Stainless Steel Hastelloy X Supplier | SS Hastelloy Manufacturers in Delhi, India

Stainless Hastelloy x Composition Supplier, Stainless Steel Hastelloy x Composition Manufacturer, Stainless Steel Hastelloy x Composition Provider.

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What alloys does SSSS Groups supply?

Below is a comprehensive list of our alloys arranged by type. More detailed information can be found on each alloys specific page. All of our products are purchased to normal industry standards and come with material test reports (MTR) also known as material certifications.

What product forms are available?

Coils
Bar
Rods
Angle
Flat
Channel
Polish Pipes
Welded Pipes
Seamless Pipes
Plate
Sheet
Pipe
Pipe Fittings
Flanges
Tube
Weld Wire

Super Alloy HASTELLOY(r) X alloy(tm)

Related Metals:

Specifications:

Altemp HX(tm)
Pyromet Alloy 680(tm)
Nicrofer 4722 Co(tm)
HASTELLOY ® X alloy
Nickelvac HX(tm)
HASTELLOY(r) X alloy
Alloy IHX
Pyromet 680(tm)

AISI 680
AMS 5536
AMS 5587
AMS 5588
AMS 5754
AMS 5798
ASTM B366
ASTM B435
ASTM B572
ASTM B619
ASTM B622
ASTM B626
DIN 2.4603
DIN 2.4665
GE B50A436
GE B50A463
GE B50T83A
GE B50TF24
GE B50TF25
GE B50TF31
PWA 1038
UNS N06002

Chemistry Data

Aluminum
Boron
Carbon
Chromium
Cobalt
Copper
Iron
Manganese
Molybdenum
Nickel
Phosphorus
Silicon
Sulphur
Titanium
Tungsten

0.5 max
0.008 max
0.05 - 0.15
20.5 - 23
0.5 - 2.5
0.5 max
17 - 20
1 max
8 - 10
Balance
0.04 max
1 max
0.03 max
0.15 max
0.2 - 1

General Information

Principal Design Features

A wrought nickel base alloy with excellent high temperature strength and oxidation resistance. It is very resistant to stress-corrosion cracking. All of the product forms are excellent in terms of forming and welding.

Applications

The alloy finds use in petrochemical process equipment and gas turbines in the hot combustor zone sections. Also used for structural components in industrial furnace applications because of the excellent oxidation resistance.

Machinability

The alloy is machinable by conventional methods and is similar to machining of the austenitic (300 series) stainless steels.

Forming

Cold working and forming of the various product forms can be done with standard tooling and processing.

Corrosion Resistance

Although this alloy is primarily noted for heat and oxidation resistance it also has good resistance to chloride stress-corrosion cracking and has good resistance to carburization.

Welding

Welding by conventional processes such as resistance welding, shielded metal arc, and MIG or TIG can readily be done with this alloy. Matching filler metal should be used. Preheating and/or post heating are not required.

Heat Treatment

The alloy usually is supplied in the solution annealed condition. This is accomplished at 2150 F followed by a rapid cooling.

Forging

Hot forging can be accomplished by conventional practice.

Hot Working

Same as forging.

Cold Working

Readily cold worked in a manner similar to that for austenitic (300 series) stainless steels except that this alloy is somewhat "stiffer" and may require more forming pressure. After severe cold working the product can be solution annealed as indicated

Annealing

Normally supplied and use in the solution treated condition, a 2050 F soak followed by rapid quench.

Aging

The alloy can be aged, after solution heat treatment, at temperatures of 1200 to 1600 F. Aging will result in a slight increase in strength and hardness with the effect being related to hours of exposure at the aging temperature - the longer the time the