping	§ 54.10-10 Standard hydrostatic test (modifies UG-99).	USCG	[CGFR 68-82, 33 FR 18828, Dec. 18, 1968, as amended by USCG-2003-16630, 73 FR 65170, Oct. 31, 2008]	(a) All pressure vessels must satisfactorily pass the hydrostatic test prescribed by this section, except those pressure vessels noted under § 54.10-15(a). (b) The hydrostatic-test pressure must be at least one and three-tenths (1.30) times the maximum allowable working pressure stamped on the pressure vessel, multiplied by the ratio of the stress value “S” at the test temperature to the stress value “S” at the design temperature for the materials of which the pressure vessel is constructed. The values for “S” must be taken from tables UCS 23, UNF 23, UHA 23, or UHT 23 of Section VIII of the ASME BPVC (incorporated by reference, see § 54.01-1). The value of “S” at test temperature must be that taken for the material of the tabulated value of temperature closest to the test temperature. The value of “S” at design temperature must be as interpolated from the appropriate table. No ratio less than one must be used. The stress resulting from the hydrostatic test must not exceed 90 percent of the yield stress of the material at the test temperature. External loadings, which will exist in supporting structure during the hydrostatic test, should be considered. The design must consider the combined stress during hydrostatic testing due to pressure and the support reactions. This stress must not exceed 90 percent of the yield stress of the material at the test temperature. In addition, the adequacy of the supporting structure during hydrostatic testing should be considered in the design. (c) The hydrostatic test pressure must be applied for a sufficient period of time to permit a thorough examination of all joints and connections. The test must not be conducted until the vessel and liquid are at approximately the same temperature. (d) Defects detected during the hydrostatic test or subsequent examination must be completely removed and then inspected. Provided the marine inspector gives their approval, they may then be repaired. (e) Vessels requiring stress relieving must be stress relieved after any welding repairs hav…
46:46:2.0.1.2.12.4.1.5	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.10	Subpart 54.10—Inspection, Reports, and Stamping	§ 54.10-15 Pneumatic test (modifies UG-100).	USCG	[CGFR 68-82, 33 FR 18828, Dec. 18, 1968, as amended by USCG-2003-16630, 73 FR 65170, Oct. 31, 2008]	(a) Pneumatic testing of welded pressure vessels is permitted only for those units which are so designed and supported that they cannot be safely filled with water, or for those units which cannot be dried and are to be used in a service where traces of the testing medium cannot be tolerated. (b) Proposals to pneumatically test must be submitted to the cognizant Officer in Charge, Marine Inspection, for approval. (c) Except for enameled vessels, for which the pneumatic test pressure must be at least equal to, but need not exceed, the maximum allowable working pressure to be marked on the vessel, the pneumatic test pressure must be at least equal to one and one-tenth (1.10) times the maximum allowable working pressure to be stamped on the vessel multiplied by the lowest ratio (for the materials of which the vessel is constructed) of the stress value “S” for the test temperature of the vessel to the stress value “S” for the design temperature (see UG-21 of Section VIII of the ASME BPVC (incorporated by reference; see § 54.01-1)). In no case must the pneumatic test pressure exceed one and one-tenth (1.10) times the basis for calculated test pressure as defined in UA-60(e) of Section VIII of the ASME BPVC. (d) The pneumatic test of pressure vessels must be accomplished as follows: (1) The pressure on the vessel must be gradually increased to not more than half the test pressure. (2) The pressure will then be increased at steps of approximately one-tenth the test pressure until the test pressure has been reached. (3) The pressure will then be reduced to the maximum allowable working pressure of the vessel to permit examination. (e) Pressure vessels pneumatically tested must also be leak tested. The test must be capable of detecting leakage consistent with the design requirements of the pressure vessel. Details of the leak test shall be submitted to the Commandant for approval. (f) After satisfactory completion of the pneumatic pressure test, the vessel may be stamped in accordance with § 54.10-20. A marine ins…
