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ASTM F468/F468M Bolting Specification

Commercial wrought nonferrous bolts, hex cap screws, and studs and socket head cap screws in common use and intended for general service applications

ASTM F468/F468M Hex Bolts, Heavy Hex Bolts, Studs, Socket Head Cap Screws, Threaded Rods

ASTM F468 / F468M covers the requirements for commercial wrought nonferrous bolts, hex cap screws, and studs 1/4 Inch to 1 1/2 inch in imperial sizes and M1 to M36 in metric sizes and socket head cap screws (including socket head cap, button head and flat countersunk head configurations) with nominal thread #0 through 1 1/2 inch in imperial sizes and M1 to M36 in metric sizes inclusive in diameter manufactured from a number of alloys in common use and intended for general service applications. Commercial wrought nonferrous bolts, hex cap screws, and studs and socket head cap screws in common use and intended for general service applications. Applicable nuts for use with bolts, cap screws, and studs covered by this specification are covered by Specification ASTM F467 / F467M. The starting condition of the raw material shall be at the discretion of the fastener manufacturer except as provided in Supplementary Requirement S5, but shall be such that the finished products conform to all of the specified requirements. Unless otherwise specified, the fasteners shall be cold formed, hot formed, or machined from suitable material, at the option of the manufacturer.

Related Specifications of ASTM F468/F468M Bolting

F467 B564 F2882 F3042

ASTM F468/F468M Chemical Requirements

ASTM F468/F468M Copper and Copper-Base Alloys

UNS Designation Number  Alloy General Name Al Cu, min Fe,max Mn,max Ni,max P Si Zn, max A Pb,max Tin  As,max
ASTM F468 Grade C11000 110 ETP copper . . . 99.9 . . . . . . . . . . . . . . . . . . . . . . . . . . .
ASTM F468 Grade C26000 260 brass . . . 68.5-71.5 0.05 . . . . . . . . . . . . balance 0.07 . . . . . .
ASTM F468 Grade C27000 270 brass . . . 63.0-68.5 0.07 . . . . . . . . . . . . balance 0.10 . . . . . .
ASTM F468 Grade C46200 462 naval brass . . . 62.0-65.0 0.10 . . . . . . . . . . . . balance 0.20 0.5-1.0 . . .
ASTM F468 Grade C46400 464 naval brass . . . 59.0-62.0 0.10 . . . . . . . . . . . . balance 0.20 0.5-1.0 . . .
ASTM F468 Grade C51000 510 phosphor bronze . . . balanceA 0.10 . . . . . . 0.03-0.35 . . . 0.30 0.05 4.2-5.8 . . .
ASTM F468 Grade C61300 613 aluminum bronze 6.0-7.5 B 2.0-3.0 0.10 0.15C 0.015 0.10 0.05 0.01 0.20-0.50 . . .
ASTM F468 Grade C61400 614 aluminum bronze 6.0-8.0 88.0D 1.5-3.5 1.0 . . . . . . . . . . . . . . . . . . . . .
ASTM F468 Grade C63000 630 aluminum bronze 9.0-11.0 78.0D 2.0-4.0 1.5 4.0-5.5 . . . 0.25 max . . . . . . 0.20 max . . .
ASTM F468 Grade C64200 642 aluminum silicon bronze 6.3-7.6 88.65D 0.30 0.10 0.25 . . . 1.5-2.2E 0.50 0.05 0.20 max 0.15
ASTM F468 Grade C65100 651 silicon bronze . . . 96.0D 0.8 0.7 . . . . . . 0.8-2.0 1.5 0.05 . . . . . .
ASTM F468 Grade C65500 655 silicon bronze . . . 94.8D 0.8 1.5 0.6 . . . 2.8-3.8 1.5 0.05 . . . . . .
ASTM F468 Grade C66100 661 silicon bronze 0.25 max 94.0D 0.25 1.5 . . . . . . 2.8-3.5 1.5 0.20-0.8 . . . . . .
ASTM F468 Grade C67500 675 manganese bronze . . . 57.0-60.0 0.8-2.0 0.05-0.5 . . . . . . . . . balance 0.20 0.5-1.5 . . .
ASTM F468 Grade C71000 710 cupro-nickel . . . 74.0D 0.60 1.00 19.0-23.0C . . . . . . 1.00 0.05 . . . . . .
ASTM F468 Grade C71500 715 cupro-nickel . . . 65.0D 0.40-0.7 1.00 29.0-33.0C . . . . . . 1.00 0.05 . . . . . .
  • (A) Elements shown as balance shall be arithmetically computed by deducting the sum of the other named elements from 100.
  • (B) Copper plus specified elements = 99.8 min; copper plus silver = 88.5-91.5.
  • (C) Cobalt is to be counted as nickel.
  • (D) Minimum content of copper plus all other elements with specified limits shall be 99.5 %.
  • (E) An alloy containing as high as 2.6 % silicon is acceptable provided the sum of all the elements other than copper, silicon, and iron does not exceed 0.30 %.

