Hastelloy B3 Alloy ASTM B619 B622 B626 N10675 Alloys Seamless Tubes Tubing

                   

Hastelloy B3 Alloy 2.4600 ASTM B619 B622 B626 N10675 is a nickel-molybdenum alloy with excellent resistance to pitting corrosion and stress corrosion cracking corrosion, thermal stability superior to that of Hastelloy Alloy B2. In addition, this nickel alloy has good resistance to knife-line and heat-affected zone attack. Alloy B3 also withstands sulfuricaceticformic and phosphoric acids, and other non-oxidizing media. Excellent resistance to hydrochloric acid at all concentrations and temperatures.

Hastelloy B3 Alloy N10675 2.4600 has poor corrosion resistance to oxidizing environments, therefore, it is not recommended for use in oxidizing media or in the presence of ferric or cupric salts because they may cause rapid premature corrosion failure. B3 alloy with outstanding resistance to hydrochloric and sulfuric acids in the as welded condition and excellent thermal stability.

Hastelloy B3 Alloy N10675 2.4600 alloy is an additional member of the nickel-molybdenum family of alloys with excellent resistance to hydrochloric acid at all concentrations and temperature. It also withstands sulfuric acidacetic acidformic acid and phosphoric acids, and other nonoxidizing media. B-3 alloy has a special chemistry designed to achieve a level of thermal stability greatly superior to that of its predecessors, e.g. Hastelloy B-2 alloy. B-3 alloy has excellent resistance to pitting corrosion, to stress-corrosion cracking and to knife-line and heat-affected zone attack.

Hastelloy B3 Alloy ASTM B619 B622 B626 N10675 Alloys Seamless Tubes Tubing

ASTM B622 N10675 Hastelloy B3 Hastelloy B3 Alloy Chemical Composition:

NiMoFeCCoCrMnSiTiWAlCuVPSZrNbTa
65.027-321.0-3.00.010 max3.0 max1.0-3.03.0 max0.10
max
0.20 max3.0 max0.50
max
0.20 max0.20 max0.030 max0.010 max0.10 max0.20 max0.20 max

Ni + Mo: 94.0-98.0

DIN 17744 2002 2.4600 NiMo29Cr Hastelloy B3 Alloy Chemical Composition:

NiMoFeCCoCrMnSiTiWAlCuVPSZrNb+Ta
65.026.0-32.01.0-6.00.010 max3.0 max0.5-3.03.0 max0.10
max
0.20 max3.0 max0.10-0.500.50 max0.20 max0.025 max0.015 max 0.40
max

DIN 17751 2002 NiMo29Cr 2.4600 Hastelloy B3 Alloy Mechanical Properties

Material GradeMatrial NumberTensile Strength
Rm
N/mm²(MPa)
min
Yield Strength
Rp0.2%
N/mm²(MPa)
min
Yield Strength
Rp 1.0%
N/mm²(MPa)
min
Elongation
(%)
Brinell Hardness
HBW 2.5/62.5
max
Hastelloy B3 Alloy2.460075034038040250

ASTM B622 N10675 Hastelloy B3 Nickel Alloy Mechanical Properties

Material GradeMatrial NumberTensile Strength
Rm
N/mm²
ksi(MPa)
min
Yield Strength
Rp0.2%
N/mm²(MPa)
min
Elongation
(%)
Hastelloy B3N10675110 (760)51 (350)40

