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Inconel 625 DIN 2.4856 Hot Rolled Plate with High Temperature and Corrosion Resistance

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Inconel 625 DIN 2.4856 Hot Rolled Plate with High Temperature and Corrosion Resistance

MOQ:	50
Price:	16.5

Details Information

Product Description

Detail Information

Certification

AISI, ASTM

Model NO.:

Inconel 625

Shape:

Flat

Technique:

Hot Rolled

Surface Treatment:

Polished

Specification:

1220*2440, 1500*3000, 1500*6000, 2000*6000mm

Nickel Content:

58.0 Min.

Chromium Content:

20.0 Min.-23.0 Max.

Molybdenum Content:

8.0 Min.-10.0 Max.

Niobium Content:

3.15 Min.-4.15 Max.

Density:

8.44 G/cm3

Melting Range:

1290 - 1350°C

Yield Strength:

448 MPa

Ultimate Tensile Strength:

862 MPa

Elongation:

50%

Hardness:

200 Brinell

Highlight:

High Temperature Resistance Inconel 625 Plate

Corrosion Resistant Alloy 625 Sheet

Hot Rolled DIN 2.4856 Plate

Product Description

Inconel 625 Alloy 625 DIN 2.4856 Plate & Sheet

Alloy 625 is an austenitic nickel-chromium-molybdenum-niobium alloy offering exceptional corrosion resistance and high strength from cryogenic temperatures to 1800°F (982°C). Manufactured in the USA by SMC/ATI/HAYNES.

General Properties

The strength of Alloy 625 comes from solid-solution hardening of the nickel-chromium matrix by molybdenum and niobium, eliminating the need for precipitation-hardening treatments. This composition provides outstanding corrosion resistance in severe environments along with resistance to oxidation and carburization in high-temperature service.

Key Features:

Resistant to pitting, crevice corrosion, impingement corrosion, and intergranular attack
Virtually immune to chloride stress corrosion cracking
Excellent oxidation and carburization resistance up to 1800°F (982°C)
Easily welded and processed using standard shop fabrication practices

Applications

Aerospace Components: bellows, expansion joints, ducting systems, jet engine exhaust systems, engine thrust-reversers, turbine shroud rings
Air Pollution Control: chimney liners, dampers, flue gas desulfurization (FGD) components
Chemical Processing: equipment handling oxidizing and reducing acids, super-phosphoric acid production
Marine Service: steam line bellows, Navy ship exhaust systems, submarine auxiliary propulsion systems
Nuclear Industry: reactor core and control rod components, waste reprocessing equipment
Offshore Oil & Gas: waste flare gas stacks, piping systems, riser sheathing, sour gas piping and tubing
Petroleum Refining: waste flare gas stacks
Waste Treatment: waste incineration components

Standards Compliance

ASTM: B 443

ASME: SB 443

AMS: 5599

Chemical Composition

Element	Content (Weight %)	Element	Content (Weight %)
Nickel	58.0 min.	Silicon	0.50
Chromium	20.0-23.0	Phosphorus	0.015
Molybdenum	8.0-10.0	Sulfur	0.015
Iron	5.0	Aluminum	0.40
Niobium + Tantalum	3.15-4.15	Titanium	0.40
Carbon	0.10	Cobalt	1.0
Manganese	0.50

Physical Properties

Density: 0.305 lbs/in³ (8.44 g/cm³)

Specific Heat: 0.102 BTU/lb-°F (427 J/kg-°K)

Modulus of Elasticity: 30.1 × 10⁶ psi (207.5 GPa)

Thermal Conductivity: 75 BTU/hr/ft²/ft/°F (10.8 W/m-°K)

Melting Range: 2350-2460°F (1290-1350°C)

Electrical Resistivity: 50.8 Microhm-in at 70°C

Mechanical Properties at 68°F (20°C)

Property	Value
Yield Strength (0.2% Offset)	65,000 psi min. (448 MPa)
Ultimate Tensile Strength	125,000 psi min. (862 MPa)
Elongation in 2 in.	50% min.
Hardness	200 Brinell max.

Corrosion Resistance

Alloy 625 demonstrates outstanding corrosion resistance in severely corrosive environments. The combination of nickel and chromium provides resistance to oxidizing solutions, while nickel and molybdenum supply resistance in non-oxidizing environments. The alloy resists attack by mineral acids including hydrochloric, nitric, phosphoric, and sulfuric acids, as well as alkalis and organic acids.

Fabrication Data

Hot Forming

Working temperature range: 1650-2150°F (900-1177°C). Heavy working should occur near 2150°F with uniform reductions to prevent duplex grain structure.