46:46:2.0.1.2.12.4.1.6	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.10	Subpart 54.10—Inspection, Reports, and Stamping	§ 54.10-20 Marking and stamping.	USCG	[CGFR 68-82, 33 FR 18828, Dec. 18, 1968, as amended by CGFR 69-127, 35 FR 9977, June 17, 1970; CGD 72-206R, 38 FR 17226, June 29, 1973; CGD 77-147, 47 FR 21810, May 20, 1982; USCG-2003-16630, 73 FR 65170, Oct. 31, 2008]	(a) Pressure vessels (Replaces UG-116, except paragraph (k), and UG-118). Pressure vessels that are required by § 54.10-3 to be stamped with the Coast Guard Symbol must also be stamped with the following information: (1) Manufacturer's name and serial number. (2) Coast Guard number, see § 50.10-30 of this subchapter (only applicable to pressure vessels inspected as required by § 54.10-3(b)). (3) Coast Guard Symbol, which is affixed only by the marine inspector. (4) Maximum allowable working pressure __ kPa (__ psig) at __ °C (__ °F). (5) Class. (6) Minimum design metal temperature, if below −18 °C (0 °F). (7) Water capacity in liters (U.S. gallons), if a cargo-carrying pressure vessel. (b) Multichambered pressure vessels (Replaces UG-116(k)). In cases where more than one pressure vessel is involved in an integral construction, as with a heat exchanger, the manufacturer may elect to class the component pressure vessels differently. In such cases they must stamp the combined structures as required in paragraph (a) of this section with information for each pressure vessel. Where an item for stamping is identical for both vessels, as with name and address of manufacturer, it need not be duplicated. However, where differences exist, each value and the vessel to which it applies shall be clearly indicated. (c) Stamping data (Replaces UG-117). Except as noted in paragraph (d) of this section, the data must be stamped directly on the pressure vessel. The data must be legibly stamped and must not be obliterated during the service life of the pressure vessel. In the event that the portion of the pressure vessel upon which the data is stamped is to be insulated or otherwise covered, the data must be reproduced on a metal nameplate. This plate must be securely attached to the pressure vessel. The nameplate must be maintained in a legible condition such that it may be easily read. (1) Those parts of pressure vessels requiring Coast Guard shop inspection under this part which are furnished by other than the sho…
46:46:2.0.1.2.12.4.1.7	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.10	Subpart 54.10—Inspection, Reports, and Stamping	§ 54.10-25 Manufacturers' data report forms (modifies UG-120).	USCG	[CGFR 69-127, 35 FR 9977, June 17, 1970, as amended by CGD 77-147, 47 FR 21810, May 20, 1982]	(a) The Manufacturers' data report form, as provided by the Coast Guard, must be completed in duplicate and certified by the manufacturer for each pressure vessel required to be shop inspected under these regulations. The original of this form must be delivered to the Coast Guard inspector. (b) Data forms for those parts of a pressure vessel requiring inspection, which are furnished by other than the shop of the manufacturer responsible for the completed unit, must be executed in triplicate by the manufacturer of the parts. The original and one copy must be delivered to the Coast Guard inspector who must forward one copy of the report to the Officer in Charge, Marine Inspection, having cognizance over the final assembly. These partial data reports, together with the final inspection and tests, must be the final Coast Guard inspector's authority to apply the Coast Guard symbol and number. A final data report must be executed by the manufacturer or assembler who completes the final assembly and tests. (c) If a pressure vessel is required to be inspected in accordance with § 54.10-3(c), the manufacturer's data reports required by UG-120 must be made available to the Coast Guard inspector for review prior to inspection of the pressure vessel.
46:46:2.0.1.2.12.5.1.1	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.15	Subpart 54.15—Pressure-Relief Devices	§ 54.15-1 General (modifies UG-125 through UG-137).	USCG	[CGFR 68-82, 33 FR 18828, Dec. 18, 1968, as amended by CGD 88-032, 56 FR 35822, July 29, 1991; USCG-2003-16630, 73 FR 65170, Oct. 31, 2008]	(a) All pressure vessels must be provided with protective devices as indicated in UG-125 through UG-136 Section VIII of the ASME BPVC (incorporated by reference; see § 54.01-1) except as noted otherwise in this subpart. (b) The markings must be in accordance with this chapter for devices covered by § 54.15-10.
46:46:2.0.1.2.12.5.1.2	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.15	Subpart 54.15—Pressure-Relief Devices	§ 54.15-3 Definitions (modifies appendix 3).	USCG	[CGFR 68-82, 33 FR 18828, Dec. 18, 1968, as amended by USCG-2003-16630, 73 FR 65170, Oct. 31, 2008]	Definitions applicable to this subpart are in § 52.01-3 of this subchapter.
46:46:2.0.1.2.12.5.1.3	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.15	Subpart 54.15—Pressure-Relief Devices	§ 54.15-5 Protective devices (modifies UG-125).	USCG	[CGFR 68-82, 33 FR 18828, Dec. 18, 1968, as amended by CGD 88-032, 56 FR 35822, July 29, 1991; CGD 95-012, 60 FR 48049, Sept. 18, 1995; USCG-2003-16630, 73 FR 65170, Oct. 31, 2008]	(a) All pressure vessels must be provided with protective devices. The protective devices must be in accordance with the requirements of UG-125 through UG-136 of Section VIII of the ASME BPVC (incorporated by reference; see § 54.01-1) except as modified in this subpart. (b) An unfired steam boiler evaporator or heat exchanger (see § 54.01-10) must be equipped with protective devices as required by § 54.15-15. (c) All pressure vessels other than unfired steam boilers must be protected by pressure-relieving devices that will prevent the pressure from rising more than 10 percent above the maximum allowable working pressure, except when the excess pressure is caused by exposure to fire or other unexpected source of heat. (d) Where an additional hazard can be created by exposure of a pressure vessel to fire