ASTM F468/F468M Nickel and Nickel-Base Alloys

UNS Designation Number Alloy General Name Al C, max Cr CuA Fe, max Mn, max NiA P, max Si, max Ti Co, max Mo S, max V W Cb
ASTM F468 Grade N10001 335 Ni-Mo . . . 0.05 1.0 max . . . 4.0- 6.0 1.0 balance 0.025 1.00 . . . 2.50 26.0- 30.0 0.030 0.2- 0.4 . . . . . .
ASTM F468 Grade N10276 276 Ni-Mo-Cr . . . 0.02 14.5- 16.5 . . . 4.0- 7.0 1.00 balance 0.040 0.08 . . . 2.50 15.0- 17.0 0.030 0.35 max 3.0- 4.5 . . .
ASTM F468 Grade N04400 400 Ni-Cu Class A . . . 0.3 . . . balance 2.5 2.0 63.0- 70.0 . . . 0.5 . . . B . . . 0.024 . . . . . . . . .
ASTM F468 Grade N04405 405 Ni-Cu Class B . . . 0.3 . . . balance 2.5 2.0 63.0- 70.0 . . . 0.5 . . . B . . . 0.025- 0.060 . . . . . . . . .
ASTM F468 Grade N05500 500 Ni-Cu-Al 2.30- 3.15 0.25 . . . balance 2.0 1.5 63.0- 70.0 ... 0.5 0.35- 0.85 B . . . 0.01 . . . . . . . . .
ASTM F468 Grade N06059 59 Ni-Cr-Mo 0.1- 0.4 0.010 max 22.0- 24.0 0.5 max 1.5 max 0.5 max balance 0.015 max 0.10 max . .  0.3 max 15.0- 16.5 0.010 max . . . . . . . . .
ASTM F468 Grade N06625 625C Ni-Cr-Mo-Cb 0.40 max 0.10 20.0- 23.0 . . . 5.0 max 0.50 58.0 min 0.015 0.50 max 0.40 max 1.00 max 8.0- 10.0 0.015 . . . . . . 3.2- 4.2
ASTM F468 Grade N06686 686 Ni-Cr-Mo-W . . . 0.010 max 19.0- 23.0 . . . 5.0 max 0.75 max balance 0.04 max 0.08 max 0.02- 0.25 15.0- 17.0 0.02 max . . . 3.0- 4.4 . . .
  • (A) Elements shown as balance shall be arithmetically computed by deducting the sum of the other named elements from 100.
  • (B) Cobalt is to be counted as nickel.
  • (C) Alloy 625 material shall be refined using the electroslag remelting process (ESR), or the vacuum arc remelting process (VAR).

