Jethete M152 Nickel alloy steel

Jethete M152 consists of nickel,iron, titanium,and chromium. Jethete M152 is not stainless,therefore,it will acquire a red-brown oxide film when exposed to outdoor environments.
Jethete M152 Nickel alloy similar material are :UNS S64152
This grade is a high strength Alloy Steel has very good toughness and creep rupture strength. Excellent for use in highly stressed turbine blades as well as turbine discs, screws, shafts, bolts, pins and rings.

Jethete M152 Nickel alloy steel
Jethete M152 chemical composition :

C Cr Si Ni V Mn S Mo N Fe
Min 0.08 11.00 2.00 0.25 0.50 1.50 0.01
Max 0.15 12.50 0.20 3.00 0.40 0.90 0.013 2.00 0.05 Bal

Jethete M152 Mechanical Property:

Tensile Strength, N/mm21 Yield Strength 0.2%, N/mm2 Elongation % Reduction of Area % Impact Strength KCU, J/CM2
1150 800 14 120

Jethete M152 Product form and Specifications:

Product Specifications
Alloy Sheet/Plate/Strip/Coil AMS5719, ASTM A565 (XM-32), S151, MSRR6503, 1.4933, Z15CNDV-12, S159, S538

Invar 36 alloy steel

Invar 36 Is a low coefficient of expansion of special low expansion iron nickel alloy. The control of carbon and manganese is very important. Cold deformation can reduce thermal expansion coefficient,Alloy 36 is used for measuring devices, laser components, thermostat rods, and transporting liquefied gases . At room temperature drying Invar 36 has corrosion resistance in the air. In other conditions, such as moisture in the air, Invar 36 is likely to occur corrosion.
Invar 36 Nickel alloy similar material are:UNS K93600,W. Nr.1.3912
Invar 36 Application field are:
Invar 36 applications that require a very low coefficient of expansion of the environment.
LPG production, storage and transportation
Operating temperature is lower than + 200 ℃ following measurement and control instruments, such as thermostats
Metal screw connection between the bushing and other materials
Bimetal and bimetal thermostat
Film frame
Mask
CRP components of the aviation industry tempered mold
Satellite and missile electronic control unit frame of less than -200 ℃
Laser control means electromagnetic lens auxiliary tube

Invar 36 alloy steel
Invar 36 alloy steel chemical composition:

Alloy % Ni Cr Fe C Mn Si Co Mo P S
Invar 36 Min 35 balance
Max 38 0.5 0.1 0.06 0.35 1.0 0.5 0.02 0.025

Density: rho = 8.1 g/cm3
2. Range of melting temperature: 1430 ℃
3. Curie temperature: 230 ℃
4. Specific heat: 515 j/Kg

Invar 36 alloy steel Mechanical Property:

Grade Yield strength
Rm N/mm2
tensile strength
RP0.2N/mm2
Elongation
A5 %
HB
Invar 36 490 240 42 ≤200

HastelloyB-2 nickel alloy steel

HastelloyB-2 control of iron and nickel-based alloy in the lowest concentration of chromium to prevent the generation of β-phase Ni4Mo on the reducing environment of excellent corrosion resistance, excellent resistance to moderate concentrations of sulfuric acid and a number of non-oxidizing acid corrosion, it is ability to restore good resistance to chloride ion stress corrosion cracking (SCC), a variety of excellent corrosion resistance to acids.

HastelloyB-2 nickel alloy steel
HastelloyB-2 Nickel base alloy Chemical composition

C Cr Fe Mo Si Cu Mn Co P S
Min 0.4 1.6 26.0
Max 0.01 0.7 2.0 30.0 0.08 0.5 1.0 1.0 0.02 0.01

HastelloyB-2 Nickel base alloy Physical Properties

Density Melting point
ρ=9.2g/cm3 1330~1380℃

Hastelloy X nickel alloy steel

Hastelloy X is a nickel-chromium-iron-molybdenum superalloy with outstanding high temperature strength, oxidation resistance, and fabricability. Alloy X’s oxidation resistance is excellent up to 2200° F. This nickel steel alloy has also been found to be exceptionally resistant to stress-corrosion cracking in petrochemical applications. Matrix stiffening provided by the molybdenum content results in high strength in a solid-solution alloy having good fabrication characteristics. Although this nickel alloy is primarily noted for heat and oxidation resistance it also has good resistance to chloride stress-corrosion cracking, carburization, and excellent resistance to reducing or carburizing atmospheres. Two common conditions that often lead to early failure in high temperature alloys, carburization and nitriding, Hastelloy X resists.
Hastelloy X Nickel alloy similar material are :UNS NO6002
Hastelloy X Nickel alloy usually used in the following industries :
Gas turbines
Petrochemical industry
Industrial furnaces
Heat treating equipment
Nuclear engineering
Jet engine combustion chambers
Aircraft cabin heaters
Turbine exhaust components