or other unexpected sources of external heat (for example, vessels used to store liquefied flammable gases), supplemental pressure-relieving devices must be installed to protect against excessive pressure. Such supplemental pressure-relieving devices must be capable of preventing the pressure from rising more than 20 percent above the maximum allowable working pressure of the vessel. The minimum required relief capacities for compressed gas pressure vessels are given under § 54.15-25. A single pressure-relieving device may be used to satisfy the requirements of this paragraph and paragraph (c) of this section, provided it meets the requirements of both paragraphs. (e) Pressure-relieving devices should be selected on the basis of their intended service. They must be constructed, located, and installed so that they are readily accessible for inspection and repair and so arranged that they cannot be readily rendered inoperative. (f) Where pressure-indicating gages are used, they must be chosen to be compatible with the pressure to be indicated. The size of the visual display, the fineness of graduations, and the orientation of the display will be considered. In no case must the upper range of the gage be less tha…
46:46:2.0.1.2.12.5.1.4	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.15	Subpart 54.15—Pressure-Relief Devices	§ 54.15-10 Safety and relief valves (modifies UG-126).	USCG	[CGFR 68-82, 33 FR 18828, Dec. 18, 1968, as amended by CGD 81-79, 50 FR 9436, Mar. 8, 1985; USCG-2003-16630, 73 FR 65170, Oct. 31, 2008]	(a) All safety and relief valves for use on pressure vessels or piping systems must be designed to meet the protection and service requirements for which they are intended and must be set to relieve at a pressure which does not exceed the “maximum allowable working pressure” of the pressure vessel or piping system. Relief valves are not required to have huddling chambers for other than steam service. In addition, safety valves used on vessels in which steam is generated must meet the standards in § 52.01-120 of this subchapter except § 52.01-120(a)(9). For steam service below 206 kPa (30 psig), bodies of safety valves may be made of cast iron. Safety relief valves used in liquefied compressed gas service must meet the standards in subpart 162.017 or 162.018 in subchapter Q of this chapter as appropriate. (b) Pilot-valve control or other indirect operation of safety valves is not permitted unless the design is such that the main unloading valve will open automatically at not over the set pressure and will discharge its full rated capacity if some essential part of the pilot or auxiliary device should fail. All other safety and relief valves shall be of the direct spring-loaded type. (c) Safety and relief valves for steam or air service must be provided with a substantial lifting device so that the disk can be lifted from its seat when the pressure in the vessel is 75 percent of that at which the valve is set to blow. (d) Safety and relief valves for service other than steam and air need not be provided with a lifting device although a lifting device is desirable if the vapors are such that their release will not create a hazard. (e) If the design of a safety or relief valve is such that liquid can collect on the discharge side of the disk, the valve must be equipped with a drain at the lowest point where liquid can collect (for installation, see UG-134 of Section VIII of the ASME BPVC (incorporated by reference; see § 54.01-1)). (f) Cast iron may be employed in the construction of relief valves for pressures …
46:46:2.0.1.2.12.5.1.5	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.15	Subpart 54.15—Pressure-Relief Devices	§ 54.15-13 Rupture disks (modifies UG-127).	USCG	[CGFR 68-82, 33 FR 18828, Dec. 18, 1968, as amended by USCG-2003-16630, 73 FR 65170, Oct. 31, 2008]	(a) Paragraph UG-127 of Section VIII of the ASME BPVC (incorporated by reference; see § 54.01-1) provides for the use of rupture disks in series with spring loaded safety or relief valves. (b) For certain pressure vessels containing substances which may render a relief or safety valve inoperative, or where the installation of a valve is considered impractical, the Commandant may authorize or require the use of a rupture disk in parallel with or in lieu of a spring-loaded safety or relief valve. These rupture disks must: (1) Comply with the general provisions of § 54.15-5 except as noted otherwise in this section; (2) Have a capacity for discharge such that the volume of release is sufficient to prevent the internal pressure from exceeding 120 percent of the “maximum allowable working pressure” with the pressure vessel exposed to fire conditions (see § 54.15-25); and, (3) Operate at a pressure level which does not produce fatigue failure of the disk. The normal maximum operating pressure multiplied by 1.3 must not exceed the nominal disk burst pressure. (Notice that this restriction for protection of the rupture disk will usually require operation below the “maximum allowable working pressure” of the pressure vessel and therefore should be considered in design.) (c) All disks must be oriented so that if rupture occurs, the disk fragments and pressure vessel discharge will be directed away from operating personnel and vital machinery.
