Table of Contents

Stainless Steel Stud Bolts

Stainless steel stud bolts are threaded rods without a head, designed to be used with two nuts for fastening flanges, equipment, and machinery. They are made from stainless steel alloys that contain chromium (at least 10.5%) and often nickel or molybdenum, providing excellent corrosion resistance and durability. Unlike standard carbon steel bolts, stainless steel stud bolts are highly resistant to rust, scaling, and oxidation, making them ideal for industries exposed to moisture, chemicals, or high temperatures.

Standards and Performance

Manufactured according to ASTM, ASME, DIN, ISO, and other standards for dimensional accuracy and reliability. Available in coarse, fine, or metric threads, with surface finishes like passivation, PTFE coating, or zinc plating. Tensile strength ranges from 515 MPa to over 900 MPa, suitable for both low-pressure and high-pressure applications. Their versatility, corrosion resistance, and high-temperature tolerance make them essential for industrial safety and integrity.

Stanley Alloys - Stainless Steel Stud Bolts

Stanley Alloys – Technical Profile of Stainless Steel Stud Bolts

Global Supplier

Stanley Alloys manufactures and exports marine grade and industrial grade stainless steel stud bolts in a wide range of sizes and standards. Our products are engineered for reliability in harsh environments, including oil & gas, marine, petrochemical, and construction applications. Sizes are available in both metric (M6 to M160) and inch (½” to 4”) with multiple finishing and coating options.

Compliance & Reference Standards

DIN 938, DIN 939, DIN 976, DIN 2510, ISO 13918
ANSI B 18.2.4 2M, ANSI B 28.2.4 1M
ISO, ASME, ASTM, JIS, BS, UNI, CSN, PN, IFI, SAE
BS 6105 grades: A2-50, A2-70, A4-70, A4-80

Product Range

Acme Thread Studs
All Thread Metric Studs
Galvanized Studs
Left-Hand Thread Studs
Low Carbon Studs
Nylon Stud Bolts
Custom-made dimensions

Size Capabilities

Metric Stud Bolts: M2 – M160 (lengths 12 mm – 1200 mm)
Inch Stud Bolts: ½” – 4” Dia (lengths ½” – 52”)

Manufacturing Process

Cold Forming: M2 – M24
Hot Forging: M24 – M100, up to 1100 mm
CNC Machining: up to M100 / 4” Dia, 1500 mm

Threads & Tolerances

Metric, BSW, BSF
UNC, UNF, UNEF, UNJC, UNJF, UNR
ACME, NPT, NPTF
Constant Pitch Threads
Dimensional Accuracy: ±0.01 mm to ±0.05 mm

Material Grades Offered

Stainless Steel: 304, 316, 316L, 2205, 410, 416, 431, 440C, 18-8, A2 (50/70/80), A4 (50/70/80), ASTM A193 (B6, B7M, B8, B8M)
Carbon Steel: ASTM A193 B7, A320 L7
Alloy Steel: ASTM A193 B16, SCM435, C10B21, C10B33
High Tensile: 8.8, 10.9, 12.9
Non-Ferrous Options: Brass, Bronze, Aluminium, Titanium

Surface Treatments & Coatings

Black Oxide, Nickel Plated, Dacromet, Geomet, Anodized, Zinc-Nickel
Zinc Electroplating (Blue, White, Black, Yellow – Hexavalent or Trivalent)
PTFE / Teflon / Xylon Coatings
Phosphate (Zinc / Manganese), Hot Dip Galvanised (HDG), Sherardized
Passivation as per ASTM A380/A380M
Sand Blasting, Rust Preventive Oils, Polishing, Heat Disposing
ZAC (Zinc Aluminium Flake), Electroless Nickel, Cadmium

Inspection & Quality Control

Wire Drawing, Cold Heading, Heat Treatment, CNC Machining
Pre-production samples before mass production
Full dimensional and surface inspection
Final batch certification before shipment

Packing & Logistics

Marking as per specifications
Standard Carton Sizes: 36×24×16 cm / 36×24×12 cm
Euro Pallet Size: 110×80×90 cm
Packaging: Wooden Pallets, Cartons, Small Boxes
Dispatch Ports: Mumbai & Kalamboli, Maharashtra, India

Commercial Information

MOQ: 5 Pieces
Drawings Accepted: JPEG, PDF, CAD, STP, IGS
Samples: Free samples available
Delivery: 7–15 days for standard, customized on request
Payment: T/T, Western Union, PayPal, L/C (30% advance, balance before dispatch)

Key Applications

Oil & Gas Pipelines and Flanges
Offshore Marine Platforms
Nuclear & Power Plants
Wind Energy & Structural Engineering
Railways, Automotives, Heavy Machinery
Refineries & Petrochemical Installations

Stanley Alloys – Types of Stainless Steel Stud Bolts

1. Fully Threaded Stud Bolts

Description: Threads run along the entire length of the bolt.

Common Uses: Adjustable clamping or maximum engagement for flanges, pressure vessels, and pipe connections.