Hastelloy X nickel alloy steel
Hastelloy X Nickel base alloy Chemical Composition, %

Ni Mo Cr Fe W Co Mn C
Remainder 8.0-10.0 20.5-23.0 17.0-20.0 0.2-1.0 0.5-2.5 1.0 max 0.05-0.15
P S Si Al Ti B Cu P
0.04 max 0.03 max 1.0 max 0.50 max 0.15 max 0.01 max 0.50 max 0.04 max

Hastelloy X Nickel base alloy Mechanical Property:

Temp° F Tensile (psi) .2% Yield (psi) Elongation in 2° %
70 110,600 54,900 44
1000 89,000 35,600 49
1200 83,000 35,400 54
1400 67,000 34,400 53
1600 45,000 28,200 58

Hastelloy X Nickel base alloy characteristics:
Outstanding oxidation resistance through 2000° F
Resistant to carburization and nitriding
Excellent high temperature strength
Good resistance to chloride stress-corrosion cracking
Alloy X is one of the most widely used nickel base superalloys for gas turbine engine combustion zone components such as transition ducts, combustor cans, spray bars and flame holders as well as in afterburners, tailpipes and cabin heaters. It is recommended for use in industrial furnace applications because it has unusual resistance to oxidizing, reducing and neutral atmospheres. Hastelloy X is also used in the chemical process industry for retorts, muffles, catalysts support grids, furnace baffles, tubing for pyrolysis operations and flash drier components.
Fabrication with Hastelloy X
Alloy X has excellent forming and welding characteristics. It can be forged and, because of its good ductility, can be cold worked. It can be welded by both manual and automatic methods including shielded metal arc, gas tungsten arc, gas metal arc and submerged arc processes. The alloy can also be resistance welded. For hot forming, the alloy should be heated to a starting temperature of 2150° F (1175°C).
Hastelloy X Product form and Specifications:

Sheet/Plate B435
Bar B572

Hastelloy C-2000 alloy steel

Product : Hastelloy C-2000

Hastelloy C-2000 alloy steel
Hastelloy C-2000 Chemical composition :

C Cr V Fe Cu Mn Si P S Mo
0.01 23 0.35 3 ≤1.6 ≤0.5 ≤0.08 ≤0.02 0.08 16

Hastelloy C-2000 Physical properties

Density Melting point Hardness HRC
8.5g/cm3 1399℃ 90

Hastelloy C-2000 alloy steel Characteristics: corrosion resistance, including sulfuric acid, hydrochloric acid, hydrofluoric acid, phosphoric acid, an organic acid, alkali chloride, pitting, crevice corrosion, stress corrosion cracking.
Hastelloy C-2000 application : reactors, heat exchangers, valves, pumps, etc.

Hastelloy C276 alloy steel

Hastelloy C276 is a kindly of Nickel base anti-corrosion alloy with many excellent performance, good for oxidation and reduction of medium corrosion resistance ability. There are only several material has damp resistance Chlorine, hypochlorite and chlorine dioxide solution corrosion, Hastelloy C276 alloy is one of them.
Hastelloy C276 Nickel alloy similar material are:UNS N10276,DIN W.Nr.2.4819,NiMo16Cr15W
Hastelloy C276 Nickel alloy usually used in the following industries :
The nuclear power industry, chemical processing, pollution control
Pipe, evaporator transmission chemical, petroleum industry
Reactor of acetic acid and acidic products
The heat exchanger, the reaction kettle
Equipment and components operating in the acid gas in the environment
Sulfuric acid condenser.

Hastelloy C276 alloy steel
Hastelloy C276 Nickel base alloy chemical composition :

Ni Cr Fe C Mn Si Mo W Co V P S
minimum balance 15.0 4.0 15.0 3.0 0.1
maximum 16.5 7.0 0.01 1.0 0.08 17.0 4.5 2.5 0.3 0.015 0.01

Hastelloy C276 Nickel base alloy Mechanical Property:

Product Form θ/℃ Tensile Strength MPa Yield Strength Elongation δ5 /%
Tube/pipe 20 ≥727 ≥313 ≥70
Sheet/Plate 20 ≥741 ≥347 ≥67
Bar/Rod 20 ≥758 ≥363 ≥62
Strip/Coil 20 ≥796 ≥376 ≥60