46:46:2.0.1.2.12.5.1.6	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.15	Subpart 54.15—Pressure-Relief Devices	§ 54.15-15 Relief devices for unfired steam boilers, evaporators, and heat exchangers (modifies UG-126).	USCG	[CGFR 68-82, 33 FR 18828, Dec. 18, 1968, as amended by CGD 72-206R, 38 FR 17226, June 29, 1973]	(a) An approved safety valve set to relieve at a pressure not exceeding the “maximum allowable working pressure” of the shell must be fitted to all unfired steam boilers and evaporators except for evaporators of the atmospheric type designed for vapor discharge direct to a distiller with no shutoff valve in the discharge line. The distiller connected to atmospheric evaporators must be fitted with a vent to prevent a buildup in pressure. In no case must the vent be less than 1.5 inches in diameter. Evaporators operating between atmospheric pressure and 15 psig, may use a rupture disc as an alternative to the safety valve. (b) Safety valves for use on pressure vessels in which steam or pressure is generated must comply with the requirements of § 54.15-10. Rupture discs used in lieu of these safety valves, as provided for in paragraph (a) of this section, must comply with the requirements of § 54.15-13. (c) The relieving capacity of evaporator safety valves required by paragraph (a) of this section must be at least equal to the capacity of the orifice fitted in the steam supply to the evaporator. The orifice capacity must be determined in accordance with the formula in paragraph (c)(1) or (2) of this section as appropriate: (1) Where the set pressure of the evaporator shell safety valve is 58 percent or less than the setting of the safety valve in the steam supply: W = 51.45AP (2) Where the set pressure of the evaporator shell safety valve exceeds 58 percent of the setting of the safety valve on the steam supply: W = 105.3A√ P 1 (P−P 1 ) where: W = The required orifice capacity, in pounds per hour. A = Cross-sectional area of rounded entrance orifice, in square inches. The orifice must be installed near the steam inlet or the coils or tubes and where no orifice is employed the area used in the formula must be that of the inlet connection or manifold. P = Set pressure of steam supply safety valve, in pounds per square inch, absolute. P 1 = Set pressure of evaporator shell safety valve, in pounds p…
46:46:2.0.1.2.12.5.1.7	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.15	Subpart 54.15—Pressure-Relief Devices	§ 54.15-25 Minimum relief capacities for cargo tanks containing compressed or liquefied gas.	USCG	[CGFR 68-82, 33 FR 18828, Dec. 18, 1968, as amended by CGD 74-289, 44 FR 26007, May 3, 1979; CGD 82-063b, 48 FR 4781, Feb. 3, 1983; CGD 95-072, 60 FR 50462, Sept. 29, 1995; CGD 96-041, 61 FR 50728, Sept. 27, 1996; USCG-2004-18884, 69 FR 58346, Sept. 30, 2004; USCG-2007-29018, 72 FR 53965, Sept. 21, 2007; USCG-2009-0702, 74 FR 49228, Sept. 25, 2009; USCG-2012-0832, 77 FR 59777, Oct. 1, 2012]	(a) Each tank must be fitted with one or more safety relief valves designed, constructed, and flow tested in accordance with subpart 162.017 or 162.018 in subchapter Q of this chapter. Valves conforming to specification subpart 162.017 must be limited to use on tanks whose maximum allowable working pressure is not in excess of 10 pounds per square inch. With specific approval of the Commandant, such valves may be connected to the vessel in lieu of being directly fitted to the tanks. (b) The discharge pressure and the maximum overpressure permitted must be in accordance with § 54.15-5. (c)(1) The rate of discharge for heat input of fire must meet the following formula: Q = FGA 0.82 where: Q = minimum required rate of discharge in cubic meters (cubic feet) per minute of air at standard conditions 15 °C and 103 kPa (60 °F and 14.7 psia). F = fire exposure factor for the following tank types: F = 1.0 for tanks without insulation located on the open deck. F = 0.5 for tanks on the open deck having insulation that has approved fire proofing, thermal conductance, and stability under fire exposure. F = 0.5 for uninsulated independent tasks installed in holds. F = 0.2 for insulated independent tanks in holds or for uninsulated independent tanks in insulated holds. F = 0.1 for insulated independent tanks in inerted holds or for uninsulated independent tanks in inerted, insulated holds. F = 0.1 for membrane and semi-membrane tanks. G = gas factor of: G = [(177 ÷ LC) (√((ZT) ÷ M))] SI units G = [(633,000 ÷ LC) (√((ZT) ÷ M))] English units where: L = latent heat of the material being vaporized at the relieving conditions, in Kcal/kg (Btu per pound). C = constant based on relation of specific heats (k), table 1 to § 54.15-25(c) (if k is not known, C = .606(315)). Z = compressibility factor of the gas at the relieving conditions (if not known, Z = 1.0). T = temperature in K = (273 + °C) (R = (460 + °F)) at the relieving conditions (120% of the pressure at which the pressure re…
46:46:2.0.1.2.12.6.1.1	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.20	Subpart 54.20—Fabrication by Welding	§ 54.20-1 Scope (modifies UW-1 through UW-65).	USCG	[CGFR 68-82, 33 FR 18828, Dec. 18, 1968, as amended by USCG-2003-16630, 73 FR 65170, Oct. 31, 2008]	(a) Pressure vessels and vessel parts that are fabricated by welding must be as required by paragraphs UW-1 through UW-65 of Section VIII of the ASME BPVC (incorporated by reference; see § 54.01-1) except as noted otherwise in this subchapter. (b) [Reserved]
46:46:2.0.1.2.12.6.1.2	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.20	Subpart 54.20—Fabrication by Welding	§ 54.20-2 Fabrication for hazardous materials (replaces UW-2(a)).	USCG	[CGD 77-147, 47 FR 21810, May 20, 1982]	(a) Pressure vessels containing hazardous materials as defined in § 150.115 of this subchapter must be of the class and construction required by subchapters D, I, or O of this chapter, or, when not specified, of a class determined by the Commandant. (b) Class III pressure vessels must not be used for the storage or stowage of hazardous materials unless there is specific authorization in subchapters D, I, or O of this chapter.