ASTM F468/F468M Aluminum-Base AlloysA

UNS Designation Number Alloy General Name AlB Cr Cu Fe, max Mn, max Si, max Ti, max Zn, max Mg Other Elements, max
Each Total
ASTM F468 Grade A92024 2024 Aluminum 2024 balance 0.10 max 3.8-4.9 0.50 0.30-0.9 0.50 0.15C 0.25 1.2-1.8 0.05 0.15
ASTM F468 Grade A96061 6061 Aluminum 6061 balance 0.04-0.35 0.15-0.40 0.7 0.15 0.40-0.8 0.15 0.25 0.8-1.2 0.05 0.15
ASTM F468 Grade A97075 7075 Aluminum 7075 balance 0.18-0.35 1.2-2.0 0.50 0.30 0.40 0.20D 5.1-6.1 2.1-2.9 0.05 0.15
  • (A) Analysis shall regularly be made only for the elements specified in this table. If, however, the presence of other elements
  • is suspected or indicated in amounts greater than the specified limits, further analysis shall be made to determine that these elements are not present in excess of the specified limits.
  • (B) Elements shown as balance shall be arithmetically computed by deducting the sum of the other named elements from 100.
  • (C) Titanium + zirconium 0.20 %, max.
  • (D) Titanium + zirconium 0.25 %, max.

ASTM F468/F468M Titanium and Titanium-Base AlloysA

UNS
Designation
 Number		 Alloy General 
Name		 Al C Fe Ti H N O Pd V Cr Mo Zr Sn Si Ru ResidualsB
Each, max Total, max
ASTM F468 Grade R50250 1 Titanium Gr 1 . . . 0.10 0.20 balance 0.0125 0.05 0.18 . . . . . . . . . . . . . . . . . . . . . . . . 0.1 0.4
ASTM F468 Grade R50400 2 Titanium Gr 2 . . . 0.10 0.30 balance 0.0125 0.05 0.25 . . . . . . . . . . . . . . . . . . . . . . . . 0.1 0.4
ASTM F468 Grade R50700 4 Titanium Gr 4 . . . 0.10 0.50 balance 0.0125 0.07 0.40 . . . . . . . . . . . . . . . . . . . . . . . . 0.1 0.4
ASTM F468 Grade R56400 5C Titanium Gr 5C 5.5-
6.75		 0.10 0.40 balance 0.0125 0.05 0.20 . . . 3.5-
4.5		 . . . . . . . . . . . . . . . . . . 0.1 0.4
ASTM F468 Grade R56401 23 Titanium Ti-6Al-4V ELI 5.5-
6.5		 0.08 0.25 balance 0.0125 0.05 0.13 . . . 3.5-
4.5		 . . . . . . . . . . . . . . . . . . 0.1 0.4
ASTM F468 Grade R52400 7 Titanium Gr 7 . . . 0.10 0.30 balance 0.0125 0.05 0.25 0.12-
0.25		 . . . . . . . . . . . . . . . . . . . . . 0.1 0.4
ASTM F468 Grade R58640 19 Titanium Ti-38-6-44 3.0-
4.0		 0.05 0.30 balance 0.0200 0.03 0.12 0.10D 7.5-
8.5		 5.5-
6.5		 3.5-
4.5		 3.5-
4.5		 . . . . . . 0.10D 0.15 0.4
ASTM F468 Grade R55111 32 Titanium Ti-5-1-1-1 4.5-
5.5		 0.08 0.25 balance 0.0125 0.03 0.11 . . . 0.6-
1.4		 . . . 0.6-
1.2		 0.6-
1.4		 0.6-
1.4		 0.06-
0.14		 . . . 0.1 0.4
  • (A) All reported values are maximums, unless a range is specified.
  • (B) A residual is an element present in a metal or an alloy in small quantities inherent to the manufacturing process but not added intentionally. Residual elements need not be reported unless a report is specifically required by the purchaser.
  • (C) Identical chemical requirements apply to both Class A and B as defined in Table 2 and 6.5.
  • (D) Ruthenium and palladium, or both, may be added to Grade 19 for enhanced corrosion resistance as negotiated between purchaser and vendor. Chemical analysis is not required unless specifically required by the purchaser.

