Skip to content

Stainless Steel Bolt Differences

Hex bolts are often ordered as a type 304 stainless and not to a specific ASTM specification. When bolts are ordered under the raw material grade (type 304) and not to an ASTM fastener specification, there are no specific requirements other than that they meet the chemical and physical requirements of 304 stainless steel and ASME B18.2.1 dimensional requirements for hex bolts. National coarse thread will typically be provided unless otherwise specified.

Type 304 stainless steel hex bolts that are ordered under the ASTM fastener specification A193 grade B8 are required to be both carbide solution annealed and stamped per the A193 specification. Carbide solution annealing is a process of heating the material up to a temperature of 1,950 degrees or above and maintaining the temperature long enough for the chromium carbides to go into the solution. This process will bring the bolts back to their optimal corrosion resistant condition after the forging (heading) process. The heads of bolts and one end of rods must be marked with “B8” and a unique manufacturer’s identifier. The A193 specification also requires 8 threads per inch above one inch diameter unless specified otherwise.

A type 304 stainless steel hex bolt that is ordered as ASTM F593 Group 1 must have additional processes performed that exceed the requirements of A193 grade B8. These bolts must be stamped with a manufacturer’s identifier, “F593″, and the proper condition designation, and if the bolts are hot formed, they must also be carbide solution annealed. Additionally, F593 bolts must pass an intergranular corrosion test, which is not required when bolts are ordered as type 304 stainless or under the ASTM A193 grade B8 specification. F593 does not have the same 8UN series thread requirement above 1″ diameter as A193 grade B8, and is typically provided with Unified National Coarse threads. The F593 specification is also characterized by a maximum diameter of 1-1/2”.

When headed stainless steel bolts are required, the hot forging process turns the heads of stainless steel bolts black and creates surface scale. This darkening of the stainless steel occurs when the round bar is heated to forge the bolt heads. Surface cleaning is optional and is performed through descaling (wheelabrating), pickling (acid treatment to remove heat-tinted surface steel layers), and passivating (restoring the chromium-rich complex, oxide film on the surface of the steel). Pickling and passivating is never a requirement when headed bolts are ordered under either ASTM specification (A193 grade B8 or ASTM F593), nor is it a requirement when simply ordering type 304 stainless steel headed bolts. Therefore, pickling and passivating is optional and should be specified by the purchaser at the time of inquiry and order. Pickling and passivating will increase the cost of the bolts and add to the lead time required to manufacture the product.

29 thoughts on “Stainless Steel Bolt Differences”

  1. sir, i have heat treatment shop. my customer send me ss304 bolt for carbide solution annealing class2 and strain hardening. he require hardness30/32 rc. i had done solution annealing at 1100 degree c.and observe hardness85/90 hrb. now how can i increase hardness? what temperature and time is suitable for strain hardening process? what is coolind method of strain hardening material? kindly help me other wise i will loose my customer. thank u sir.

    1. @Jagdish Sharma – The strain hardening process is a cold drawing or cold forming procedure which occurs after heat treatment. Stain hardening is a mechanical process, not a heat treat process. We do not do any strain hardening in house, and so do not have any details on the specifics of the procedures. Apologies.

    1. @JDR ENGG – Stainless grades per ASTM A276 (which only covers raw material) do not have any specified hardness values, although the producing mill will usually perform a hardness test for reference. Fasteners per ASTM F593 do have hardness requirements, ranging from HRB 65 for some annealed grades, to HRC 36 for some stain hardened grades.

    1. @JDR ENGG – After hot forging, both ASTM A193 and F593 require fasteners to be carbide solution treated, which is a heat treat process that restores the corrosion resistant properties altered by hot forging. Strain hardening is a separate process that can increase the mechanical strengths of some grades of stainless steel by cold working the material, either through cold drawing, cold heading, or some other cold forming process.

  2. I am a bike builder and use a lot of stainless metric fasteners usually socket (allen) head and button (allen) head for 90% of a given machine. However I am sometimes stuck using ugly grade8 hex head in places where I need the strength ie: kick stand, motor mounts etc….is there a stainless alloy that has “grade8” tensile strength or similar shear strength ?? I like a clean machine and but dont want it laying on its side with a sheared off sidestand bolt :0) …

    Steffano Muzzatti

Leave a Reply

Your email address will not be published. Required fields are marked *