46:46:2.0.1.2.12.6.1.3	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.20	Subpart 54.20—Fabrication by Welding	§ 54.20-3 Design (modifies UW-9, UW-11(a), UW-13, and UW-16).	USCG	[CGFR 68-82, 33 FR 18828, Dec. 18, 1968, as amended by CGD 77-147, 47 FR 21810, May 20, 1982; CGD 85-061, 54 FR 50964, Dec. 11, 1989; USCG-2003-16630, 73 FR 65170, Oct. 31, 2008]	(a) Fabrication by welding must be in accordance with the provisions of this part and with part 57 of this subchapter. (b) Welding subject to UW-11(a) of Section VIII of the ASME BPVC (incorporated by reference; see § 54.01-1) must be modified as described in § 54.25-8 for radiographic examination. (c) A butt-welded joint with one plate edge offset, as shown in Figure UW-13.1(k) of Section VIII of the ASME BPVC, may only be used for circumferential joints of Class II and Class III pressure vessels. (d) Attachment welds for nozzles and other connections must be in accordance with UW-16 of Section VIII of the ASME BPVC. When nozzles or connections are made to pressure vessels, as shown in Figure UW-16.1 (a) and (c) of the ASME BPVC, and are welded from one side only, backing strips must be used unless it can be determined visually that a full penetration weld has been achieved. (e) When fabricating by welding the minimum joint requirements must be as specified under the column headed “minimum joint requirements” in table 2 to § 54.01-5 for various classes of pressure vessels. (f) Joints in Class II or III pressure vessel cargo tanks must meet the following: (1) Category A and B joints must be type (1) or (2). (2) Category C and D joints must have full penetration welds extending through the entire thickness of the vessel wall or nozzle wall.
46:46:2.0.1.2.12.6.1.4	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.20	Subpart 54.20—Fabrication by Welding	§ 54.20-5 Welding qualification tests and production testing (modifies UW-26, UW-28, UW-29, UW-47, and UW-48).	USCG	[CGFR 68-82, 33 FR 18828, Dec. 18, 1968, as amended by CGFR 69-127, 35 FR 9977, June 17, 1970]	(a) Performance and procedure qualification. No production welding must be done until welding procedures and welders have been qualified in accordance with part 57 of this subchapter. (b) Tests. Production tests are required in accordance with § 57.06-1 of this subchapter.
46:46:2.0.1.2.12.7.1.1	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.23	Subpart 54.23—Fabrication by Brazing	§ 54.23-1 Scope (modifies UB-1).	USCG	[CGFR 69-127, 35 FR 9977, June 17, 1970]	(a) Fabrication by brazing must be in accordance with the provisions of this part and with part 57 of this subchapter. (b) [Reserved]
46:46:2.0.1.2.12.8.1.1	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.25	Subpart 54.25—Construction With Carbon, Alloy, and Heat-Treated Steels	§ 54.25-1 Scope.	USCG	[CGFR 68-82, 33 FR 18828, Dec. 18, 1968, as amended by USCG-2003-16630, 73 FR 65170, Oct. 31, 2008]	The pressure vessels for low temperature operation must be as required by Section VIII of the ASME BPVC (incorporated by reference; see § 54.01-1) as modified by this subpart.
46:46:2.0.1.2.12.8.1.2	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.25	Subpart 54.25—Construction With Carbon, Alloy, and Heat-Treated Steels	§ 54.25-3 Steel plates (modifies UCS-6).	USCG	[USCG-2003-16630, 73 FR 65170, Oct. 31, 2008]	The steels listed in UCS-6(b) of Section VIII of the ASME BPVC (incorporated by reference; see § 54.01-1) will be allowed only in Class III pressure vessels (see table 2 to § 54.01-5(b)).
46:46:2.0.1.2.12.8.1.3	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.25	Subpart 54.25—Construction With Carbon, Alloy, and Heat-Treated Steels	§ 54.25-5 Corrosion allowance.	USCG	[USCG-2003-16630, 73 FR 65170, Oct. 31, 2008]	The corrosion allowance must be as required in § 54.01-35.
46:46:2.0.1.2.12.8.1.4	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.25	Subpart 54.25—Construction With Carbon, Alloy, and Heat-Treated Steels	§ 54.25-7 Requirement for postweld heat treatment (modifies UCS-56).	USCG	[CGFR 69-127, 35 FR 9977, June 17, 1970]	(a) Postweld heat treatment is required for all carbon and low alloy steel Class I, I-L, and II-L vessels regardless of thickness. (Refer to table 2 to § 54.01-5 for applicable requirements.) (b) Cargo tanks which are fabricated of carbon or low alloy steel as Class II pressure vessels, designed for pressures exceeding 100 pounds per square inch gage and used in the storage or transportation of liquefied compressed gases must be postweld heat treated regardless of thickness.
46:46:2.0.1.2.12.8.1.5	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.25	Subpart 54.25—Construction With Carbon, Alloy, and Heat-Treated Steels	§ 54.25-8 Radiography (modifies UW-11(a), UCS-57, UNF-57, UHA-33, and UHT-57).	USCG	[CGFR 68-82, 33 FR 18828, Dec. 18, 1968, as amended by CGD 85-061, 54 FR 50964, Dec. 11, 1989; USCG-2003-16630, 73 FR 65170, Oct. 31, 2008]	(a) Full radiography is required for all Class I and Class I-L vessels regardless of thickness. (Refer to table 2 to § 54.01-5 for applicable requirements.) (b) Class II-L vessels must be spot radiographed. The exemption provided in UW-11(c) of Section VIII of the ASME BPVC (incorporated by reference; see § 54.01-1) does not apply. (Refer to table 2 to § 54.01-5 for applicable requirements.) (c) Each butt-welded joint in a Class II or III pressure vessel cargo tank must be spot radiographed, in accordance with UW-52, regardless of diameter or thickness, and each weld intersection or crossing must be radiographed for a distance of at least 10 thicknesses from the intersection.
46:46:2.0.1.2.12.8.1.6	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.25	Subpart 54.25—Construction With Carbon, Alloy, and Heat-Treated Steels	§ 54.25-10 Low temperature operation—ferritic steels (replaces UCS-65 through UCS-67).	USCG	[CGFR 68-82, 33 FR 18828, Dec. 18, 1968, as amended by CGFR 69-127, 35 FR 9977, June 17, 1970; CGD 73-133R, 39 FR 9178, Mar. 8, 1974; CGD 74-289, 44 FR 26007, May 3, 1979; CGD 77-069, 52 FR 31626, Aug. 21, 1987; CGD 85-061, 54 FR 50964, Dec. 11, 1989; USCG-1999-5151, 64 FR 67178, Dec. 1, 1999; USCG-2000-7790, 65 FR 58460, Sept. 29, 2000; USCG-2003-16630, 73 FR 65170, Oct. 31, 2008]	(a) Scope. (1) This section contains requirements for pressure vessels and nonpressure vessel type tanks and associated secondary barrier, as defined in §§ 38.05-4 and 154.7 of this chapter, and their parts constructed of carbon and alloy steels which are stressed at operating or hydrostatic test temperatures below 0 °F. (2)(i) The service temperature is the minimum temperature of a product at which it may be contained, loaded and/or transported. However, the service temperature must in no case be taken higher than given by the following formula: t s = t w − 0.25(t w − t B ) where: t s = Service temperature. t w = Boiling temperature of gas at normal working pressure of container but not higher than + 32 °F. t B = Boiling temperature of gas at atmospheric pressure. where: t s = Service temperature. t w = Boiling temperature of gas at normal working pressure of container but not higher than + 32 °F. t B = Boiling temperature of gas at atmospheric pressure. (ii) Only temperatures due to refrigerated service usually need to be considered in determining the service temperature, except pressure vessel type cargo tanks operating at ambient temperatures must meet paragraph (d) of this section. “Refrigerated service”, as used in this paragraph (a)(2)(ii), means a service in which the temperature is controlled by the process and not by atmospheric conditions. (b) Specifications. Materials used in the construction of vessels to operate below 0 °F (but not below the designated minimum service temperature) must conform to a specification given in table UCS-23 in Section VIII of the ASME BPVC (incorporated by reference; see § 54.01-1) and the following additional requirements: For high alloy steels refer to § 54.25-15. For heat treated steels refer to § 54.25-20. (1)(i) For minimum service temperatures not lower than −67 °F, ferritic steels must be made with fine grain practice and must have an austenitic grain size of 5 or finer, and must be normalized. Consideration will be given to other he…
46:46:2.0.1.2.12.8.1.7	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.25	Subpart 54.25—Construction With Carbon, Alloy, and Heat-Treated Steels	§ 54.25-15 Low temperature operation—high alloy steels (modifies UHA-23(b) and UHA-51).	USCG	[CGFR 68-82, 33 FR 18828, Dec. 18, 1968, as amended by CGD 73-133R, 39 FR 9178, Mar. 8, 1974; CGD 73-254, 40 FR 40164, Sept. 2, 1975; USCG-2003-16630, 73 FR 65171, Oct. 31, 2008]	(a) Toughness tests for the materials listed in UHA-51(a) in Section VIII of the ASME BPVC (incorporated by reference; see § 54.01-1) for service temperatures below −425 °F, UHA-51(b)(1) through (5) for service temperatures below 0 °F, and UHA-51(c) for all service temperatures, must be performed in accordance with the requirements of subpart 54.05. These requirements are also applicable to nonpressure vessel type, low temperature tanks and associated secondary barriers, as defined in § 38.05-4 in subchapter D of this chapter. Such tests are required regardless of the vessel's design stress. Service temperature is defined in § 54.25-10(a)(2). (b) Materials for pressure vessels with service temperatures below −320 °F must be of the stabilized or low carbon (less than 0.10 percent) austenitic stainless-steel type, produced according to the applicable specifications of table UHA-23 of Section VIII of the ASME BPVC. These materials and their weldments must be tested for toughness according to the requirements of subpart 54.05 except that the Charpy V-notch testing acceptance criteria will be in accordance with UHT-6(a)(4) and (5) of Section VIII of the ASME BPVC. (c) Except as permitted by § 54.05-30, the allowable stress values used in the design of low temperature pressure vessels may not exceed those given in table UHA-23 of Section VIII of the ASME BPVC for temperatures of −20 °F to 100 °F.