ASTM F468/F468M Mechanical Requirements

Alloy Mechanical Property Marking Nominal Thread Diameter, in. HardnessA Full-Size TestsB Machined Specimen Tests
Tensile Strength, ksi Yield Strength, min, ksiC Tensile Strength, min, ksi Yield Strength min, ksiC Elongation in 4D, min, %D
ASTM F468 Alloy Cu 110 F468A All 65-90 HRB 30-50 10 30 10 15
ASTM F468 Alloy Cu 260 F468AB All 55-80 HRB 60-90 50 55 50 35
ASTM F468 Alloy Cu 270 F468B All 55-80 HRB 60-90 50 55 50 35
ASTM F468 Alloy Cu 462 F468C All 65-90 HRB 50-80 25 50 25 20
ASTM F468 Alloy Cu 464 F 468D All 55-75 HRB 50-80 15 50 15 25
ASTM F468 Alloy Cu 510 F468E All 60-95 HRB 60-90 35 55 30 15
ASTM F468 Alloy Cu 613 F 468F 0.250-0.500  70-95 HRB 80-110 50 80 50 30
0.625-1.500 70-95 HRB 75-105 45 75 45 30
ASTM F468 Alloy Cu 630  F468H All 85-100 HRB 100-130 50  100 50
ASTM F468 Alloy Cu 642 468J All 75-95 HRB 75-110 35 75 35 10
ASTM F468 Alloy Cu 630  F468H All 85-100 HRB 100-130 50  100 50
ASTM F468 Alloy Cu 642 468J All 75-95 HRB 75-110 35 75 35 10
ASTM F468 Alloy Cu 651 F 468K 0.250 to 0.750 75-95 HRB 70-100 55 70 53 8
0.875-1.500 70-95 HRB 55-90 40 54 38 8
ASTM F468 Alloy Cu 655 F468L All 60-80 HRB 50-80 20 50 15 20
ASTM F468 Alloy Cu 661 F468M All 75-95 HRB 70-100 35 70 35 15
ASTM F468 Alloy Cu 675 F468N All 60-90 HRB 55-85 25 55 25 20
ASTM F468 Alloy Cu 710 F468P All 50-85 HRB 45-75 15 45 15 40
ASTM F468 Alloy Cu 715 F468R All 60-95 HRB 55-85 20 55 20 45
ASTM F468 Alloy Ni 59 Grade 1 F468FN All 21-45 HRC 120-165 85 120 85 20
ASTM F468 Alloy Ni 59 Grade 2 F468GN All 23-47 HRC 135-185 125 135 125 20
ASTM F468 Alloy Ni 59 Grade 3 F468HN All 25-49 HRC 160-200 150 160 150 20
ASTM F468 Alloy Ni 59 Grade 4 F468JN All 80 HRB-25 HRC 100-145 45 100 45 25
ASTM F468 Alloy 276 F468T All 20-32 HRC 110-140 45 110 45 25
ASTM F468 Alloy Ni 400 F 468U 0.250 to 0.750  75 HRB-25 HRC 80-130  40 80 40 20
0.875 to 1.500 60 HRB-25 HRC 70-130 30 70 30 20
ASTM F468 Alloy Ni 400 F468U4 0.875 to 1.500 75 HRB-25 HRC 80-130 40 80 40 20
ASTM F468 Alloy Ni 400 HFE F468HF All 60-95 HRB 70-120 30  70  30 20
ASTM F468 Alloy Ni 405 F468V All 60 HRB-20 HRC 70-125 30 70 30 20
ASTM F468 Alloy Ni 500 F 468W 0.250 to 0.875  24-37 HRC  130-180  90 130 90 20
1.000 to 1.500 24-37 HRC 130-180 85 130 58 20
ASTM F468 Alloy Ni 625 F468AC All 85 HRB-35 HRC 120 60 120 60 30
ASTM F468 Alloy Ni 686 Grade 1 F468BN All 21-45 HRC 120-165 85 120 85 20
ASTM F468 Alloy Ni 686 Grade 2 F468CN All 23-47 HRC 135-185 125 135 125 20
ASTM F468 Alloy Ni 686 Grade 3 F468DN All 25-49 HRC 160-200 150 160 150 20
ASTM F468 Alloy Ni 686 Grade 4 F468EN All 65 HRB-25 HRC 100-145 45 100 45 25
ASTM F468 Alloy Al 2024-T4F  F468X All 70-85 HRB 55-70 36 62 40 10 
Al 6061-T6F  F468Y All 40-50 HRB 37-52  31  42 35  10  
ASTM F468 Alloy Al 7075-T73F F468Z All 80-90 HRB 61-76 50 68 56 10
ASTM F468 Alloy Ti 1 F468AT All 140-160 HV 35-70 30 35 25 24
ASTM F468 Alloy Ti 2 F468BT All 160-180 HV 50-85 45 50 40 20
ASTM F468 Alloy Ti 4 F468CT All 200-220 HV 80-115 75 80 70 15
ASTM F468 Alloy Ti 5 Class AH F468DT All 30-39 HRC 130-165 125 130 120 10
ASTM F468 Alloy Ti 5 Class BH F468HT All 30-39 HRC 130-165 125 130 120 10
ASTM F468 Alloy Ti 7 F468ET All 160-180 HV 50-85 45 50 40 20
ASTM F468 Alloy Ti 19 F468FT All 24-38 HRC 115-150 115 120 115 15
ASTM F468 Alloy Ti 23 F468GT All 25-36 HRC 120-165 110 120 110 10
ASTM F468 Alloy Ti-5-1-1-1 F468HT All 24-38 HRC 105-150 90 100 85 10
  • (A) Where both tension and hardness tests are performed, the tension tests shall take precedence for acceptance purposes. For aluminum and titanium alloys, hardness tests are for information only. See 6.5.
  • (B) The yield and tensile strength values for full-size products shall be computed by dividing the yield and maximum tensile load by the stress area for the product diameter and thread pitch as given in table on tensile stress areas.
  • (C) Yield strength is the stress at which an offset of 0.2 % gage length occurs.
  • (D) Elongation is determined using a gage length of 4 diameters of test specimen in accordance with Test Methods E8/E8M.
  • (E) "HF" denotes a hot-formed product.
  • (F) Aluminum alloy temper designations are in accordance with ANSI H35.1.
  • (G) Full-size test mechanical properties apply to fasteners with a maximum diameter of 76 mm. Mechanical properties of larger sections shall be negotiated between the material manufacturer and the fastener producer.
  • (H) Ti 5 Class A requires wedge tensile testing in accordance with Ti 5 Class B requires wedge tensile testing in accordance.

