46 C.F.R. § 160.156-15

Current through November 30, 2024
Section 160.156-15 - Production inspections, tests, quality control, and conformance of rescue boats and fast rescue boats
(a) Unless the Commandant directs otherwise, an independent laboratory must perform or witness, as appropriate, inspections, tests, and oversight required by this section. Production inspections and tests of rescue boats must be carried out in accordance with the procedures for independent laboratory inspection in 46 CFR part 159, subpart 159.007 and in this section, unless the Commandant authorizes alternative tests and inspections. The Commandant may prescribe additional production tests and inspections necessary to maintain quality control and to monitor compliance with the requirements of this subpart.
(b)Manufacturer's responsibility. The manufacturer must-
(1) Institute a quality control procedure to ensure that all production rescue boats are produced to the same standard, and in the same manner, as the prototype rescue boat approved by the Commandant. The manufacturer's quality control personnel must not work directly under the department or person responsible for either production or sales;
(2) Schedule and coordinate with the independent laboratory (or Coast Guard inspector if required under paragraph (a) of this section) to ensure that all tests are performed as described in this section;
(3) Submit to the Commandant, a yearly report that contains the following-
(i) Serial number and date of final assembly of each rescue boat constructed;
(ii) Name of the representative of the independent laboratory (or Coast Guard inspector if required under paragraph (a) of this section); and
(iii) Name of the vessel and company receiving the rescue boat, if known;
(4) Ensure that the arrangement and materials entering into the construction of the rescue boat are in accordance with plans approved under § 160.156-13(h) of this subpart;
(5) Allow an independent laboratory (or Coast Guard inspector if required under paragraph (a) of this section) access to any place where materials are stored for the rescue boat, work or testing is performed on rescue boats or their component parts and materials, or records are retained to meet the requirements of paragraph (c) of this section, for the purpose of-
(i) Assuring that the quality control program of the manufacturer is satisfactory;
(ii) Witnessing tests; or
(iii) Taking samples of parts or materials for additional inspections or tests; and
(6) Ensure that the independent laboratory conducts the inspections and witnesses the tests required by paragraph (e) of this section, and further conducts a visual inspection to verify that the rescue boats are being made in accordance with the plans approved under § 160.156-13(h) of this subpart and the requirements of this subpart.
(c)Recordkeeping. The manufacturer must maintain records in accordance with 46 CFR 159.007-13 . The manufacturer must keep records of all items listed in this section for at least 5 years from the date of termination of approval of each rescue boat. The records must include-
(1) A copy of this subpart, other CFR sections referenced in this subpart, and each applicable document listed in § 160.156-5 of this subpart;
(2) A copy of approved plans, documentation, and certifications;
(3) A current certificate of approval for each approved rescue boat;
(4) Affidavits, certificates, or invoices from the suppliers identifying all essential materials used in the production of approved rescue boats, together with records identifying the serial numbers of the rescue boats in which such materials were used;
(5) Start and finish date and time of the lay-up of each major Fiber Reinforced Plastic (FRP) component such as the hull, canopy, and inner liner and the names of the operator(s);
(6) Start and finish date and time of pouring of foam-in-place rigid buoyancy foam, and name of operator(s);
(7) Records of all structural welding and name of operator(s);
(8) Records of welder certificates, training and qualifications;
(9) Date and results of calibration of test equipment and the name and address of the company or agency that performed the calibration;
(10) The serial number of each production rescue boat, along with records of its inspections and test carried out under this section; and
(11) The original purchaser of each rescue boat and the vessel on which it was installed, if known.
(d)Independent laboratory responsibility. The independent laboratory must perform or witness, as appropriate, the inspections and tests under paragraph (e) in this section for each Coast Guard-approved rescue boat to be installed on a U.S.-flagged vessel. If the manufacturer also produces rescue boats for approval by other maritime safety administrations, the inspections may be coordinated with inspection visits for those administrations.