Hastelloy C276 alloy melting point : 1325-1370 ℃
Hastelloy C276 Nickel density : 8.90 g/cm3
Hastelloy C276 alloy material hot working:
1 . The temperature range of thermal processing 1200 to 950 DEG C, is water cooling and rapid air cooling.
2 . In order to ensure the best performance of corrosion, heat processing should be performed after the heat treatment, the work should be added directly to heat treatment furnace heated.
Hastelloy C276 alloy material Cold working
1 . The work hardening rate is greater than the austenitic stainless steel, so it is necessary to processing equipment Selected. The work should be as solid solution heat treatment state, and should have the intermediate annealing during cold rolling.
2 . If the cold rolling deformation amount is greater than 15% to the workpiece, two solid solution treatment.
Hastelloy C276 alloy Heat treatment
1. Solid solution treatment temperature range is 1100 to 1160 DEG C.
The method of cooling water quenching, the thickness of less than 1.5mm material can also adopt the rapid air cooling. If the use of air cooling, it should be from 1000 DEG C, cooling to 600 DEG C in 2 minutes.
Hastelloy C276 Product form and Specifications:

Product ASTM ASME
Alloy Sheet/Plate/Strip/Coil B575 SB575
Seamless alloy tube/Pipe B622 SB622
Welded alloy tube/pipe B619/B622 SB619/SB622
Ring/Bar/Rod B574 SB574
Forged product B564 SB564
Fittings/Flange B336 SB336

Hastelloy B Nickel base alloy

Extremely low silicon content of carbon, nickel molybdenum alloy Hastelloy B, reduces the welding heat affected zone of precipitation of carbon and other impurity phases, so the weld also has anti corrosive enough. Hastelloy B alloy has good corrosion resistance in reducing media, such as a variety of temperature and concentration of hydrochloric acid solution. In sulfuric acid medium concentration (or contain a certain amount of chloride ion) also has the advantages of corrosion resistance is very good. At the same time, can also be used for acetic acid and phosphoric acid environment. Alloy materials are only in metallographic suitable and pure crystal structure has the best corrosion resistance.
Hastelloy B Nickel alloy similar material are : UNS N10001
Hastelloy B Nickel alloy application :
Alloy Hastelloy B is widely used in the field of energy production and pollution control, chemical, petrochemical, especially in the sulfuric acid, hydrochloric acid, phosphoric acid, acetic acid industry.

Hastelloy B Nickel base alloy
Hastelloy B Nickel base alloy chemical composition :

 

 

Ni Cr Fe C Mn Si Mo Si Co V P S
Min balance 4.0 26 0.2
Max 1.0 6.0 0.05 1.0 1.0 30 1.0 2.5 0.4 0.04 0.03

Hastelloy B Nickel base alloy Mechanical Property:

Product Form Tensile Strength MPa Yield Strength Elongation δ5 /%
Tube/pipe ≥690 ≥310 ≥40
Sheet/Plate ≥690 ≥310 ≥40
Bar/Rod ≥690 ≥310 ≥40
Strip/Coil ≥690 ≥310 ≥40

Hastelloy B alloy melting point : 1330-1380 ℃
Hastelloy B Nickel density : 9.24 g/cm3
Hastelloy B Product form and Specifications:

Product ASTM ASME
Alloy Sheet/Plate/Strip/Coil B575 SB575
Seamless alloy tube/Pipe B622 SB622
Welded alloy tube/pipe B619/B622 SB619/SB622
Ring/Bar/Rod B574 SB574
Forged product B564 SB564
Fittings/Flange B336 SB336

AL-6XN steel

AL-6XN alloy (UNS N08367) is a low carbon, high purity, nitrogen-bearing “super-austenitic” stainless alloy. The AL6XN alloy was designed to be a seawater resistant material and has since been demonstrated to be resistant to a broad range of very corrosive environments. The high strength and corrosion resistance of the AL6XN alloy make it a better choice than the conventional duplex stainless steels and a cost effective alternative to more expensive nickel-base alloys where excellent formability, weldability, strength and corrosion resistance are essential.
AL-6XN Nickel alloy similar material are:UNS N08367
AL-6XN Nickel alloy usually used in the following industries :
FGD Scrubbers
Reverse Osmosis
Distillation Columns
Offshore Oil and Gas
Heat Exchangers

AL-6XN steel
AL-6XN chemical composition :

Cr Ni Mo C N Mn Si P S Cu Fe
MIN 20.00 23.50 6.00 0.18
MAX 22.00 25.50 7.00 0.03 0.25 2.00 1.00 0.04 0.03 0.75 Balance

AL-6XN Mechanical Property:

Ultimate Tensile Strength, ksi 0.2% Yield Strength, ksi Elongation Hardness MAX, HRC
95 45 30 30.5