Standards: DIN 938, DIN 976, ISO 13918

Materials: Stainless Steel (304, 316, 316L, 2205), Carbon Steel, Alloy Steel, High Tensile Grades

Sizes: Metric M2 – M160; Inch ½” – 4”

2. Partially Threaded Stud Bolts

Description: Only part of the bolt length is threaded, leaving a smooth shank in the middle.

Advantages: Provides shear strength in the unthreaded shank, reducing stress concentrations.

Applications: Heavy machinery, structural assemblies, flanged connections under high load.

Standards: DIN 939, BS 6105, ANSI B18.2.4

Materials & Coatings: Stainless Steel grades (A2/A4), Hot Dip Galvanized, PTFE/Teflon coated

3. Double Ended Stud Bolts

Description: Threads at both ends with a plain shank in the center. Also called shoulder stud bolts.

Applications: Flanged pipe connections, heavy equipment assembly, marine applications.

Thread Types: Metric, UNC, UNF, UNEF, BSW, BSF, ACME, NPT

Material Grades: Stainless Steel 304, 316, 316L; Alloy Steel; High Tensile Steel

4. Acme Thread Stud Bolts

Description: Special trapezoidal threads for applications requiring high torque and load transmission.

Applications: Machinery, screw jacks, clamps, presses, industrial equipment.

Features: Smooth load transfer, durability, excellent resistance to wear and corrosion.

Materials: Stainless Steel 316/316L, Alloy Steel, Carbon Steel

5. Left-Hand Thread Stud Bolts

Description: Threaded in reverse (left-hand threads), used where rotation or vibration could loosen standard bolts.

Applications: Rotating machinery, pump assemblies, marine equipment.

Standards & Sizes: Metric (M6 – M160) and Inch (½” – 4”), all stainless steel grades.

6. Nylon / Non-Metallic Stud Bolts

Description: Metal combined with high-performance nylon/polymer coating for corrosion resistance and electrical insulation.

Applications: Chemical plants, electrical assemblies, marine equipment.

Sizes: Custom lengths and diameters available.

7. Low Carbon / Alloy Steel Stud Bolts

Description: Designed for high tensile and structural strength applications.

Applications: Heavy construction, bridge work, high-pressure piping, industrial machinery.

Surface Treatment: Zinc plating, Dacromet, Hot Dip Galvanized (HDG), PTFE coating for corrosion protection.

Stanley Alloys – Stainless Steel Stud Bolts Certifications & Grades

Stanley Alloys – Stainless Steel Stud Bolts Certifications, Testing & Grades

1. Test Certificates & Quality Verification

When sourcing stainless steel stud bolts, always request manufacturer test certificates (MTC) to ensure compliance and material integrity. Key certifications and verifications include:

Manufacturer Test Certificates (MTC) in compliance with EN 10204 / 3.1
Tensile Strength Testing: ISO 898-1 standards to validate mechanical performance
Preload Suitability Tests: Conducted as per EN 14399-2 & EN 14399-10
Hardness Verification: ISO 6508-1 ensures the stud bolt meets strength requirements
Charpy Impact Testing: Following ISO 148-1 for toughness evaluation
Nut Proof Load Testing: ISO 898-2 ensures nuts and bolts withstand expected operational loads
Precision Tools & Gauges: Tri-roll thread comparators and calibrated instruments guarantee thread consistency

Tip: Always check for documentation covering both material composition and mechanical properties.

2. Material Grades & Types of Stainless Steel Stud Bolts

Austenitic Stainless Steel Grades

304 / 304L / 304H – Standard corrosion-resistant bolts
316 / 316L / 317 / 317L – Marine and chemical-resistant applications
310 – High-temperature applications
347 – Enhanced corrosion and high-temperature resistance
18-8 Stainless Steel – Commonly used in general industrial applications

Martensitic / Precipitation-Hardening Grades

17-4 PH – High-strength, corrosion-resistant stud bolts
410 – Hardenable stainless steel for medium corrosion resistance

Duplex & Special Grades

Duplex 2205 – High-strength, excellent corrosion resistance, especially in chloride environments
904L – Premium austenitic stainless steel for chemical and acid environments

Alloy & Carbon Steel Stud Bolts

ASTM A193 B7 / B7M – Alloy steel, quenched and tempered
ASTM A193 B8 / B8M / B8C (321/347) – Austenitic stainless steel
ASTM A193 B6 – Martensitic stainless steel
A2 / A2-70 / A4 / A4-70 / A4-80 – Common metric grades
4.8 / 8.8 – High-strength steel studs

3. Additional Testing & Verification Methods

Thread Accuracy: Verified with tri-roll thread comparators
Preload Validation: Ensures bolt can achieve designed clamping without yielding
Nut & Bolt Interaction: Proof load testing to prevent over-tightening or thread stripping
Calibrated Measurement Tools: Ensure precise dimensions and consistent quality

4. Recommendations for Clients

Always request MTC for each batch of stud bolts, especially for critical applications like oil & gas, petrochemical, and high-pressure piping.
Verify thread and dimensional compliance alongside mechanical and impact properties.
Use high-performance stainless steel grades for corrosive or high-temperature applications to maximize service life.