Hastelloy B3 Alloy Specifications

Pipe SmlsWelded PipeTube SmlsWelded TubeSheet/PlateBarForgingFitting
B622B619B622B626B333B335B564B366
StandardsDesciption
ASTM B333Standard Specification for Nickel-Molybdenum Alloy Plate, Sheet, and Strip
ASTM B335Standard Specification for Nickel-Molybdenum Alloy Rod
ASTM B366Standard Specification for Factory-Made Wrought Nickel and Nickel Alloy Fittings
ASTM B564Standard Specification for Nickel Alloy Forgings
ASTM B619Standard Specification for Welded Nickel and Nickel-Cobalt Alloy Pipe
ASTM B622Standard Specification for Seamless Nickel and Nickel-Cobalt Alloy Pipe and Tube
ASTM B626Standard Specification for Welded Nickel and Nickel-Cobalt Alloy Tube
ASTM B704Standard Specification for Welded Alloy Tubes
ASTM B705Standard Specification for Nickel-Alloy Welded Pipe
DIN 17744 (2002/09)nickel-forgeable alloy with molybdenum and chrome
DIN 17750 (2002/09)ribbons and sheet metal out of nickel with nickel-wrought alloy properties
DIN 17751 (2002/09)tubes out of nickel with nickel-wrought alloy properties
DIN 17752 (2002/09)rod made from nickel with nickel-wrought alloy properties
DIN 17753 (2002/09)wire out of nickel with nickel-wrought alloy properties
VdTÜV / Werkstoffblatt 432/1extremely corrosion resistant nickel based alloy, niCr21Mo, material-nr. 2.4858 ribbon, sheet metal
VdTÜV / Werkstoffblatt 432/2432/2 extremely corrosion resistant nickel based alloy, NiCr 21 Mo, material-nr. 2.4858 seamless pipe
VdTÜV / Werkstoffblatt 432/3extremely corrosion resistant nickel based alloy, NiCr 21 Mo, material-nr. 2.3858 rod steel, forging

Characteristics of Hastelloy B3 Alloy N10675 2.4600

Maintains excellent ductility during transient exposures to intermediate temperatures;
Excellent resistance to pitting corrosion and stress-corrosion cracking;
Excellent resistance to knife-line and heat-affected zone attack;
Excellent resistance to acetic, formic and phosphoric acids and other non-oxidizing media;
Resistance to hydrochloric acid at all concentrations and temperatures;
Thermal stability superior to alloy B2.

Limiting Factors of Hastelloy B3 Alloy N10675 2.4600

Hastelloy B3 N10675 2.4600 has poor corrosion resistance to oxidizing environments, therefore, it is not recommended for use in oxidizing media or in the presence of ferric or cupric salts because they may cause rapid premature corrosion failure. These salts may develop when hydrochloric acid comes in contact with iron and copper. Therefore, if this nickel steel alloy is used in conjunction with iron or copper piping in a system containing hydrochloric acid, the presence of these salts could cause the alloy to fail prematurely.

Fabrication with Hastelloy B3 Alloy N10675

Problems associated with fabrication of alloy B-2 components should be minimized with Hastelloy B3 N10675 2.4600 due to its improved thermal stability. A low carbon content permits Hastelloy B3 N10675 2.4600 to be used in the as-welded condition. Hastelloy B3 N10675 has good overall forming and welding characteristics. This alloy can be forged or otherwise hot-worked, providing that it is held at 2250° F for a sufficient amount of time to bring the entire piece to temperature. Since it is a low carbon alloy, the use of lower hot finishing temperatures may be necessary to achieve grain size control. It may also be formed by cold working. Although it does work-harden somewhat rapidly, B-3 alloy components can be made using all common cold forming techniques. All common welding techniques may be used with Hastelloy B3 N10675 2.4600 , however, oxyacetylene and submerged arc welding processes are not recommended when the fabricated item is to be used in corrosive service.

Hastelloy B3 Alloy N10675 Corrosion Diagrams.

Alloy B3 Hastelloy B3


Hastelloy B3 Alloy Heat Treatment

All wrought forms of Hastelloy B3 N10675 alloy are furnished in the solution heat-treated condition unless otherwise specified. B-3 alloy is solution heat-treated at 1950°F (1065°C) and rapid quenched, except for bright annealed sheet or coil products which are heat-treated at 2100°F (1150°C) and cooled in hydrogen.

Available in Wrought Form

Hastelloy B3 Alloy N10675 alloy is available in the form of plate, sheet, strip, billet, bar, wire, pipe and tubing.

Hastelloy B3 Alloy N10675 Alloy Application

Hastelloy B3 alloy is suitable for use in all applications previously requiring the use of Hastelloy B-2 alloy. Like B-2 alloy, B-3 is not recommended for use in the presence of ferric or cupric salts as these salts may cause rapid corrosion failure. Ferric or cupric salts may develop when hydrochloric acid comes in contact with iron or copper.

Hastelloy B3 Alloy Modulus of elasticity ( GPa )216

Hastelloy B3 Alloy Physical Properties

Density ( kg/dm³ )9.22
Melting Point (°C )1418

Hastelloy B3 Alloy Thermal Properties

Maximum Working temperature in air ( °C )400

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