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Stainless Steel 17-4PH

Alloy 17-4PH is a precipitation hardening martensitic stainless steel with Cu and Nb/Cb additions. The grade combines high strength, hardness (up to 572°F /300°C), and corrosion resistance. Mechanical properties can be optimized with heat treatment. Very high yield strength up to 1100-1300 MPa (160-190 ksi) can be achieved.

 

General Properties

Alloy 17-4PH (UNS S17400), Type 630, is a chromium-nickel-copper precipitation-hardening martensitic stainless steel with an addition of niobium. 17-4PH combines high strength and hardness with good corrosion resistance.
The alloy is furnished in the solution annealed condition (Condition A). It should not be used at temperatures above 572°F (300°C) or for cryogenic service. Optimal mechanical properties can be obtained by subjecting the alloy to age hardening heat treatments. Heat treatment in the 900°F (482°C) range produces the highest strength.


The corrosion resistance of Alloy 17-4PH is comparable to 304 stainless steel in most environments, and is generally superior to the 400 series stainless steels. It is used in applications where the combination of moderate corrosion resistance and unusually high strength are required.
Alloy 17-4PH can be easily welded and processed by standard shop fabrication practices. It is magnetic.


 

Applications

  • Aerospace — structural and parts
    Biomedical — hand tools
    Chemical Processing
    Food Process Equipment
    Gate Valves
    Mechanical Components
    Nuclear Waste Processing and Storage
    Oil and Gas Production — foils, helicopter deck platforms, etc.
    Pulp and Paper — paper mill
    equipment

Standards

ASTM........A 693
ASME........SA 693
AMS..........5604

Corrosion Resistance

The corrosion resistance of Alloy 17-4PH is comparable to 304 stainless steel in most environments, and is generally superior to the 400 series stainless steels. It is used in applications where the combination of moderate corrosion resistance and unusually high strength are required. Alloy 17-4PH has corrosion resistance comparable to 304L in some chemical, dairy, food, paper and petroleum applications.
Alloy 17-4PH in the solution-annealed condition (Condition A) should not generally be put in service. The alloy is subject to brittle fractures and more sensitive to chloride stress corrosion cracking than the aged material.
If risks of chloride stress corrosion cracking are present the higher aging temperatures should be selected over 1022°F (550°C), preferably 1094°F (590°C). 1022°F (550°C) is the recommended tempering temperature in chloride service. 1094°F (590°C) is preferred in H2S media.


Alloy 17-4PH is subject to crevice corrosion and pitting attack when exposed to stagnant seawater for a duration of time.

Chemical Analysis

Weight % (all values are maximum unless a range is otherwise indicated)

 

 

 

 

Chromium

15.0 min.-17.5 max.

Phosphorus

0.04

Nickel

3.0 min.-5.0 max.

Sulfur

0.03

Copper

3.0 min.-5.0 max.

Silicon

1.0

Carbon

0.07

Nobium plus Tantalum

0.15 min.-0.45 max.

Manganese

1.0

Iron

Balance

 
 

Physical Properties (Condition A)

Density

0.280 lbs/in3
7.75 g/cm3

Specific Heat

0.11 BTU/lb-°F @ 70°F)
460 J/kg-°C @ 20°C)

Modulus of Elasticity

28.5 x 106 psi
196 GPa

 

Thermal Conductivity 212°F (100°C)

10.6 BTU/hr/ft2/ft/°F
18.3 W/m-°K

Melting Range

2560 – 2625°F
1404 – 1440°C

Electrical Resistivity

29.5 Microhm-in at 75°C
75 Microhm-cm at 24°C
Mean Coefficient of Thermal Expansion

Temperature Range

 

°F

°C

in/in °F

cm/cm °C

70-800

21-427

6.3 x 10-6

11.3 x 10-6


Mechanical Properties

Room temperature properties (longitudinal direction)
Guaranteed values (ASTM A693 hot rolled plates)
Table 1

Heat Treatment

Yield Strength

0.2% Offset

Ultimate Tensile

Strength

Elongation

 

(MPa)

ksi

(MPa)

ksi

%

Hardening 496 °C

(925 °F)

4 h, air cooling

Min.

1070

155

1170

170

8

Typ.

1207

175

1310

190

14

Hardening 593 °C

(1100°F)

4 h, air cooling

Min.

790

115

965

140

10

Typ.

931

135

1034

150

17

 

 

Fabrication Data

Alloy 17-4PH can be easily welded and processed by standard shop fabrication practices. It is magnetic.

Heat Treatment

Alloy 17-4PH is provided in the solution-annealed condition (Condition A). Mechanical properties may be altered by subsequent age hardening treatments. These aging treatments are referred to as Conditions H900, H1025, H1075, H1150, H1150M and H1150D. The processes are outlined in Table 2 below. The resultant mechanical properties appear above in Table 1.

Table 2

CONDITION

Temperature °F

Time, h

Quench

H900

900

4

Air Cool

H1025

1025

4

Air Cool

H1075

1075

4

Air Cool

H1150

1150

4

Air Cool

H1150M

1400 for 2 h, air cool plus 1150 for 4 h, air cool

H1150D

1400 for 2 h, air cool plus 1150 for 4 h, air cool

Cold Forming

Alloy 17-4PH has limited cold forming properties. Cold forming can only be undertaken on plates in the fully annealed condition. Stress corrosion resistance is enhanced by re-aging at the precipitation hardening temperature after cold working.

Hot Forming

Heat uniformly at 1742 – 2192°F (950 – 1200°C). A full solution anneal, cooling lower than 76°F (25°C) and aging at the required temperature must occur after hot forming. The post forming heat treatment should be a function of the desired mechanical properties.

Machining

Alloy 17-4PH can be machined in both the solution treated and precipitation hardened conditions. Machining characteristics may vary according to the hardness of the metal. High speed tools are acceptable, but carbide tools are preferred. Standard lubrication should be used. Dimensional changes as a result heat treatment should be taken into account if very stringent tolerances are required.

Cutting

Alloy 17-4PH can be readily welded by most standard processes including SMAW, GTAW, PAW and GMAW.

 

Welding

Alloy 17-4PH can be readily welded by most standard processes including SMAW, GTAW, PAW and GMAW.