Stanley Alloys – Comprehensive Stud Bolt Standards

Stud Bolt Type	Applicable Standard	Measurement System
Double End Stud Bolts with Thread Engagement = 1.25 × Dia	DIN 939	Metric
Stud Bolts for Flange Bolting with Chamfered Ends	ANSI/ASME B16.5	Inch Series
Double End Stud Bolts with Thread Engagement = 2.5 × Dia	DIN 940	Metric
Continuous Thread Stud Bolt	ANSI/ASME B18.31.2	Inch Series
Welding / Weld Studs	DIN 525	Metric
Plain End Stud Bolts / Threaded Rods	DIN 976	Metric
Double End Stud Bolts	DIN 835	Metric
Double End Studs / Stud Bolts	DIN 2509	Metric
Plain End Stud Bolts / Threaded Rods	DIN 975	Inch Series
Double End Studs with Thread Engagement = 2 × Dia	DIN 949-1	Metric
Double End Studs with Thread Engagement = 2.5 × Dia	DIN 949-2	Metric
Stud Bolts	IS 1862	Metric
Clamping Studs	IS 13178	Metric
Studs / Stud Bolts	BS 2693	Inch Series
Stud Bolts	BS 3692	Metric
Double End Stud Bolts with Thread Engagement = 1.5 × Dia	BS 4439	Metric
Double End Stud Bolts with Reduced Shank	DIN 2510 L/Z/K/ZU/KU/GP/GQ/GR/GS/HP	Metric
Hexagonal Head Stud Bolts	ISO 4014 / ISO 4017	Metric
Heavy Hex Stud Bolts	ASTM A193 / ASTM A194	Inch Series
High-Strength Alloy Stud Bolts	ASTM A320 B8 / B7	Inch Series
Tension Control Stud Bolts	ASTM A108	Inch Series
Flange Stud Bolts for High-Pressure Applications	ASME B16.47	Inch Series
Custom Precision Stud Bolts for Machinery	DIN 976 / ISO 898-1	Metric
Threaded Rods for Structural Applications	ASTM F436	Inch Series
Stud Bolts for Boiler and Pressure Vessels	IS 4501	Metric
Metric Fine Thread Stud Bolts	ISO 261 / ISO 965	Metric
Stud Bolts with Full Thread Length	DIN 975 Full Thread	Metric
Welded Studs with Dome or Flat End	DIN 1475 / DIN 18800	Metric

Global Compatibility: Includes standards from ANSI, ASME, DIN, ISO, BS, and IS.
Special Applications: Covers high-pressure flanges, structural, boiler, and precision machinery uses.
Thread Engagement: Clearly indicated where engagement length is critical.
Variants: Metric, inch, full-threaded, chamfered, welded, and reduced shank types are included.

Stanley Alloys – Stud Bolt Dimensions (ASME B16.5 Class 150)

Nominal Pipe Size (NPS)	Bolt Diameter (in)	Length RF (mm)	Length RTJ (mm)	Quantity of Bolts	Remarks / Notes
1/2	1/2	55	–	4	Smallest nominal size, RF only
3/4	1/2	65	–	4	RF flange standard
1	1/2	65	75	4	Standard small NPS flange
1½	1/2	70	85	4	Common in small pipelines
1¼	1/2	70	85	4	RF & RTJ lengths differ slightly
2	5/8	85	95	4	Standard flange
2½	5/8	90	100	4	Mid-range flange
3	5/8	90	100	4	Common water/gas pipelines
3½	5/8	90	100	8	Heavier duty flange
4	5/8	90	100	8	Reinforced flange pattern
6	3/4	100	115	8	Typical industrial size
8	3/4	110	120	8	Medium-sized flange
10	7/8	115	125	12	Heavy-duty pipe connections
12	7/8	120	135	12	Larger industrial pipelines
14	1	135	145	12	High-pressure flange
16	1	135	145	16	Large NPS
18	1 1/8	145	160	16	RTJ length slightly longer
20	1 1/8	160	170	20	Extra large, industrial use
24	1¼	170	185	20	Extra large diameter

RF vs RTJ Lengths: RTJ (Ring Type Joint) studs are slightly longer than RF (Raised Face) to accommodate the ring gasket sealing groove.
Material Considerations: Typically ASTM A193 B7 / B8 / B8M alloy steel or stainless steel grades for corrosion resistance.
Flange Load Patterns: Number of bolts varies depending on NPS and flange pressure rating. Higher pressures or larger diameters require more bolts.
Tolerance & Fit: Lengths may vary ±1–2 mm depending on manufacturer, threading, and chamfer allowances.
Application Tips: Always use torque tables (like ASME B16.5 recommended torque) for proper flange assembly.