46:46:2.0.1.2.12.8.1.8	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.25	Subpart 54.25—Construction With Carbon, Alloy, and Heat-Treated Steels	§ 54.25-20 Low temperature operation—ferritic steels with properties enhanced by heat treatment (modifies UHT-5(c), UHT-6, UHT-23, and UHT-82).	USCG	[CGFR 68-82, 33 FR 18828, Dec. 18, 1968, as amended by CGD 73-133R, 39 FR 9179, Mar. 8, 1974; USCG-2000-7790, 65 FR 58460, Sept. 29, 2000; USCG-2003-16630, 73 FR 65171, Oct. 31, 2008]	(a) For service temperatures below 0 °F but not below the designated minimum service temperature, steel conforming to the specifications of table 1 to § 54.25-20(a) may be used in the fabrication of pressure vessels and nonpressure vessel tanks and associated secondary barriers, as defined in § 38.05-4 of subchapter D of this chapter. The ultimate and yield strengths must be as shown in the applicable specification and must be suitable for the design stress levels adopted. The service temperature must not be colder than −320 °F. Service temperature is defined in § 54.25-10(a)(2). Table 1 to § 54.25-20( a ) (b) The materials permitted under paragraph (a) of this section must be tested for toughness in accordance with the requirements of UHT-6 of Section VIII of the ASME BPVC (incorporated by reference; see § 54.01-1) except that tests must be conducted at the temperature specified in § 54.05-6 in lieu of that in UHT-5(c) of Section VIII of the ASME BPVC. Lateral expansion in a broken Charpy V-notch specimen is illustrated in figure 1 to § 54.25-20(b) and must be measured in accordance with the procedure outlined in ASTM A370 (incorporated by reference, see § 54.01-1). (c) The qualification of welding procedures, welders and weld-production testing for the steels of table 1 to § 54.25-20(a) must conform to the requirements of part 57 of this subchapter and to those of subpart 54.05 except that the acceptance criteria for Charpy V-notch testing must be in accordance with UHT-6(a)(4) of Section VIII of the ASME BPVC. (d) The values of absorbed energy in foot-pounds and of fracture appearance in percentage shear, which are recorded for information when complying with paragraphs (b) and (c) of this section must also be reported to the marine inspector or the Commandant, as applicable. (e) Except as permitted by § 54.05-30, the allowable stress values may not exceed those given in table UHT-23 of Section VIII of the ASME BPVC for temperatures of 150 °F and below.
46:46:2.0.1.2.12.8.1.9	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.25	Subpart 54.25—Construction With Carbon, Alloy, and Heat-Treated Steels	§ 54.25-25 Welding of quenched and tempered steels (modifies UHT-82).	USCG	[CGFR 68-82, 33 FR 18828, Dec. 18, 1968, as amended by USCG-2003-16630, 73 FR 65171, Oct. 31, 2008]	(a) The qualification of welding procedures, welders, and weld-production testing must conform to the requirements of part 57 of this subchapter. The requirements of § 57.03-1(d) of this subchapter apply to welded pressure vessels and non-pressure vessel type tanks of quenched and tempered steels other than 9-percent nickel. (b) [Reserved]
46:46:2.0.1.2.12.9.1.1	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.30	Subpart 54.30—Mechanical Stress Relief	§ 54.30-1 Scope.	USCG		(a) Certain pressure vessels may be mechanically stress relieved in accordance with the requirements in this subpart. (b) [Reserved]
46:46:2.0.1.2.12.9.1.2	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.30	Subpart 54.30—Mechanical Stress Relief	§ 54.30-3 Introduction.	USCG	[CGFR 68-82, 33 FR 18828, Dec. 18, 1968, as amended by USCG-2000-7790, 65 FR 58460, Sept. 29, 2000; USCG-2003-16630, 73 FR 65171, Oct. 31, 2008]	(a) Large conventional pressure vessels used to transport liquefied petroleum and natural gases, at “low temperatures” may often be difficult to thermally stress relieve. Where no other problem, such as corrosion exists, mechanical stress relief will be permitted for Class II-L pressure vessels. (b) Mechanical stress relief serves to cause small flaws, particularly in the weld zone, to yield plastically at the flaw tip resulting in a local relief of stress and a blunting of the crack tip. To achieve the maximum benefit from mechanical stress relief, it is necessary that the stresses so imposed be more severe than those expected in normal service life. At the same time, it is necessary that the stresses which are imposed are not so high as to result in appreciable deformation or general yielding. (c) The weld joint efficiencies as listed in table UW-12 of Section VIII of the BPVC (incorporated by reference; see § 54.01-1) apply except that a minimum of spot radiography will be required. UW-12(c) of Section VIII of the ASME BPVC that permits omitting all radiography does not apply. Spot examination must follow UW-52 of Section VIII of the ASME BPVC and, in addition, these vessels will be required to have radiographic examination of intersecting circumferential and longitudinal joints for a distance of at least 20 times the plate thickness from the junction. See § 54.25-8 on spot radiography. (d) Severe cold forming will not be permitted unless thermal stress relief is used. For example, parts of the vessels which are individually cold formed, such as heads, must be thermally stress relieved, where the extreme fiber strain measured at the surface exceeds 5 percent as determined by: Percent strain = (65t/R f )[1−(R f /R o )] where: t = Plate thickness. R f = Final radius. R o = Original radius (equals infinity for flat plate). where: t = Plate thickness. R f = Final radius. R o = Original radius (equals infinity for flat plate).