(e)Production inspections and tests. Each approved rescue boat must be inspected and tested in accordance with each of the following procedures:
(1)In-process inspections and tests. Each production rescue boat must be examined during lay-up of the hull to verify that the lay-up conforms to the approved drawings. Each FRP major component, such as the hull, canopy, and inner liner, must be examined and weighed after it is completed but before assembled. If the rescue boat is constructed by the spray lay-up technique, the hull and canopy thicknesses must be measured using ultrasonic or equivalent techniques. Laboratory tests of laminates must be conducted at this time. Test samples must be cut out from the rescue boat itself or be laid up at the same time, using the same procedures, and by the same operators as the laminate used in the rescue boat. The number of samples used for each test, and the conditions and test methods used, must be as described in the applicable test specified in this paragraph.
(i)Weight. The weight of each FRP section, such as hull, canopy, and inner liner, must be within 10 percent of similar sections of the prototype rescue boat. These weights must be the bare laminate weights. Backing plates that are molded into the laminate may be included.
(ii)Thickness. The average thickness of each section of sprayed-up laminate must be within 20 percent of the corresponding sections of the prototype.
(iii)Resin content. Laminate samples from the hull, canopy, and inner liners must be tested in accordance with ASTM D 2584 or ISO 1172 (incorporated by reference, see § 160.156-5 of this subpart). The resin content must be within 8 percentage points of the prototype results. If the resin content does not comply, flexural ultimate strength and tensile tests in paragraph (e)(1)(iv) of this section must be conducted.
(iv)Flexural ultimate strength and tensile tests. Each laminate sample from each major component, such as hull and liner, that does not comply with the resin content requirement in paragraph (e)(1)(iii) of this section, and from each component of every fifth production rescue boat, must be subjected to the flexural ultimate strength and tensile strength tests as described in § 160.156-11(c)(2)(i)(B) of this subpart. The values must be at least 90 percent of the prototype results.
(v)Buoyancy material. If block foam buoyancy material is used, each piece must be weighed after it is cut and shaped to make sure that the correct amount of foam is installed. If foamed-in-place buoyancy material is used, a separate sample of the foam must be poured, and used to make a density determination after it has set. The density must be 32 ±8 kg/m3 (2 ±0.5 lb/ft3).
(vi)Steel sheet and plate. Steel sheet and plate for the hull, floors, and other structural components must meet ASTM A 36 and ASTM A 653 as applicable (incorporated by reference, see § 160.156-5 of this subpart). Non-corrosive resistant steel must meet the coating mass and bend tests requirement specified under ASTM A 653. Compliance for this paragraph can be ascertained through supplier's certification papers or through conducting actual tests.
(vii)Fabric. The coated fabric for inflatable collars, when used, for the construction of each rescue boat must meet ISO 15372 (incorporated by reference, see § 160.156-5 of this subpart). This compliance can be ascertained through a supplier's certification papers or through witnessing actual tests.
(viii)Fuel tank. Each fuel tank must be tested by a static head above the tank top of 3 m (10 ft) of water without showing any leaks or signs of permanent distortion.
(ix)Welding. It must be determined that structural components joined by welding was performed by welders who are appropriately qualified and that the welding procedure and materials are as per the plans approved under § 160.156-13(h) of this subpart.
(2)Post assembly tests and inspections. The finished rescue boat must be visually inspected inside and out. The manufacturer must develop and maintain a visual inspection checklist designed to ensure that all applicable requirements have been met and the rescue boat is equipped in accordance with approved plans. Each production rescue boat of each design must pass each of the tests described in the IMO Revised recommendation on testing, part 2, section 5.3 (incorporated by reference, see § 160.156-5 of this subpart).

46 C.F.R. §160.156-15

USCG-2010-0048, 76 FR 62999 , Oct. 11, 2011, as amended by 79 FR 44140 , July 30, 2014