Stanley Alloys – Stud Bolt Technical Reference

Stanley Alloys – Technical Reference for Stud Bolts & Flanges

150 LB Flanges – Stud Bolt Selection

Pipe Size	Bolt Count	Stud Ø	Stud Length
½"	4	¾"	4.25"
¾"	4	¾"	4.50"
1"	4	⅞"	5.00"
1¼"	4	⅞"	5.00"
1½"	4	1.00"	5.50"
2"	8	⅞"	5.75"
2½"	8	1.00"	6.25"
3"	8	1.13"	7.00"
4"	8	1.25"	7.75"
5"	8	1.50"	9.75"
6"	12	1.38"	10.25"
8"	12	1.63"	11.50"
10"	12	1.88"	13.25"
12"	16	2.00"	14.50"
14"	16	2.25"	16.75"
16"	16	2.50"	18.50"
18"	16	2.75"	20.75"
20"	16	3.00"	22.25"
24"	16	3.50"	25.50"

300 LB Flanges – Stud Bolt Selection

Pipe Size	Bolt Count	Stud Ø	Stud Length
½"	4	½"	2.50"
¾"	4	⅝"	3.00"
1"	4	⅝"	3.00"
1¼"	4	⅝"	3.25"
1½"	4	¾"	3.50"
2"	8	⅝"	3.50"
2½"	8	¾"	4.00"
3"	8	¾"	4.25"
3½"	8	¾"	4.25"
4"	8	¾"	4.50"
5"	8	¾"	4.75"
6"	12	¾"	4.75"
8"	12	⅞"	5.50"
10"	16	1.00"	6.25"
12"	16	1.13"	6.75"
14"	20	1.13"	7.00"
16"	20	1.25"	7.50"
18"	24	1.25"	7.75"
20"	24	1.25"	8.00"
24"	24	1.50"	9.00"

600 LB Flanges – Stud Bolt Selection

Pipe Size	Bolt Count	Stud Ø	Stud Length
½"	3	½"	3.00"
¾"	3½	⅝"	3.50"
1"	3½	⅝"	3.50"
1¼"	3¾	⅝"	3.75"
1½"	4¼	¾"	4.25"
2"	4¼	⅝"	4.25"
2½"	4¾	¾"	4.75"
3"	5	¾"	5.00"
3½"	5½	⅞"	5.50"
4"	5¾	⅞"	5.75"
5"	6½	1.00"	6.50"
6"	6¾	1.00"	6.75"
8"	7½	1.13"	7.50"
10"	8½	1.25"	8.50"

Tip: Adjust stud length for gasket type (RF vs. RTJ).
All dimensions follow ASME recommendations.
For higher pressure classes (1500 LB & 2500 LB), studs are usually custom-fabricated to meet precise ASME & RTJ requirements.
Use calibrated torque wrenches and follow ASME B16.5 guidelines.

Stanley Alloys – Stud Bolt Grade Chart

Grade	Material	Specification & Treatment
B7 Stud Bolt	Alloy Steel (AISI 4140 / 4142)	Quenched and tempered for high tensile strength and durability in high-pressure applications.
B8 Stud Bolt (Class 1)	Stainless Steel (AISI 304)	Carbide solution treated, excellent corrosion resistance in moderate environments.
B8M Stud Bolt (Class 1)	Stainless Steel (AISI 316)	Carbide solution treated, superior corrosion resistance in marine and chemical environments.
B8 Stud Bolt (Class 2)	Stainless Steel (AISI 304)	Carbide solution treated, strain hardened for improved strength while maintaining corrosion resistance.
B8M Stud Bolt (Class 2)	Stainless Steel (AISI 316)	Carbide solution treated, strain hardened for maximum performance in aggressive environments.

Stanley Alloys – Stainless Steel Stud Bolts Torque Chart

Applicable Standards: ASME B16.5 Class 150 Flanges
Gasket Types: RF (Raised Face) / Ring Gasket & FF (Full Face) Gasket
Bolt Tightening: Sequence and Torque per Round

1. Torque Chart – RF / Ring Gaskets

Flange Size	Bolt Size	Torque / Round (ft-lbs)	Tighten Sequence
1/2"	1/2"	10 → 20 → 30	4-bolt
3/4"	1/2"	13 → 27 → 40	4-bolt
1"	1/2"	15 → 30 → 50	4-bolt
1-1/4"	1/2"	20 → 40 → 60	4-bolt
1-1/2"	1/2"	20 → 40 → 60	4-bolt
2"	5/8"	40 → 80 → 120	4-bolt
2-1/2"	5/8"	40 → 80 → 120	4-bolt
3"	5/8"	40 → 80 → 120	4-bolt
3-1/2"	5/8"	40 → 80 → 120	8-bolt
4"	5/8"	40 → 80 → 120	8-bolt
5"	3/4"	60 → 120 → 200	8-bolt
6"	3/4"	60 → 120 → 200	8-bolt
8"	3/4"	60 → 120 → 200	8-bolt
10"	7/8"	95 → 190 → 320	12-bolt
12"	7/8"	95 → 190 → 320	12-bolt
14"	1"	147 → 294 → 490	12-bolt
16"	1"	147 → 294 → 490	16-bolt
18"	1-1/8"	213 → 426 → 710	16-bolt
20"	1-1/8"	213 → 426 → 710	20-bolt
24"	1-1/4"	300 → 600 → 1,000	20-bolt