ASTM F468/F468M Tensile Stress Areas and Threads(Inch)

Nominal Size, in. Coarse Threads-UNC Fine Threads-UNF 8 Thread Series-8UN
Threads/ in. Stress AreaA, in.2 Threads/ in. Stress AreaA, in.2 Threads/ in. Stress AreaA, in.2
1/4 20 0.0318 28 0.0364 . . . . . .
5/16 18 0.0524 24 0.0580 . . . . . .
3/18 16 0.0775 24 0.0878 . . . . . .
7/16 14 0.1063 20 0.1187 . . . . . .
1/2 13 0.1419 20 0.1599 . . . . . .
9/16 12 0.1820 18 0.2030 . . . . . .
5/8 11 0.2260 18 0.2560 . . . . . .
3/4 10 0.3340 16 0.3730 . . . . . .
7/8 9 0.4620 14 0.5090 . . . . . .
1 8 0.6060 12 0.6630 . . . . . .
11/8 7 0.7630 12 0.8560 8 0.790
11/4 7 0.9690 12 1.0730 8 1.000
13/8 6 1.1550 12 1.3150 8 1.233
11/2 6 1.4050 12 1.5810 8 1.492
  • (A) Tensile stress areas are computed using the following formula: 
  • As = 0.7854 [ D - 0.9743/n ]
  • where:
  • As = tensile stress area, in.2,
  • D = nominal size (basic major diameter), in., and
  • n = number of threads per inch.

