A286, X6NiCrTiMoVB25-15-2, 1.4980, SUH660, UNS S66286


A286, UNS S66286, 660, X6NiCrTiMoVB25-15-2, 1.4980, 1.3980, 1.4606, 1.4944 Austenitic age-hardenable iron based superalloy according to AMS 5731, AMS 5732, AMS 5734, AMS 5737, ASTM A453 (660), ASTM A638 (660), EN 10302, EN 10088-1 EN 10269.

A286, X6NiCrTiMoVB25-15-2, 1.4980, SUH660, UNS S66286 - Introduction and Application

A286, X6NiCrTiMoVB25-15-2, 1.4980 is an austenitic age-hardenable iron based superalloy Heat resistant steel with high strength, creep resistance, low magnetic permeability and high oxidation resistance. Endurance properties are obtained by emitting MC, M6C carbides by means of nickel, titanium and aluminum.It retains the appropriate mechanical properties to a temperature of about 650 - 700 ℃. In addition, it exhibits suitable strength properties at extremely low temperatures. Heat resistant to a temperature of about 800 - 900 ℃.Used as a steel for aviation and power engineering for heavy-duty rotors, gas turbine blades, steam turbines, pressure equipment parts and reactors, jet engines and rockets, exhaust systems. Also used in cryogenics and cryotechnics.

Equivalent materials to Pyrotool A are provided below.

AMS 5525AMS 5858GE B50T1181GE B50T12
AMS 5732AMS 5804DIN 1.4944GE B50T81
AMS 5731AMS 5853DIN 1.4943SPS M250
AISI 662AMS 5805ASTM A638 Grade 660
AMS 5726AMS 5737ASTM A453 Grade 660
AISI 660AMS 5734AMS 5895

Forging

Light forging can be performed in the temperature range of 871-1010°C (1600-1850°F). Heavy forging can be done in the temperature range of 1010-1204°C (1850-2200°F).

Cold Working

Pyrotool A can be cold formed.

Annealing

Pyrotool A can be solution annealed at 982°C (1800°F) and oil quenched, which should be followed by holding at 718°C (1325°F) for 16 h and air cooling. This treatment enhances high strength for the alloy.

Aging

This super alloy can be aged at 718°C (1325°F) for 16 h and air cooled to gain high strength. Prior to aging the alloy should solution heat treated.


Melted process

  • AOD+ESR

A286, X6NiCrTiMoVB25-15-2, 1.4980, SUH660, UNS S66286 - Chemical composition WT %

GradeChemical Composition WT %
CMnSiPSCrMoNiVTiAlBCe
X6NiCrTiMoVB25-15-2, 1.49800.03 - 0.081.0 - 2.0Max 1.00Max 0.025Max 0.01513.5 - 16.01.0 - 1.524.0 - 27.00.1 - 0.51.90 - 2.30Max 0.350.003 - 0.010-
SEW 390 X5NiCrTiMoV26-15, 1.3980Max 0.8Max 2.0Max 1.0Max 0.030Max 0.01513.5 - 16.01.0 - 1.524.0 - 27.00.1 - 0.51.9 - 2.3Max 0.350.003 - 0.010-
X5NiCrTiMoVB25-15-2, 1.4606Max 0.081.0 - 2.0Max 1.00Max 0.025Max 0.01513.0 - 16.01.0 - 1.524.0 - 27.00.1 - 0.51.90 - 2.30Max 0.350.001 - 0.010-
Z5NCTDV25-15B, XN26AW, X.N26A.WMax 0.05Max 2.00Max 0.75Max 0.030Max 0.01513.5 - 16.01.0 - 1.524.0 - 27.00.1 - 0.51.80 - 2.30Max 0.400.0025- 0.008-
08Ch15N25T2MFR, EP674, 08Kh15N25T2MFR, 08Х15Н25Т2МФР, ЭП674Max 0.081.2 - 1.7Max 0.70Max 0.020Max 0.01514.0 - 16.01.1 - 1.624.0 - 26.00.2 - 0.41.90 - 2.40Max 0.30Max 0.0100Max 0.01
Z6NCTDV15-15B, X.N26T.W, XN26TW, X.N 26 T.W0.03 - 0.08Max 2.00Max 1.00Max 0.020Max 0.01513.5 - 16.01.0 - 1.524.0 - 27.00.1 - 0.51.90 - 2.30Max 0.350.0025 - 0.008-
LW X4NiCrTi25-15, 1.4944, LW 4944Max 0.08Max 2.00Max 1.00Max 0.025Max 0.01513.5 - 16.01.0 - 1.524.0 - 27.00.1 - 0.51.90 - 2.30Max 0.350.003 - 0.010-
UNS S66286, K66286Max 0.08Max 2.00Max 1.00Max 0.040Max 0.03013.5 - 16.01.0 - 1.524.0 - 27.00.1 - 0.51.90 - 2.35Max 0.350.001 - 0.010-
A-286, Alloy 286, Grade 660Max 0.08Max 2.00Max 1.00Max 0.040Max 0.03013.5 - 16.01.0 - 1.524.0 - 27.00.1 - 0.51.90 - 2.35Max 0.350.001 - 0.010-
06Cr15Ni25Ti2MoAlVB, GH 2132, GH132Max 0.08Max 2.00Max 0.04Max 0.040Max 0.03013.5 - 16.01.0 - 1.524.0 - 27.00.1 - 0.51.90 - 2.35Max 0.350.001 - 0.010-