2. Torque Chart – FF / Full Face Gaskets

Flange Size	Bolt Size	Torque / Round (ft-lbs)	Tighten Sequence
1/2"	1/2"	20 → 40 → 60	4-bolt
3/4"	1/2"	20 → 40 → 60	4-bolt
1"	1/2"	20 → 40 → 60	4-bolt
1-1/4"	1/2"	20 → 40 → 60	4-bolt
1-1/2"	1/2"	20 → 40 → 60	4-bolt
2"	5/8"	40 → 80 → 120	4-bolt
2-1/2"	5/8"	40 → 80 → 120	4-bolt
3"	5/8"	40 → 80 → 120	4-bolt
3-1/2"	5/8"	40 → 80 → 120	8-bolt
4"	5/8"	40 → 80 → 120	8-bolt
5"	3/4"	60 → 120 → 200	8-bolt
6"	3/4"	60 → 120 → 200	8-bolt
8"	3/4"	60 → 120 → 200	8-bolt
10"	7/8"	95 → 190 → 320	12-bolt
12"	7/8"	95 → 190 → 320	12-bolt
14"	1"	147 → 294 → 490	12-bolt
16"	1"	147 → 294 → 490	16-bolt
18"	1-1/8"	213 → 426 → 710	16-bolt
20"	1-1/8"	213 → 426 → 710	20-bolt
24"	1-1/4"	300 → 600 → 1,000	20-bolt

3. Notes on Tightening Sequence

1st Round: Begin by tightening bolts in a criss-cross pattern to 1st torque value.
2nd Round: Repeat in the same sequence to 2nd torque value.
Final Round: Apply the final torque in the same criss-cross order for uniform gasket compression.
Bolt Count: Varies by flange size (4-bolt, 8-bolt, 12-bolt, 16-bolt, 20-bolt).
Important: Always use calibrated torque wrenches and follow ASME B16.5 guidelines.

Stanley Alloys – Class 300 Torque Chart

Stanley Alloys – Stainless Steel Stud Bolts Torque Chart (Class 300 Flanges)

Applicable Standard: ASME B16.5 Class 300 | Gasket Type: RF / Ring Gasket

Flange Size	Stud Bolt Size	Torque / Round (ft-lbs)	Tighten Sequence
1/2"	1/2"	10 → 20 → 30	4-bolt
3/4"	5/8"	15 → 30 → 50	4-bolt
1"	5/8"	21 → 42 → 70	4-bolt
1-1/4"	5/8"	30 → 60 → 100	4-bolt
1-1/2"	3/4"	45 → 90 → 150	4-bolt
2"	5/8"	33 → 66 → 110	8-bolt
2-1/2"	3/4"	42 → 84 → 140	8-bolt
3"	3/4"	60 → 120 → 200	8-bolt
3-1/2"	3/4"	60 → 120 → 200	8-bolt
4"	3/4"	60 → 120 → 200	8-bolt
5"	3/4"	60 → 120 → 200	8-bolt
6"	3/4"	60 → 120 → 200	12-bolt
8"	7/8"	95 → 190 → 320	12-bolt
10"	1"	147 → 294 → 490	16-bolt
12"	1-1/8"	213 → 426 → 710	16-bolt
14"	1-1/8"	195 → 390 → 650	20-bolt
16"	1-1/4"	273 → 546 → 910	20-bolt
18"	1-1/4"	300 → 600 → 1,000	24-bolt
20"	1-1/4"	300 → 600 → 1,000	24-bolt
24"	1-1/2"	465 → 930 → 1,550	24-bolt

Tightening Procedure Notes

1st Round: Begin tightening bolts in a criss-cross pattern to the first torque value.
2nd Round: Repeat tightening in the same pattern to the second torque value.
Final Round: Apply final torque in the same criss-cross sequence for uniform gasket compression.
Bolt Count: Varies with flange size (4, 8, 12, 16, 20, 24 bolts).
Important: Use calibrated torque wrenches and follow ASME B16.5 guidelines for safety and gasket integrity.

Stanley Alloys – Metric Stud Bolt Wrench Guide

Quick Reference for Selecting the Correct Spanner Size for Metric Studs

(Designed for DIN & ISO Thread Standards)

Thread (Metric)	Spanner Size – DIN (mm)	Spanner Size – ISO (mm)
M1.6	3.2	3.2
M2	4	4
M2.5	5	5
M3	5.5	5.5
M3.5	6	6
M4	7	7
M5	8	8
M6	10	10
M7	11	–
M8	13	13
M10	17	16
M12	19	18
M14	22	21
M16	24	24
M18	27	27
M20	30	30
M22	32	34
M24	36	36
M27	41	41
M30	46	46
M33	50	50
M36	55	55
M39	60	60
M42	65	65
M45	70	70
M48	75	75
M52	80	80
M56	85	85
M60	90	90
M64	95	95
M68	100	–
M72	105	–
M76	110	–
M80	115	–
M90	130	–
M100	145	–
M110	155	–
M125	180	–
M140	200	–
M160	230	–

Key Highlights

Spanner Across Flats (A/F): Ensures the correct torque is applied for secure fastening.
DIN vs ISO Standards: DIN dimensions are widely used in European setups; ISO sizes cater to international and industrial applications.
Usage Tip: Verify thread size and tolerance before applying torque to avoid damage.
Application: Ideal for industrial, mechanical, and construction environments where precise fittings are critical.
Custom Sizes: Larger threads (M68–M160) may require special tools or custom spanners for optimal torque application.

