Socket Screw Material & Grade Guide

Socket screws are available in alloy steel and stainless steel, with several finish options within each material. The material choice controls tensile strength, corrosion resistance, and temperature performance—and the wrong choice can result in a joint that corrodes prematurely, strips under load, or fails at elevated temperature. This guide covers the two primary material families, the grade and property class designations for each, and the finish options that affect both performance and appearance.

Eugene Fastener stocks socket screws in alloy steel (ASTM A574 / Class 12.9), 18-8 stainless, and 316 stainless in a full range of inch and metric sizes. Call (541) 342-5978, email sales@eugenefast.com, or submit a quote request to confirm availability for your specific size and material.

In This Guide:

Alloy Steel Socket Screws — ASTM A574

Side-by-side comparison of alloy steel and stainless steel socket head cap screws with tensile strength callouts
Alloy steel SHCS (ASTM A574, black oxide) at 170,000 PSI minimum tensile strength vs. 18-8 stainless at approximately 100,000–125,000 PSI. The strength difference is significant for structural applications.

Alloy steel is the standard material for high-strength socket screws. ASTM A574 is the governing specification for inch socket head cap screws and defines minimum mechanical properties by size:

  • Sizes #0 through 1/2": 170,000 PSI minimum tensile strength; 153,000 PSI proof load
  • Sizes over 1/2" through 1-1/2": 180,000 PSI minimum tensile strength

For context, Grade 8 hex bolts (the other common high-strength fastener in inch sizing) have a minimum tensile strength of 150,000 PSI—20,000 PSI lower than alloy SHCS through 1/2". Alloy socket screws are the strongest standard commercial hex-drive fastener in inch sizing. The material is a medium-carbon alloy steel, typically 4140 or similar, heat treated and temper drawn for combined strength and toughness.

Standard finish for alloy steel socket screws is plain (bright) or black oxide. Neither finish provides significant corrosion protection—alloy steel socket screws will rust in wet or outdoor environments. For corrosion-exposed applications, use stainless or specify a zinc or zinc-nickel plating.

Alloy SHCS vs. Grade 8 Hex Bolt: Strength Comparison

Property Alloy SHCS (ASTM A574) Grade 8 Hex Bolt (SAE J429)
Min. Tensile Strength170,000 PSI (#0–1/2”)150,000 PSI
Min. Yield Strength153,000 PSI (proof load)130,000 PSI (min. yield)
Drive TypeInternal hex (Allen key)External hex (wrench)
Head ProfileLow (fits flush applications)High (requires clearance)
Standard FinishBlack oxide or plainYellow zinc (G8) or plain

Metric Socket Screws — Property Classes

Bar chart comparing tensile strength of metric socket screw property classes 8.8, 10.9, and 12.9
Metric property classes for socket screws. Class 12.9 is the standard for socket head cap screws. Class 10.9 is used in some structural applications; class 8.8 is for general machine screws.

Metric fastener strength is expressed as a property class, encoded as two numbers separated by a decimal point. For socket head cap screws:

  • Class 12.9: 1,220 MPa (177,000 PSI) minimum tensile strength. The standard property class for metric SHCS, FHSCS, and BHSCS. Equivalent to inch alloy ASTM A574 in strength level.
  • Class 10.9: 1,040 MPa (151,000 PSI) minimum tensile strength. Used in automotive and structural metric bolt applications; less common for socket screws but available.
  • Class 8.8: 800 MPa (116,000 PSI) minimum tensile strength. General-purpose metric bolts; not used for socket cap screws as a rule.

The number before the decimal is approximately 1/100 of the nominal tensile strength in MPa. The number after the decimal times 10 gives the ratio of yield strength to tensile strength (e.g., 12.9 = yield is 90% of tensile). Standard metric socket set screws are Class 45H (hardened), which is a separate designation from the structural bolt property classes.

18-8 Stainless Steel Socket Screws

18-8 stainless steel (18% chromium, 8% nickel) is the standard stainless grade for socket screws. It covers several AISI grades including 302, 303, 304, and 305—all with similar corrosion resistance. 18-8 stainless provides good general corrosion resistance in mild environments: indoor wet areas, food processing equipment, outdoor structures in non-marine environments, and chemical equipment exposed to weak acids and bases.

