Data Sheets

Stainless Steel - Martensitic - 1.4005 Bar

1.4005 Bar

A martensitic machining bar with machinability enhanced through the addition of Phosphorus and Sulphur.

Grade 416 has the highest machinability of any stainless steel, at about 85% of that of a free-machining carbon steel. As for most other free-machining stainless steels the improvement in machinability is achieved by addition of sulphur which forms manganese sulphide inclusions; this sulphur addition also lowers the corrosion resistance, weldability and formability to below that of its non-free machining equivalent Grade 410.
Grade 416 is sometimes used in the unhardened or hardened and highly tempered condition because of its low cost and ready machinability.
Martensitic stainless steels are optimised for high hardness, and other properties are to some degree compromised. Fabrication must be by methods that allow for poor weldability and usually also allow for a final harden and temper heat treatment. Corrosion resistance is lower than the common austenitic grades, and their useful operating temperature range is limited by their loss of ductility at sub-zero temperatures and loss of strength by over-tempering at elevated temperatures.


Chemical Composition

Spec: EN 10088-3:2005

1.4005 Steel

Chemical Element % Present
Carbon (C) 0.06 - 0.15
Chromium (Cr) 12.00 - 14.00
Manganese (Mn) 0.0 - 1.50
Silicon (Si) 0.0 - 1.00
Phosphorous (P) 0.0 - 0.04
Sulphur (S) 0.15 - 0.35
Molybdenum (Mo) 0.0 - 0.60
Iron (Fe) Balance

Properties

Physical PropertyValue
Density 7.75 g/cm³
Thermal Expansion 9.9 x10^-6 /K
Modulus of Elasticity 200 GPa
Thermal Conductivity 24.9 W/m.K
Electrical Resistivity 0.057 x10^-6 Ω .m

Spec: EN 10088-3:2005

Bar - Up to 160mm Dia or Thickness

Mechanical PropertyValue
Proof Stress 450 Min MPa
Tensile Strength 650 - 850 MPa

Alloy Designations

 

 


Supplied Forms

  • Bar

Applications

Typical applications include:

Valve Parts

Pump Shafts

Automatic Screw Machined Parts

Motor Shafts

Washing Machine Components

Bolts and Nuts

Studs

Gears


Corrosion Resistance

Corrosion resistance is lower than the common austenitic grades.

 

Useful resistance to dry atmospheres, fresh water and mild alkalies and acids, but less resistant than the equivalent non-free-machining grades. Less corrosion resistant than the austenitic grades and also less than 17% chromium ferritic alloys such as Grade 430. High sulphur content free machining grades such as 416 are totally unsuitable for marine or other chloride exposure.

Maximum corrosion resistance is achieved in the hardened condition, with a smooth surface finish.


Heat Resistance

Fair resistance to scaling in intermittent service up to 760°C and up to 675°C in continuous service. Not recommended for use in temperatures above the relevant tempering temperature, if maintenance of mechanical properties is important.


Fabrication

Fabrication must be by methods that allow for poor weldability and usually also allow for a final harden and temper heat treatment.


Cold Working

Not recommended - Suitable only for minor deformation.  Severe deformation will result in cracking.


Hot Working

All hot work procedures should commence following uniform heating to 2100-2250 F (1149-1232 C). Hot work below 1700 F (927 C) may result in cracking.


Machinability

Grade 416 offers exceptionally good machinability, the highest of any of the commonly available stainless steels. Best machinability is in the sub-critical annealed condition.


Heat Treatment

Full Annealing - Heat to 815-900°C for ½ hour per 25mm of thickness. Cool at 30°C per hour maximum to 600°C and air cool.

 

Sub-Critical Annealing - Heat to 650-760°C and air cool.

 

Hardening - Hardened by heating to 925-1010°C, quenching in oil, and tempering to suit the mechanical requirements. See accompanying table.

 

Condition: Tensile Strength Range (N/mm² or MPa) QT 650: 650 - 850

QT 700: 700 - 850

QT 800: 800 - 950

QT 850: 850 - 1000

QT 900: 900 - 1050


Weldability

Grade 416 has poor weldability. If welding is necessary use Grade 410 low hydrogen electrodes. Pre-heat to 200-300°C. Follow immediately with annealing or re-hardening, or a stress relief at 650-675°C.

 

A better option if the weld is not required to be hard is to use a Grade 309 austenitic stainless steel filler rod

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Last Datasheet Revision

11 January 2016

Disclaimer

This Data is indicative only and as such is not to be relied upon in place of the full specification. In particular, mechanical property requirements vary widely with temper, product and product dimensions. All information is based on our present knowledge and is given in good faith. No liability will be accepted by the Company in respect of any action taken by any third party in reliance thereon.

Please note that the 'Datasheet Update' date shown above is no guarantee of accuracy or whether the datasheet is up to date.

The information provided in this datasheet has been drawn from various recognised sources, including EN Standards, recognised industry references (printed & online) and manufacturers’ data. No guarantee is given that the information is from the latest issue of those sources or about the accuracy of those sources.

Material supplied by the Company may vary significantly from this data, but will conform to all relevant and applicable standards.

As the products detailed may be used for a wide variety of purposes and as the Company has no control over their use; the Company specifically excludes all conditions or warranties expressed or implied by statute or otherwise as to dimensions, properties and/or fitness for any particular purpose, whether expressed or implied.

Advice given by the Company to any third party is given for that party’s assistance only and without liability on the part of the Company. All transactions are subject to the Company’s current Conditions of Sale. The extent of the Company’s liabilities to any customer is clearly set out in those Conditions; a copy of which is available on request.