Stanley Alloys – Imperial Stud Bolt Weight Guide

Approximate weights (in pounds) for standard stud bolts by diameter and length. Useful for inventory planning, torque calculation, and design reference.

Bolt Length (in)	1/2"	5/8"	3/4"	7/8"	1"	1-1/8"	1-1/4"	1-3/8"	1-1/2"	1-5/8"	1-3/4"	1-7/8"
2 1/2	10.8	–	–	–	–	–	–	–	–	–	–	–
2 3/4	11.6	19.8	–	–	–	–	–	–	–	–	–	–
3 1/4	12.4	21	32.4	–	–	–	–	–	–	–	–	–
3 1/2	13.2	22.2	34.3	50	–	–	–	–	–	–	–	–
4	14	23.4	36.2	52.6	71.8	–	–	–	–	–	–	–
4 1/2	14.8	24.6	38.1	55.2	75.2	102	–	–	–	–	–	–
4 3/4	15.6	25.8	40	57.8	78.6	106	137	–	–	–	–	–
5	16.4	27	41.9	60.4	82	111	142	179	–	–	–	–
5 1/2	17.2	28.2	43.8	63	85.4	115	147	186	234	–	–	–
6	18	29.4	45.7	65.6	88.8	119	153	193	242	289	–	–
6 1/4	18.8	30.6	47.6	68.2	92.2	123	158	200	250	298	263	–
6 1/2	19.6	32.3	49.5	70.8	95.6	128	164	206	258	308	374	437
7	20.4	33.5	50.8	73.4	99	132	169	213	266	317	385	449
7 1/2	21.2	34.8	52.7	75.5	103	136	174	220	275	326	396	462
8	22	36.1	54.5	78	106	141	180	226	283	336	407	475
8 1/4	–	37.3	56.3	80.5	108	145	185	233	291	345	418	488
8 3/4	–	38.6	58.1	83.1	112	149	191	240	299	354	429	500
9	–	39.8	60	85.6	115	153	196	246	307	364	440	513
9 1/2	–	41.1	61.8	88.2	118	158	201	253	316	373	451	526
10	–	–	63.7	90.7	122	162	206	260	324	382	463	538
10 1/4	–	–	–	93.3	125	166	212	267	332	391	474	551
10 1/2	–	–	–	–	128	171	217	273	340	401	485	564
11	–	–	–	–	132	175	223	279	345	410	496	576
11 1/2	–	–	–	–	135	179	228	285	350	419	507	589
12	–	–	–	–	138	184	233	292	358	429	518	602

Weight per stud is approximate and for standard hex-head bolts.
Imperial diameters: 1/2" through 1-7/8".
Lengths: 2 1/2" to 12".
Use for material planning, lifting estimates, and torque calculations.
Custom sizes available on request from Stanley Alloys.

Stanley Alloys – Metric Stud Bolt Weight Reference

Guide to approximate weights (in grams) of metric stud bolts by diameter and length. Ideal for engineering calculations and inventory planning.

Bolt Length (mm)	M10	M12	M14	M16	M18	M20	M22	M24	M27	M30	M33	M36	M39
60	5.6	8.1	12	15.6	–	–	–	–	–	–	–	–	–
70	6.1	8.9	13	16.9	23.7	–	–	–	–	–	–	–	–
80	6.6	9.6	14	18.2	25.4	32.5	–	–	–	–	–	–	–
90	7.1	10.3	15	19.6	27.1	34.5	45.5	–	–	–	–	–	–
100	7.6	11	16	21	28.8	36.7	47.2	54.2	–	–	–	–	–
110	8.1	11.7	17	22.2	30.4	38.7	48.3	58.2	80	–	–	–	–
120	8.6	12.4	18	23.6	32.1	40.7	50.9	60.2	84.7	107	–	–	–
130	9.1	13.2	19	24.9	33.7	42.8	53.4	63.2	88.6	111	141	–	–
140	9.6	14.2	20	26.2	35.4	44.9	55.9	66.2	92.4	116	147	185	–
150	10.1	14.9	20.8	27.5	36.9	46.9	58.5	69.2	96.3	121	153	192	237
160	10.6	15.6	21.8	29.1	38.6	49	61	72.2	100.1	126	159	199	245
170	–	16.4	22.8	30.4	40.2	51.1	63.5	75.2	104	130	165	206	253
180	–	–	23.8	31.8	41.9	52.3	66.1	78.1	108	135	171	213	261
190	–	–	–	33.1	43.5	54.4	68.4	81.1	112	140	176	219	269
200	–	–	–	34.5	45.2	56.2	71	84	116	144	182	226	278
210	–	–	–	35.8	46.8	58.5	73.5	88.4	120	149	188	233	286
220	–	–	–	37.1	48.4	60.6	76.1	91.4	124	154	194	240	294
230	–	–	–	38.5	50.1	62.6	78.6	94.4	127	159	201	247	302
240	–	–	–	39.8	51.7	64.7	81.2	97.4	130.9	164	208	253	310
250	–	–	–	41.1	53.4	66.8	83.7	100.4	134.8	172	214	260	319
260	–	–	–	–	55	68.8	86.3	103.4	138.6	177	220	267	327
270	–	–	–	–	56.6	70.9	88.8	106.4	142.5	182	224	274	335
280	–	–	–	–	58.3	73	91.4	109.4	146.3	187	230	281	343
290	–	–	–	–	–	75	93.9	112.4	150.1	192	236	291	360
300	–	–	–	–	–	77.1	96.5	115.4	154	196	241	298	368
320	–	–	–	–	–	–	–	101.6	121.3	161.7	206	253	312
340	–	–	–	–	–	–	–	–	127.3	169.4	215	265	326
360	–	–	–	–	–	–	–	–	133.3	177.1	224	276	340
380	–	–	–	–	–	–	–	–	–	184.8	234	288	353
400	–	–	–	–	–	–	–	–	–	192.5	243	299	367
420	–	–	–	–	–	–	–	–	–	–	252	311	460
440	–	–	–	–	–	–	–	–	–	–	262	322	477
460	–	–	–	–	–	–	–	–	–	–	271	334	493
480	–	–	–	–	–	–	–	–	–	–	281	345	509
500	–	–	–	–	–	–	–	–	–	–	290	357	526