ASTM F468/F468M Tensile Stress Areas (Metric)

Nominal Product Diameter and Thread Pitch Stress Area,A mm 2 Nominal Product Diameter and Thread Pitch Stress Area,A mm 2
M6 × 1 20.1 M16 × 2 157
M8 × 1.25 36.6 M20 × 2.5 245
M10 × 1.5 58.0 M24 × 3 353
M12 × 1.75 84.3 M30 × 3.5 561
M14 × 2 115 M36 × 4 817
  • (A) Tensile stress areas are computed using the following formula:
  • As = 0.7854 (D − 0.9382 P) 2 
  • where: 
  • As = stress area, mm2, 
  • D  = nominal thread diameter, mm, and 
  • P  = thread pitch, mm.

ASTM F468/F468M Bolting Surface Treatment Specifications

ASTM F468/F468M Bolting Components Marking

Product Shall be Marked with our manufacturing trade mark "TorqBolt" or "TB" along with the designated Grade.
Grade and manufacturer’s identification symbols shall be applied to one end of studs and to the heads of bolts and screws of all sizes. (If the available area is inadequate, the grade symbol may be marked on one end and the manufacturer’s identification symbol marked on the other end.) For bolts and screws smaller than 1⁄4 in. [6 mm] in diameter and studs smaller than 3⁄8 in. [10 mm] in diameter and for 1⁄4 in. [6 mm] in diameter studs requiring more than a total of three symbols, the marking shall be a matter of agreement between the purchaser and the manufacturer.

Alloy Mechanical Property Marking
ASTM F468 Alloy Cu 110 TB F468A
ASTM F468 Alloy Cu 260 TB F468AB
ASTM F468 Alloy Cu 270 TB F468B
ASTM F468 Alloy Cu 462 TB F468C
ASTM F468 Alloy Cu 464 TB F468D
ASTM F468 Alloy Cu 510 TB F468E
ASTM F468 Alloy Cu 613 TB F468F
ASTM F468 Alloy Cu 630 TB F468H
ASTM F468 Alloy Cu 642 TB F468J
ASTM F468 Alloy Cu 630 TB F468H
ASTM F468 Alloy Cu 642 TB F468J
ASTM F468 Alloy Cu 651 TB F468K
ASTM F468 Alloy Cu 655 TB F468L
ASTM F468 Alloy Cu 661 TB F468M
ASTM F468 Alloy Cu 675 TB F468N
ASTM F468 Alloy Cu 710 TB F468P
ASTM F468 Alloy Cu 715 TB F468R
ASTM F468 Alloy Ni 59 Grade 1 TB F468FN
ASTM F468 Alloy Ni 59 Grade 2 TB F468GN
ASTM F468 Alloy Ni 59 Grade 3 TB F468HN
ASTM F468 Alloy Ni 59 Grade 4 TB F468JN
ASTM F468 Alloy 276 TB F468T
Alloy Mechanical Property Marking
ASTM F468 Alloy Ni 400 TB F468U
ASTM F468 Alloy Ni 400 TB F468U4
ASTM F468 Alloy Ni 400 HF E TB F468HF
ASTM F468 Alloy Ni 405 TB F468V
ASTM F468 Alloy Ni 500 TB F468W
ASTM F468 Alloy Ni 625 TB F468AC
ASTM F468 Alloy Ni 686 Grade 1 TB F468BN
ASTM F468 Alloy Ni 686 Grade 2 TB F468CN
ASTM F468 Alloy Ni 686 Grade 3 TB F468DN
ASTM F468 Alloy Ni 686 Grade 4 TB F468EN
ASTM F468 Alloy Al 2024-T4 F TB F468X
ASTM F468 Alloy Al 6061-T6 F TB F468Y
ASTM F468 Alloy Al 7075-T73 F TB F468Z
ASTM F468 Alloy Ti 1 TB F468AT
ASTM F468 Alloy Ti 2 TB F468BT
ASTM F468 Alloy Ti 4 TB F468CT
ASTM F468 Alloy Ti 5 Class A H TB F468DT
ASTM F468 Alloy Ti 5 Class B H TB F468HT
ASTM F468 Alloy Ti 7 TB F468ET
ASTM F468 Alloy Ti 19 TB F468FT
ASTM F468 Alloy Ti 23 TB F468GT
ASTM F468 Alloy Ti-5-1-1-1 TB F468HT