Mechanical Property of A286, X6NiCrTiMoVB25-15-2, 1.4980, SUH660, UNS S66286

Mechanical properties
Tensile strengthRm900 - 1150 MPa
Yield pointRe> 600 MPa
ElongationA> 15%
Densityρ8.00 kg/dm3
Modulus of elasticityE211 GPa
Coefficient of thermal expansionα17.0 - 18.5 ⋅ 10-1
Heat conductivityλ20℃13 W ⋅ m-1

Physical Property of A286, X6NiCrTiMoVB25-15-2, 1.4980, SUH660, UNS S66286

PropertiesMetricImperial
Density7.9 g/cm30.286 lb/in3
Melting point1399°C2550°F

Welding of A286, X6NiCrTiMoVB25-15-2, 1.4980, SUH660, UNS S66286

Welding processes of super alloy Pyrotool A are similar to that of stainless steels. The area to be welded has to be properly cleaned. Preheating or post welding heat treatment is not required.


Machining of A286, X6NiCrTiMoVB25-15-2, 1.4980, SUH660, UNS S66286

Super alloy Pyrotool A can be machined using all the common processes. Cemented carbide tools are recommended for use during turning operations.


Equivalent grades of A286, X6NiCrTiMoVB25-15-2, 1.4980, SUH660, UNS S66286

A286, UNS S66286, 660, X6NiCrTiMoVB25-15-2, 1.4980, 1.4980, 1.3980, 1.4606, 1.4944, X 6 NiCrTiMoVB 25-15-2, 4980, X5NiCrTiMoVB25-15-2, 1.4606, Z5NCTDV25-15B, Z 5 NCTDV 25-15 B, XN26AW, X.N26A.W, 08Ch15N25T2MFR, EP674, EP 674, 08Х15Н25Т2МФР, ЭП674, Z6NCTDV15-15B, Z 6 NCTDV 15-15 B, X.N26T.W, XN26TW, X.N 26 T.W, X4NiCrTi25-15, 1.4944, LW 4944, S66286, S 66286, K66286, K 66286, A-286, A 286, Alloy 286, 06Cr15Ni25Ti2MoAlVB, EZ6NCT25, FE-PA2601, FE-PA92-HT, Grade 660, DIN 1.4944, DIN X6NiCrTiMoV26-15, DIN 1.4944.4, DIN 1.4980, DIN X5NiCrTi26-15, DIN X6NiCrTiMoVB25-15-2, AFNOR X6NiCrTiMoV26-15, AFNOR X6NiCrTiMoVB25-15-2, BS X6NiCrTiMoV26-15, BS X6NiCrTiMoVB25-15-2, AISI S66286, AISI HEV-7, SAE 660, SAE S66286, SAE HEV-7, JIS SUH660, JIS SUS616, EN X6NiCrTiMoV26-15, EN 1.4944, EN X6NiCrTiMoVB25-15-2, EN 1.4980, UNS S66286, ISO X6NiCrTiMoVB25-15-2, ISO 4606-661-86-X, ISO 4980-662-86-X, ISO PM42J

A286, X6NiCrTiMoVB25-15-2, 1.4980, SUH660, UNS S66286 Nickel and High Temperature Alloys stock list

Grade Shape Dimensionmm Qty.kg
A286 Round bar Φ8mm 0.914
A286 Round bar Φ16.50mm 818
A286 Round bar Φ18mm 292
A286 Round bar Φ25mm 989
A286 Round bar Φ26mm 1565
A286 Round bar Φ125mm 1689
A286 Round bar Φ155mm 3986
A286 Round bar Φ185mm 6985