NAVSEA T9074 AD GIB 010/1688 : 0
Current
The latest, up-to-date edition.
REQUIREMENTS FOR FABRICATION, WELDING AND INSPECTION OF SUBMARINE STRUCTURE
Hardcopy
English
01-01-1997
1 SCOPE
2 APPLICABLE DOCUMENTS
3 DEFINITIONS
4 QUALIFICATION REQUIREMENTS
5 QUALITY CONTROL AND RECORD REQUIREMENTS
6 INSPECTION REQUIREMENTS
7 INSPECTION ACCEPTANCE STANDARDS
8 INSPECTION OF MATERIALS
9 FORMED MATERIALS AND WELDS
10 WELDING MATERIALS
11 WELDING DESIGN
12 ERECTION REQUIREMENTS
13 WELDING REQUIREMENTS
14 WORKMANSHIP REQUIREMENTS
15 CASTINGS
16 REQUIREMENTS FOR MIL-120 AND MIL-140 SERIES FILLER
MATERIALS
Figure 1 - Typical contour for fillet groove tee welds and
fillet welds
Figure 2 - Functional diagram of submarine structure
Figure 3 - Examples of members for attachment welds
Figure 4 - Hard tank welds
Figure 5 - Clad areas for O-ring or gasket seating surfaces
Figure 6 - Quality control hull circularity measurement
record
Figure 7 - Complementary circularity measurements
Figure 8 - Partial circularity measurements
Figure 9 - Pressure hull fairness data sheet
Figure 10 - Record of frame dimensions
Figure 11 - Application examples of table 6-4, category
I.A.1.
Figure 12 - Examples of end intersection welds of, or
transverse welds in, beam-type or built-up
members
Figure 13 - MT inspection requirements for repair of full
penetration welds in the pressure hull envelope
where the total repair depth is greater than
1/3 T but less than or equal to 2/3 T
Figure 14 - MT inspection requirements for repair of full
penetration welds in the pressure hill envelope
where the total repair depth is greater than
2/3 T
Figure 15 - RT/UT requirement for flanged to unflanged frame
transitions
Figure 16 - Device for bend testing welded studs
Figure 17 - Nomograph of outside surface elongation after
bending or rolling
Figure 18 - Typical gages
Figure 19 - End-melt and corner-melt
Figure 20 - Contoured weld requirements
Figure 21 - Single fillet tee joint
Figure 22 - Penetration through special sandwich bulkhead
with solid filler
Figure 23 - Location of penetration attachment welds in
relation to butts and seams
Figure 24 - Inserts, patches, and small access plates in
pressure hull envelope
Figure 25 - Inserts, patches and small access plates in
plating and structure other than the pressure
hull envelope
Figure 26 - Inserts, patches, or small access plates in
pressure hull envelope which land on or cross
existing butt welds
Figure 27 - Drain, vent or permanent snipe opening
Figure 28 - Pressure hull frame tolerances
Figure 29 - Tolerance for unfairness of welded plate panels
Figure 30 - Weld repair of holes
Figure 31 - Temporary snipe in corner or connecting
structural member which intersects two or more
other members
Figure 32 - Temporary snipe in structural member connection
crossing a butt weld
Figure 33 - Patch plate detail for closing temporary snipes
in corner of connecting structural member which
intersects two or more other members
Figure 34 - Patch plate detail for closing temporary snipes
in structural member connection crossing a butt
weld