Fabrication
The low carbon and high nitrogen contents in AL-6XN alloy steel minimize the precipitation of carbides and secondary phases that can occur during welding. Therefore as-welded assemblies can be placed in service, provided a sui
Corrosion Resistance
AL-6XN has excellent corrosion resistance in high chloride environments as well as many acids. Below is a quick summary of the critical pitting and crevice corrosion resistance compared to many other alloys. AL-6XN has improved properties over stainless steels and all duplex grades. The practical immunity to chloride stress corrosion cracking has pushed AL-6XN into many seawater applications including seawater reverse osmosis. The resistance to acid and chloride environments is proven by over 20 years of service in the flue gas desulfurization process at coal fired electric power plants.
AL-6XN Product form and Specifications:

Product ASTM ASME
Alloy Sheet/Plate/Strip/Coil B688 SB688
Seamless alloy Pipe B312/B358 SB312/SB358
Seamless alloy tube B269/B270 SB269/SB270
Ring/Bar/Rod B691 SB691

 

Inconel 718 alloy steel

Inconel 718 alloy steel is a precipitation hardening nickel-based high temperature high-strength alloy
Inconel 718 has a temperature range of -253 ~ 700 ℃ good overall performance, the yield strength of 650 ℃ or less in the first place wrought superalloy, and has a good anti-fatigue, anti-radiation, anti-oxidation, corrosion resistance, and good workability, weldability and long-term organizational stability, capable of producing complex parts of various shapes in space, nuclear energy, oil industry, in the above temperature range obtained a very wide range of applications.
Another characteristic of the alloy is an alloy of tissue is particularly sensitive to thermal processing, master alloy phase precipitation and dissolution of the relationship between law and technology organization, performance, and between, for different application requirements to develop a reasonable and feasible process of order, It can get to meet the different intensity levels and use requirements of the various parts.

Inconel 718 alloy steel

Chemical composition of Inconel 718

Grades C Mn Si P S Cr Ni Cu Ti Al
Inconel 718 ≤0.08 ≤0.35 ≤0.015 ≤0.035 ≤0.015 17-21 50-55 ≤0.3 0.65-1.15 0.2-0.8

Performance of Inconel 718 alloy steel

Density[g/cm3] Melting point[℃] tensile strength[Rm N/mm2] Yield Strength[RP0.2N/mm2] Elongation[A5%] Hardness[HB]
8.2 1260-1340 965 550 30 ≤363

Different standard grades of Inconel X-750

GB UNS SEW VDIUV AFNOR BS
Inconel 718 GH4169 N07718 W.Nr.2.4668 NiCr19Fe19Nb5Mo3 NC19FeNb NA 51

Monel 400 steel

Monel 400 is a nickel-copper alloy (about 67% Ni – 23% Cu) that is resistant to sea water and steam at high temperatures as well as to salt and caustic solutions. Monel 400 is a solid solution alloy that can only be hardened by cold working. This nickel alloy exhibits characteristics like good corrosion resistance, good weldability and high strength. A low corrosion rate in rapidly flowing brackish or seawater combined with excellent resistance to stress-corrosion cracking in most freshwaters, and its resistance to a variety of corrosive conditions led to its wide use in marine applications and other non-oxidizing chloride solutions.
Monel 400 Nickel alloy similar material are : UNS N04400, NiCu30Fe
Monel 400 Nickel alloy usually used in the following industries :
Marine engineering
Chemical and hydrocarbon processing equipment
Gasoline and freshwater tanks
Crude petroleum stills
De-aerating heaters
Boiler feed water heaters and other heat exchangers
Valves, pumps, shafts, fittings, and fasteners
Industrial heat exchangers
Chlorinated solvents
Crude oil distillation towers

Monel 400 steel

Monel 400 Nickel base alloy Chemical composition:

Ni Cr C Mn Si Mo Cu Co Al Ti
38-46 19.5-23.5 ≤0.025 ≤1.0 ≤0.5 2.5-3.5 1.5-3.0 ≤1.0 ≤0.2 0.6-1.2

Monel 400 Nickel base alloy Mechanical Properties (Typical room temperature Tensile Properties of Annealed Material)

Product Form Condition Tensile (ksi) .2% Yield (ksi) Elongation (%) Hardness (HRB)
Rod & Bar Annealed 75-90 25-50 60-35 60-80
Rod & Bar Cold-Drawn StressRelieved 84-120 55-100 40-22 85-20 HRC
Plate Annealed 70-85 28-50 50-35 60-76
Sheet Annealed 70-85 30-45 45-35 65-80
Tube&Pipe Seamless Annealed 70-85 25-45 50-35 75 max *

Monel 400 Nickel base alloy Product form and Specifications:

Product

ASTM
Pipe Seamless B165
Pipe Welded B725
Tube Seamless B163
Sheet/Plate B127
Ring/Bar/Rod B164
Forging B564
Fitting B366