Weights in grams represent approximate bolt mass per individual stud.
Applicable diameters: M10 through M39, lengths 60 mm up to 500 mm.
Usage: Helps in inventory planning, lifting calculations, and torque application estimates.
Custom requirements: Stanley Alloys can provide specific weight calculations for non-standard lengths or diameters.

Stanley Alloys – All Thread Studs Mechanical Properties

1. Carbon & Alloy Steel All Thread Studs

Material / Grade	Grade Code	Diameter Range	Proof Load (psi)	Yield Strength (psi)	Tensile Strength (psi)	Notes / Applications
Low Carbon Steel	S020	1/4" – 3/4", 3/4" – 1 1/2"	55,000	33,000 – 36,000	57,000	Economical choice, suitable for low-stress and general-purpose fastening.
ASTM A193 B7 (Alloy Steel, Quenched & Tempered)	SB70	1/4" – 2 1/2", 2 1/2" – 4", 4" – 7"	105,000 – 95,000	75,000 – 100,000	125,000 – 115,000	High strength, widely used in pressure vessels, flanges, and petrochemical applications.
ASTM A320 L7 (Low Temp Alloy Steel)	SL70	1/4" – 2 1/2"	–	105,000	125,000	Designed for low-temperature service, ideal for cryogenic and cold-region operations.
ASTM A193 B16 (High-Temp Alloy Steel)	SB16	1/4" – 2 1/2", 2 1/2" – 4", 4" – 7"	105,000 – 95,000 – 85,000	100,000 – 115,000	125,000	Engineered for high-temperature service, used in power plants and heat exchangers.

2. Stainless Steel All Thread Studs

Material / Grade	Grade Code	Diameter Range	Proof Load (psi)	Yield Strength (psi)	Tensile Strength (psi)	Notes / Applications
304 Stainless Steel / 18-8	S188	1/4" and larger	–	30,000	75,000	Excellent corrosion resistance, general industrial use, food processing, and construction.
316 Stainless Steel	S316	1/4" and larger	–	30,000	75,000	Enhanced resistance to chloride corrosion, ideal for marine and chemical industries.
ASTM A193 B8 (304 SS, Carbide Solution Treated)	SB80	1/4" and larger	–	30,000	75,000	Used in moderate environments where resistance to oxidation and scaling is critical.
ASTM A193 B8M (316 SS, Carbide Solution Treated)	SB8M	1/4" and larger	–	30,000	75,000	Superior performance in aggressive environments, including offshore, petrochemical, and acidic conditions.

3. Key Highlights

Low Carbon Steel studs are cost-effective for general fastening applications.
B7 and B16 Alloy Steel Studs are designed for high strength and used in flanges, valves, pumps, and pressure vessels.
L7 Studs are specialized for cryogenic and low-temperature applications.
Stainless Steel Studs (304 & 316) are chosen for their excellent corrosion resistance and long service life, with 316 offering superior protection in chloride and marine conditions.
B8 & B8M Grades undergo carbide solution treatment for stability and can be strain hardened (Class 2) for higher strength requirements.

DIN 525 – Weld Studs & Testing Guide

DIN 525 – Weld Studs with Hexagonal Nuts: Dimensions & Specifications

All dimensions are expressed in millimeters (mm)

Thread (d1)	Overall Length (l)	Hex Nut Width (b)
M6	130	35
M8	140	40
M10	150	45
M12	170	55
M14	180	60
M16	190	65
M18	200	70
M20	210	75
M22	220	80
M24	230	85
M27	250	90
M30	270	105
M33	290	115
M36	310	125

Note: These DIN 525 weld studs are designed for flange and structural applications where a hex nut provides secure fastening. The lengths include weld projections, and dimensions are tailored for standardized mechanical assemblies.