Figure 35 - Backgouged weld root and weld repair excavation
contours
Figure 36 - Suggested mechanical peening tools
Figure 37 - Typical weld repair configurations for castings
Figure 38 - Weld location examples
Table 6-1 - MT inspection requirements for HY and HSLA
materials
Table 6-2 - MT inspection requirements for higher strength
steel (HSS)
Table 6-3 - MT inspection requirements applicable to HY and
HSLA base material, mill defects and forming
Table 6-4 - RT or UT inspection requirements
Table 6-5 - Stud minor diameters
Table 7-1 - Undercut, end-melt and corner-melt
Table 8-1 - Electrode sampling plan
Table 9-1 - Cold-forming temperature requirements
Table 9-2 - Hot-forming temperature requirements
Table 10-1 - Filler materials for ferritic steels
Table 10-2 - Filler materials for welding ferrous materials
to non-ferrous metals and austenitic stainless
steels and for welding nickel base and copper-
nickel alloys
Table 10-3 - Filler materials for austenitic stainless-steel
alloys
Table 10-4 - Filler materials for wrought aluminium alloys
Table 11-1 - Weld joint design requirements
Table 11-2 - Maximum joint efficiencies for HY-100 or
HSLA-100 to HY-100 or HSLA-100 weld joints
Table 12-1 - Pressure hull frame tolerances
Table 12-2 - Tolerances for frame spacing
Table 12-3 - Alignment tolerance
Table 13-1 - Preheat and interpass temperature limits
Table 13-2 - HY and HSLA (welded with other than MIL-120 or
MIL-140 series filler material) heat input
limitations
Table 13-3 - Alternate heat input limitations
Table 13-4 - Stress relief procedure
Table 13-5 - Stress relieving parameters
Table 15-1 - NDT requirements for castings
Table 15-2 - RT acceptance criteria for ferrous castings
of carbon steel, corrosion-resistant steel,
cobalt-chromium-tungsten, and alloy steels
(including HY-80/100/130)
Table 15-3 - RT acceptance criteria for copper based
castings of nickel bronze, copper-nickel,
aluminium bronze, nickel-aluminium-bronze,
manganese bronze, and nickel-copper
Table 15-4 - RT acceptance criteria for tin-bronze castings
Table 15-5 - RT acceptance criteria for aluminium castings
Table 16-1 - Heat input guidelines when using MIL-120 series
filler material
Table 16-2 - Production weld process control verification
test matrix
Gives the minimum requirements for fabrication and inspection of submarine and non-combatant submersible structure, inclusive of shipbuilding practices, specifications for materials, weld joint design, workmanship, welding, inspection and record requirements.
DevelopmentNote |
Supersedes MIL-STD-1688 (A)
|
DocumentType |
Standard
|
Pages |
240
|
PublisherName |
Naval Sea Systems Command
|
Status |
Current
|
Supersedes |
MIL-STD-2003-3 Revision A:2009 | ELECTRIC PLANT INSTALLATION STANDARD METHODS FOR SURFACE SHIPS AND SUBMARINES (PENETRATIONS) |
MIL-STD-2148 Revision A:2016 | Vibration Damping Materials, Procedures for Installation, Maintenance, and Repairs |
MIL-STD-769 Revision K:2015 | Insulation Requirements for U.S. Naval Vessels |
ASTM F 1565 : 2000 : R2019 | Standard Specification for Pressure-Reducing Valves for Steam Service |