46:46:2.0.1.2.12.9.1.3	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.30	Subpart 54.30—Mechanical Stress Relief	§ 54.30-5 Limitations and requirements.	USCG	[CGFR 68-82, 33 FR 18828, Dec. 18, 1968, as amended by USCG-2003-16630, 73 FR 65171, Oct. 31, 2008]	(a) Class II-L pressure vessels which require stress relief (see table 2 to § 54.01-5) may be mechanically stress relieved provided: (1) The steels from which they are fabricated do not specifically require thermal stress relief in UCS-56 of Section VIII of the ASME BPVC (incorporated by reference; see § 54.01-1) and have a ratio of yield to ultimate tensile strength not greater than 0.8. For example: A-537 steels could be mechanically stress relieved. (2) Pressure difference across the shell is not greater than 100 pounds per square inch, thickness of shell is not greater than 1 inch, and the design temperature is not greater than 115 °F. (3) It will carry liquids of specific gravity no greater than 1.05. (4) Design details are sufficient to eliminate stress concentrators: Mechanical stress relief is not acceptable in designs involving the following types of welded connections shown in UW-16.1 of Section VIII of the ASME BPVC: (i) Types l, m, n, and p because of nonintegral reinforcement. Type o will be acceptable provided the plate, nozzle, and reinforcement assembly are furnace stress relieved and the reinforcement is at least 6 inches or 10t, whichever is larger, from the plate head. (ii) Types d, e, and f because expansion and contraction stresses are concentrated at the junction points. (5) That no slip-on flanges in sizes greater than 2 inches are used. (6) The categories A and B joints are type one as described in table UW-12 of Section VIII of the ASME BPVC and all categories C and D joints are full penetration welds. See UW-3 of the ASME BPVC for definition of categories. (b) When a pressure vessel is to be mechanically stress relieved in accordance with § 54.30-10(a)(1), its maximum allowable working pressure will be 40 percent of the value which would otherwise be determined. However, an increase of this 40 percent factor may be permitted if the stress relief is carried out at a pressure higher than that required by § 54.30-10(a)(1) and an experimental strain analysis is carried out during st…
46:46:2.0.1.2.12.9.1.4	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.30	Subpart 54.30—Mechanical Stress Relief	§ 54.30-10 Method of performing mechanical stress relief.	USCG	[CGFR 68-82, 33 FR 18828, Dec. 18, 1968, as amended by USCG-2003-16630, 73 FR 65171, Oct. 31, 2008]	(a) The mechanical stress relief must be carried out in accordance with the following stipulations using water as the pressurizing medium: (1) At a hydrostatic pressure (measured at the tank top) of 1.5 times the design pressure. (See UA-60(e) of Section VIII of the ASME BPVC (incorporated by reference; see § 54.01-1).) (2) At a temperature of 70 °F or the service temperature plus 50 °F, whichever is higher. Where the ambient temperature is below 70 °F, and use of water at that temperature is not practical, the minimum temperature for mechanical stress relief may be below 70 °F but must not be less than 50 °F above service temperature. (3) The stress relief must be at the required temperature and pressure and held for a period not less than 2 hours per inch of metal thickness, but in no case less than 2 hours. (b) It is considered preferable that mechanical stress relief be accomplished with the tanks in place on their saddles or supporting structure in the barge or ship in which they will be utilized. In any case, it is considered mandatory that the tank be supported only by its regular saddles or supporting structure, without any auxiliary or temporary supports.
46:46:2.0.1.2.12.9.1.5	46	Shipping	I	F	54	PART 54—PRESSURE VESSELS	54.30	Subpart 54.30—Mechanical Stress Relief	§ 54.30-15 Requirement for analysis and computation.	USCG		(a) A stress analysis must be performed to determine if the tank may be exposed to excessive loadings during the mechanical stress relief process. This analysis should include consideration of the local stresses in way of saddles or other supporting structure and additional bending stresses due to the weight of the pressurizing liquid particularly in areas of high stress concentration. While it is necessary that the general stress level during the process be in excess of the normal working level, the calculated maximum stress during test must not exceed 90 percent of the yield strength of the material at test temperature. The supporting structure must be analyzed to verify its adequacy. (b) In all cases where the tanks are mechanically stress relieved in place in the ship or barge and the tanks are designed to carry cargoes with a specific gravity less than 1.05, the ship or barge must be shown to have adequate stability and buoyancy, as well as strength to carry the excess weight of the tank during the stress relief procedure.

Advanced export

JSON shape: default, array, newline-delimited, object

CREATE TABLE cfr_sections (
    section_id TEXT PRIMARY KEY,
    title_number INTEGER,
    title_name TEXT,
    chapter TEXT,
    subchapter TEXT,
    part_number TEXT,
    part_name TEXT,
    subpart TEXT,
    subpart_name TEXT,
    section_number TEXT,
    section_heading TEXT,
    agency TEXT,
    authority TEXT,
    source_citation TEXT,
    amendment_citations TEXT,
    full_text TEXT
);
CREATE INDEX idx_cfr_title ON cfr_sections(title_number);
CREATE INDEX idx_cfr_part ON cfr_sections(part_number);
CREATE INDEX idx_cfr_agency ON cfr_sections(agency);