ASME Dimensional Standards

B18.31.2 Imperial Continious Thread, Double End Reduced & Full Body Studs
B18.31.1M Metric Continious Thread, Double End Reduced & Full Body Studs
B18.31.3 Threaded Rods (Inch Series)
B16.5 Imperial & Metric Full Thread Stud Bolts
B16.5 Imperial & Metric Full Thread Stud Bolts
B18.2.1 Imperial Square and Hex Bolts and Screws
B18.2.3.1M Metric Hex Cap Screws
B18.2.3.3M Metric Heavy Hex Screws
B18.2.3.5M Metric Hex Bolts
B18.3 Imperial Hexagon Socket and Spline Socket Screws
B18.3.1M Metric Socket Head Cap Screws
B18.6.7M Metric Machine Screws

ASTM F468/F468M Bolting Certifications

  • EN 10204 3.1
  • EN 10204 3.2
  • PED 2014/68/EC
  • MERKBLATT AD 2000 W2/W7/W10
  • API 20 E BSL 1/ BSL 2
  • NACE MR 0175
  • NACE MR 0103

ASTM F468/F468M Testing Standards

E18 Test Methods for Rockwell Hardness of Metallic Materials
E21 Test Methods for Elevated Temperature Tension Tests of Metallic Materials
E112 Test Methods for Determining Average Grain Size
E139 Test Methods for Conducting Creep, Creep-Rupture,and Stress-Rupture Tests of Metallic Materials
E150 Recommended Practice for Conducting Creep and Creep-Rupture Tension Tests of Metallic Materials Under Conditions of Rapid Heating and Short Times
E151 Recommended Practice for Tension Tests of Metallic Materials at Elevated Temperatures with Rapid Heating and Conventional or Rapid Strain Rates
E292 Test Methods for Conducting Time-for-Rupture Notch Tension Tests of Materials
E328 Test Methods for Stress Relaxation for Materials and Structures
E566 Practice for Electromagnetic (Eddy Current) Sorting of Ferrous Metals
E709 Guide for Magnetic Particle Testing
F606/F606M Test Methods for Determining the Mechanical Properties of Externally and Internally Threaded Fasteners, Washers, Direct Tension Indicators, and Rivets
F1940 Test Method for Process Control Verification to Prevent Hydrogen Embrittlement in Plated or Coated Fasteners
A962/A962M Specification for Common Requirements for Bolting Intended for Use at Any Temperature from Cryogenic to the Creep Range
A788/A788M for Steel Forgings, General Requirements

ASME Threading Specifications

ASME B1.1 Unified Inch Screw Threads (UN and UNR Thread Form)
ASME B1.3 Screw Thread Gaging System for Dimensional Acceptability - Inch Screw Threads (IN, UNR, and UNJ)
ASME B1.13M Metric Screw Threads - M Profile
ASME B1.21M Metric Screw Threads - MJ Profile
ASME B1.2 Gauges & gauging for Unified Screw Threads(Imperial)

ASTM F468/F468M Supplementary Requirements

S1 Stress Corrosion Requirements
S2 Shipment Lot Testing
S3 Dye Penetrant Inspection
S4 Heat Control (Alloys 400, 405, and 500 Only)