NAVSEA T9074 BD GIB 010/0300 : 0 | BASE MATERIALS FOR CRITICAL APPLICATIONS: REQUIREMENTS FOR LOW ALLOY STEEL PLATE, FORGINGS, CASTINGS, SHAPES, BARS, AND HEADS OF HY-80/100/130 AND HSLA-80/100 |
ASTM F 1565 : 2000 : R2013 | Standard Specification for Pressure-Reducing Valves for Steam Service |
ASTM F 1565 : 2000 | Standard Specification for Pressure-Reducing Valves for Steam Service |
MIL-DTL-22606 Revision D:2011 | FLASK AND END PLUGS, COMPRESSED GAS - AIR, OXYGEN, AND NITROGEN |
ASTM F 1565 : 2000 : R2006 | Standard Specification for Pressure-Reducing Valves for Steam Service |
MIL-E-24403-2 Revision C:1989 | ELECTRODES - WELDING, FLUX CORED, LOW ALLOY STEEL |
MIL-E-22200-4 Revision D:1991 | ELECTRODES, WELDING, COVERED, COPPER-NICKEL ALLOY |
MIL-E-22200-2 Revision D:1986 | ELECTRODE, WELDING COVERED (AUSTENITIC CHROMIUM NICKEL STEEL, FOR CORROSIVE AND HIGH TEMPERATURE SERVICES) |
MIL-E-22200 Revision G:1989 | ELECTRODES, WELDING, COVERED: GENERAL SPECIFICATION FOR |
MIL-E-23765-1 Revision E:1985 | ELECTRODES AND RODS - WELDING, BARE, SOLID AND ALLOYED CORED, ORDINARY STRENGTH AND LOW ALLOY STEEL |
MIL-S-23008 Revision D:1988 | STEEL CASTINGS, ALLOY, HIGH YIELD STRENGTH ((HY-80 AND HY-100) |
MIL-E-24355 Revision B:1982 | ELECTRODES, WELDING, BARE, SOLID NICKEL MANGANESE CHROMIUM MOLYBDENUM ALLOY STEEL FOR PRODUCING HY 13O WELDMENTS FOR AS WELDED APPLICATIONS |
MIL-STD-2035 Revision A:1995 | NONDESTRUCTIVE TESTING ACCEPTANCE CRITERIA |
MIL-S-24512 Base Document:1975 | STEEL FORGINGS, ALLOY, STRUCTURAL, HIGH YIELD STRENGTH (HY-13O) |
MIL-E-22200-5 Revision C:1984 | ELECTRODES, WELDING, MINERAL COVERED, IRON-POWDER, LOW-HYDROGEN, LOW-ALLOY STEEL FOR HARDENING AND TEMPERING HEAT TREATMENT APPLICATIONS ONLY |
MIL-E-22200-9 Revision B:1982 | ELECTRODES, WELDING, MINERAL COVERED, LOW HYDROGEN OR IRON POWDER, LOW HYDROGEN, NICKEL MANGANESE CHROMIUM MOLYBDENUM ALLOY STEEL FOR PRODUCING HY 130 WELDMENTS FOR AS WELDED APPLICATIONS |
MIL-E-24403 Revision A:1981 | ELECTRODES - WELDING, FLUX CORED, GENERAL SPECIFICATION FOR |
MIL E 24403/1 : D | MILITARY SPECIFICATION - ELECTRODES - WELDING, FLUX CORED, ORDINARY STRENGTH AND LOW ALLOY STEEL |
MIL-S-24645 Revision A:1990 | STEEL PLATE, SHEET, OR COIL, AGE HARDENING ALLOY, STRUCTURAL, HIGH YIELD STRENGTH (HSLA 8O) |
MIL-E-23765 Revision B:1985 | ELECTRODES AND RODS - WELDING, BARE, SOLID AND ALLOYED CORED, GENERAL SPECIFICATION FOR |
MIL-E-21562 Revision E:1989 | ELECTRODES AND RODS - WELDING, BARE, NICKEL ALLOY |
MIL-E-22200-3 Revision F:1986 | ELECTRODES, WELDING, COVERED, NICKEL BASE ALLOY AND COBALT BASE ALLOY |
MIL-E-23765-2 Revision E:1994 | ELECTRODES AND RODS - WELDING, BARE, SOLID OR ALLOYED CORED, LOW ALLOY STEEL |
MIL E 22200/1 : G | ELECTRODES, WELDING, MINERAL COVERED, IRON-POWDER, LOW-HYDROGEN MEDIUM AND HIGH TENSILE STEEL, AS WELDED OR STRESS-RELIEVED WELD APPLICATION |
MIL-STD-1628 Base Document:1974 | FILLET WELD SIZE, STRENGTH, AND EFFICIENCY DETERMINATION |
MIL-STD-22 Revision D:1979 | WELDED JOINT DESIGN |
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