Testing, Measurement & Inspection Tools for Stainless Steel Stud Bolts

To ensure precision, safety, and compliance with mechanical standards, stainless steel stud bolts are routinely inspected using the following equipment:

Micrometers – For precise outer diameter and thread measurement
Thread Gauges – Verifying pitch, depth, and engagement of threads
Smooth Plug Gauges – Ensures correct internal diameters and tolerance fit
Calipers (Routine Inspection) – Quick verification of lengths and diameters
Coordinate Measuring Machine (CMM) – High-accuracy dimensional inspection in 3D
Roughness Tester – Evaluates surface finish to prevent thread galling
Image Measuring Instruments – Optical verification of profiles, threads, and chamfers

Pro Tip: Combining CMM inspections with traditional gauges ensures both high precision and fast quality control, ideal for critical applications like high-pressure flanges, chemical, or marine environments.

Additional Notes for DIN 525 Weld Studs

Hex nuts are typically supplied pre-threaded and torqued to standards for installation.
Weld studs can be customized in length or material for high-temperature or corrosive environments.
Testing and calibration should follow ISO and EN standards to ensure uniform performance across batches.

Stanley Alloys – Collapsible FAQs

Stanley Alloys – Comprehensive Stud Bolt FAQs

1. What are stud bolts, and where are they used?

Stud bolts are threaded fasteners with no head, typically used in flanges, pipe connections, pressure vessels, and heavy machinery. They provide uniform clamping and are ideal for high-pressure or high-temperature applications.

2. What are the main types of stud bolts?

Double-end studs (with threads on both ends)
Threaded rods / plain end studs
Studs with chamfered ends for flange bolting
Weld studs (DIN 525)
Clamping studs
Different standards (DIN, ISO, ANSI, BS, IS) define exact dimensions and thread engagement lengths.

3. How are stud bolts classified by material?

Common materials include:
Carbon Steel (Low, Medium, Alloy)
Stainless Steel (304, 316, 317, 321, 904L, duplex 2205)
High-temperature alloys (17-4PH, 310)
Grades like B7, B8, B8M, A2-70, A4-70 define strength and corrosion resistance.

4. What are typical stud bolt standards?

Standards ensure compatibility and performance:
ANSI/ASME B18.31.2 – Continuous thread studs
DIN 938 / 939 / 940 / 949 / 976 – Metric studs
IS 1862, IS 13178 – Indian standards
BS 2693 / BS 3692 – British standards

5. How do I choose the right stud bolt size and grade?

Consider:
Flange size and pressure rating (150, 300, 600, 900, 1500, 2500 lb.)
Tensile and proof load requirements
Environmental conditions (corrosive, high-temp)
Preload specifications for tightening sequences

6. What is the torque sequence for stainless steel stud bolts?

Torque is applied in multiple rounds (first, second, final)
Follow ASME B16.5 recommendations for flange class (150/300 lb)
Correct torque ensures proper preload and prevents leakage or stud failure

7. How do stud bolt dimensions vary?

Metric: M6 to M160
Imperial: 1/2" to 2-1/2"
Stud length depends on flange thickness, engagement length, and application.
Hex nut sizes are matched to the bolt diameter for proper wrenching.

8. How is stud bolt weight calculated?

Weights vary by material, diameter, and length. Charts provide weights per unit length for metric (M10–M160) and imperial (1/2"–2-1/2") bolts. Accurate weight helps with logistics and mechanical calculations.

9. What testing and certificates are required?

Manufacturers usually provide:
Manufacturer Test Certificates (MTC) per EN 10204 / 3.1
Tensile tests (ISO 898-1)
Hardness testing (ISO 6508-1)
Charpy impact tests (ISO 148-1)
Proof load for nuts (ISO 898-2)
Tri-roll thread comparators and calibrated gauges for inspection

10. What is the purpose of weld studs (DIN 525)?

Weld studs provide a permanent threaded fastening point on a base component. They are often paired with hex nuts and are used in structural steel, flanges, and heavy machinery where repeated disassembly may not be required.

11. What tools and equipment are used for inspection?

Micrometers and calipers
Thread gauges
Coordinate measuring machines (CMM)
Roughness testers
Image measuring instruments for routine inspection

12. What are stud bolt spanner sizes?

Vary according to metric or ISO standards
Ensure proper wrench engagement to avoid thread damage
Covers small M1.6 up to large M160 sizes

13. How do flange class and bolt size correlate?

Higher flange classes (300, 600, 900 lb) require:
Larger bolt diameters
More bolts per flange
Longer stud lengths to maintain pressure integrity

14. Can stud bolts be customized?

Yes, customization is available for:
Thread type and pitch
Length and shank diameter
Material grade (e.g., duplex 2205 for corrosive service)
Thread engagement length per DIN 938/939/940 standards

15. How to ensure proper installation?

Follow torque sequences (1st, 2nd, final rounds)
Check stud and nut compatibility
Use calibrated torque wrenches for precise tightening