Mechanical properties of 18-8 stainless socket screws are significantly lower than alloy steel A574. Tensile strength is approximately 85,000–125,000 PSI depending on size and cold working level. Stainless cannot be heat treated to the same strength levels as alloy steel, so stainless socket screws are not a direct substitution for alloy in structural applications—verify the joint load against stainless tensile ratings before switching.

18-8 stainless is also susceptible to galling (thread cold-welding during installation). Use anti-seize compound when installing stainless fasteners into stainless tapped holes, and reduce installation torque by 20% when using anti-seize.

316 Stainless Steel Socket Screws

316 stainless adds 2–3% molybdenum to the 18-8 base composition, substantially improving resistance to chloride-induced pitting corrosion. 316 is the correct choice for marine environments, coastal installations, chlorinated water systems, chemical processing equipment, and medical devices. It is more expensive than 18-8 and has similar mechanical properties. For most freshwater and indoor applications, 18-8 is sufficient; 316 is warranted when salt water, chlorinated water, or aggressive chemicals are present.

Finish Options for Alloy Steel Socket Screws

  • Plain (Bright): No surface treatment beyond machining. No corrosion protection. Common for interior machine-room applications with no moisture exposure.
  • Black Oxide: Chemical conversion coating producing a dark matte-black appearance. Provides minimal corrosion resistance (1–2 hours salt spray vs. 100+ hours for zinc). Primarily aesthetic with minor rust inhibition when oiled. Very common for socket screws used in machine tools and fixtures.
  • Zinc Plating: Electrodeposited zinc coating providing 48–72 hours salt spray resistance. Adds a silver-gray appearance. Available on alloy socket screws but less common than black oxide; must specify when ordering.
  • Zinc-Nickel: Higher-performance zinc alloy plating. 500+ hours salt spray. Less common as a standard stock item; suitable for outdoor industrial fasteners where stainless strength is insufficient.

Stainless steel socket screws are typically supplied in the natural passivated finish (bright, no plating). 316 stainless is sometimes electro-polished for improved corrosion resistance in medical applications.

Material Comparison Summary

Material Tensile Strength Corrosion Resistance Best For
Alloy Steel (ASTM A574)170,000–180,000 PSILow (needs plating or oil)Max strength, interior machine applications
18-8 Stainless85,000–125,000 PSIGood (non-marine)Wet environments, food service, outdoor non-marine
316 Stainless80,000–120,000 PSIExcellent (chloride-resistant)Marine, coastal, chemical, medical

Frequently Asked Questions

Are alloy steel socket head cap screws stronger than Grade 8 bolts?

Yes, for sizes through 1/2". Alloy steel SHCS meeting ASTM A574 have a minimum tensile strength of 170,000 PSI, compared to 150,000 PSI for Grade 8 hex bolts (SAE J429). For sizes over 1/2", alloy SHCS increase to 180,000 PSI while Grade 8 remains at 150,000 PSI. Alloy socket screws are the highest-strength standard commercial fastener in inch sizing.

Can I use stainless steel socket screws instead of alloy steel?

Not as a direct substitution for structural joints. 18-8 stainless socket screws have roughly 60–70% of the tensile strength of alloy A574. Verify the joint’s load requirements against stainless tensile ratings before switching materials. Stainless is appropriate when corrosion resistance is the priority and load requirements fall within stainless capabilities.

What is the difference between Class 10.9 and Class 12.9 metric socket screws?

Class 12.9 has a minimum tensile strength of 1,220 MPa (177,000 PSI) and is the standard property class for metric socket head cap screws. Class 10.9 has a minimum of 1,040 MPa (151,000 PSI)—approximately 85% of 12.9 strength. Most metric SHCS are stocked as Class 12.9; verify if your application specifies Class 10.9 specifically.

Does black oxide coating protect socket screws from rust?

Minimally. Black oxide provides 1–2 hours of salt spray resistance without supplemental oil, compared to 48–72 hours for zinc plating. Black oxide is primarily an aesthetic finish. For wet or outdoor applications, use stainless steel or specify a zinc plated alloy socket screw.

What material should I use for socket screws in a marine application?

Use 316 stainless steel. The molybdenum content in 316 provides chloride pitting resistance that 18-8 stainless lacks. 18-8 will corrode in seawater and coastal environments; 316 is the minimum standard for marine fasteners. Apply anti-seize to all stainless fasteners to prevent galling during installation and future removal.

Socket Screw Torque & Hex Key Chart  •  Set Screw Point Style Guide  •  Shoulder Bolt Selection Guide

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