Cold Forming

Can be cold-formed using standard practices in annealed condition. Work hardening rates are higher than austenitic stainless steels.

Welding

Readily welded by GTAW (TIG), PLASMA, GMAW (MIG/MAG), SAW and SMAW (MMA) processes. No post weld heat treatment required.

Machining

Should be machined in annealed condition using low cutting speeds and adequate cut depth to avoid work-hardened zones.

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Aluminum Material

Inconel 625 DIN 2.4856 Hot Rolled Plate with High Temperature and Corrosion Resistance

MOQ:	50
Price:	16.5

Detail Information

Product Description

Detail Information

Certification

AISI, ASTM

Model NO.:

Inconel 625

Shape:

Flat

Technique:

Hot Rolled

Surface Treatment:

Polished

Specification:

1220*2440, 1500*3000, 1500*6000, 2000*6000mm

Nickel Content:

58.0 Min.

Chromium Content:

20.0 Min.-23.0 Max.

Molybdenum Content:

8.0 Min.-10.0 Max.

Niobium Content:

3.15 Min.-4.15 Max.

Density:

8.44 G/cm3

Melting Range:

1290 - 1350°C

Yield Strength:

448 MPa

Ultimate Tensile Strength:

862 MPa

Elongation:

50%

Hardness:

200 Brinell

Minimum Order Quantity:

Price:

16.5

Highlight

High Temperature Resistance Inconel 625 Plate

Corrosion Resistant Alloy 625 Sheet

Hot Rolled DIN 2.4856 Plate

Product Description

Inconel 625 Alloy 625 DIN 2.4856 Plate & Sheet

General Properties

Key Features:

Resistant to pitting, crevice corrosion, impingement corrosion, and intergranular attack
Virtually immune to chloride stress corrosion cracking
Excellent oxidation and carburization resistance up to 1800°F (982°C)
Easily welded and processed using standard shop fabrication practices

Applications

Aerospace Components: bellows, expansion joints, ducting systems, jet engine exhaust systems, engine thrust-reversers, turbine shroud rings
Air Pollution Control: chimney liners, dampers, flue gas desulfurization (FGD) components
Chemical Processing: equipment handling oxidizing and reducing acids, super-phosphoric acid production
Marine Service: steam line bellows, Navy ship exhaust systems, submarine auxiliary propulsion systems
Nuclear Industry: reactor core and control rod components, waste reprocessing equipment
Offshore Oil & Gas: waste flare gas stacks, piping systems, riser sheathing, sour gas piping and tubing
Petroleum Refining: waste flare gas stacks
Waste Treatment: waste incineration components

Standards Compliance

ASTM: B 443

ASME: SB 443

AMS: 5599

Chemical Composition

Element	Content (Weight %)	Element	Content (Weight %)
Nickel	58.0 min.	Silicon	0.50
Chromium	20.0-23.0	Phosphorus	0.015
Molybdenum	8.0-10.0	Sulfur	0.015
Iron	5.0	Aluminum	0.40
Niobium + Tantalum	3.15-4.15	Titanium	0.40
Carbon	0.10	Cobalt	1.0
Manganese	0.50

Physical Properties

Density: 0.305 lbs/in³ (8.44 g/cm³)

Specific Heat: 0.102 BTU/lb-°F (427 J/kg-°K)

Modulus of Elasticity: 30.1 × 10⁶ psi (207.5 GPa)

Thermal Conductivity: 75 BTU/hr/ft²/ft/°F (10.8 W/m-°K)

Melting Range: 2350-2460°F (1290-1350°C)

Electrical Resistivity: 50.8 Microhm-in at 70°C

Mechanical Properties at 68°F (20°C)

Property	Value
Yield Strength (0.2% Offset)	65,000 psi min. (448 MPa)
Ultimate Tensile Strength	125,000 psi min. (862 MPa)
Elongation in 2 in.	50% min.
Hardness	200 Brinell max.

Corrosion Resistance

Fabrication Data

Hot Forming

Working temperature range: 1650-2150°F (900-1177°C). Heavy working should occur near 2150°F with uniform reductions to prevent duplex grain structure.

Cold Forming

Can be cold-formed using standard practices in annealed condition. Work hardening rates are higher than austenitic stainless steels.

Welding

Readily welded by GTAW (TIG), PLASMA, GMAW (MIG/MAG), SAW and SMAW (MMA) processes. No post weld heat treatment required.

Machining

Should be machined in annealed condition using low cutting speeds and adequate cut depth to avoid work-hardened zones.

Product Packaging

Tags: