RS PRO Stainless Steel Rod 12mm Diameter, 1.5m L

Image representative of range

Bulk discount available

Subtotal (1 lot of 5 units)*

£206.03

(exc. VAT)

£247.24

(inc. VAT)

Add to Basket
Select or type quantity
In Stock
  • 10 unit(s) ready to ship
Need more? Click ‘Check delivery dates’ to find extra stock and lead times.
Lot(s)
Per Lot
Per unit*
1 - 2£206.03£41.206
3 - 9£191.61£38.322
10 - 29£181.31£36.262
30 +£164.82£32.964

*price indicative

Alternative

This product is not currently available. Here is our alternative recommendation.

1 Lot of 2

£215.26

(exc. VAT)

£258.31

(inc. VAT)

RS Stock No.:
661-4696
Brand:
RS PRO
Find similar products by selecting one or more attributes.
Select all

Brand

RS PRO

Form

Rod

Material

Stainless Steel

Length

1.5m

Rod Diameter

12mm

Material Grade

303S31

Tensile Strength

500

Hardness

262 HB

Thermal Conductivity

16.3 W/m.k at 100°c

Density

8g/cm³

RoHS Status: Exempt

RS PRO 1.5 m x 12 mm Diameter 303S31 Stainless Steel Rod


Looking for a rod to help you produce machine components, masonry structures and fasteners? This stainless steel rod from RS PRO is a reliable solution for your next engineering or building project.


This austenitic stainless steel rod is rust-resistant even when used in harsh environments, making it a long-lasting choice. It contains additional sulphur to ensure pliability and ease of use. The bar's mild steel material has a hardness of Brinell Scale 262 HB, so you can easily cut it cleanly without the need for time-consuming machining.


This type of rod is often found in industrial and residential environments, from home garages to construction sites and power plants. It's also safe for use in areas sensitive to magnetism as it's non-magnetic.

Features and Benefits



  • Density of 8 g/cm³

  • Rod form

  • Hardness of 262 HB

  • Length of 1.5 m

  • Stainless steel material

  • Material grade of 303S31

  • Outer diameter of 12 mm

  • Rod diameter of 12 mm

  • Tensile strength of 500

  • Thermal conductivity of 16.3 W/m.k at +100°C


Related links