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Cold Rolled Nickel B-3 / UNS N10675 Hastelloy Plate Alloy B3 Plate

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Cold Rolled Nickel B-3 / UNS N10675 Hastelloy Plate Alloy B3 Plate

China Cold Rolled Nickel B-3 / UNS N10675 Hastelloy Plate Alloy B3 Plate supplier
Cold Rolled Nickel B-3 / UNS N10675 Hastelloy Plate Alloy B3 Plate supplier Cold Rolled Nickel B-3 / UNS N10675 Hastelloy Plate Alloy B3 Plate supplier

Large Image :  Cold Rolled Nickel B-3 / UNS N10675 Hastelloy Plate Alloy B3 Plate

Product Details:

Place of Origin: CHINA
Brand Name: TISCO,BAO STEEL
Certification: SGS,ISO
Model Number: B3

Payment & Shipping Terms:

Minimum Order Quantity: 100 kgs
Price: 10-500 USD/KG
Packaging Details: Export packing
Delivery Time: 7 days
Payment Terms: T/T
Supply Ability: 1500 Tons every month
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Detailed Product Description
Name: Hastelloy Plate Type: Sheet / Plate
Application: Chemical Industrial Thickness: 0.03 - 1.00 Mm
Width: 3.0 - 330mm Surface Finish: Bright, Dull, HL(Hairline), Others.

 

Hastelloy Alloy B-3 / UNS N10675 Plate Corrosion Materials – Alloy B3 Plate

 

 

Hastelloy b3 sheet , Thick 0.03 - 1.00 mm, Width 3.0 - 330mm, Small quantity

HC-276, HC-22, ALLOY 600, ALLOY 625, ALLOY 718, ALLOY X750

and other Nickel alloys

Thickness 0.030 - 1.00 mm * Width 3.0 - 330 mm * strips/coils/sheets

Specification details

 

Type Cold Rolled Nickel alloys strips/ coils
Grade

HC-276, HC-22, ALLOY 600, ALLOY 625, ALLOY 718, ALLOY X750

<<Others>>

HASTELLOY, HAYNES, INCONEL, INCOLOY, MONEL,

RENE 41, WASPALOY

Finish Roll-Up(Hard),Skin pass(2B) others.
Surface finish Bright, Dull, Hair Line(HL), others.
Thickness 0.030 - 1.00mm
Width 3.0 - 300mm
Length Coil (strip) or sheet (Length100~2,000mm)
ID φ300,400,500mm (Inner Core)
MOQ 50kg ≤

 

Specifications which can adjusted to suit your needs.

Hardness(HV) , Tensile Strength(N/mm2,MPa) , Elongation(%) ,
Proof Stress , Surface Finish ,
Edge Condition(Slited Edge, Rolled Edge, De-burred Edge, etc.) ,
Camber(mm/1M) , Cross bow(mm/Width) , Coil set(mm/1M) ,Surface Roughness(Rmax, Rz, Ra)
Maximum OD , Coil Weight , Packing

 

 

The reason why you choose us

 

1. Small quantity, short time delivery

If we have stocks, we can ship from a minimum of 1 kg sample in a few days.
We also manufacture custom-order materials in amounts of 300 kg and up

(Some materials are allowed 50 kg) in as few as 3 weeks.

 

2. High-precision thickness

We guarantee thickness tolerances that cannot be reproduced by competitors.
Example:

t <0.30mm Tolerance ±1 - 3 μm guaranteed

0.30 mm≤t Tolerance ± 1% guaranteed

 

3. Ability to add multiple features

We are capable of adding a variety of features to metallic materials

(resin coating, plating, bonding different kinds of metal, multigage skiving, etc.).

 

4. Unique technology and custom-made solutions

We provide customed solutions to your problems with our unique

technologies and well versed knowledge of materials acquired through

our experience of manufacturing 50,000 items.

 

5. Choose the appropriate base metals for your needs

We carefully balance quality, delivery time and price,

procure various base metals from all over the world.

We manufacture appropriate products to your needs.

 

6. To control metal structure(chemical formation)

We can manufacture ultrafine metal structures with a grain size of 1 μm.
Using finer grain sizes provides benefits such as hardenability,

balancing strength and ductility, and precision press processing.

 

7. Lower total cost

We taking your processing into account,

offer you reduce a total cost by using our product.

 

8. Global network

Our plant located in Japan, Shanghai and Taiwan,

we also support flexibly local procurement and production transfer.

 

HASTELLOY B-3 alloy (UNS N10675) is an excellent resistance alloy to hydrochloric acid at all concentrations and temperatures. It also withstands sulfuric, acetic, formic 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.

Available Product Forms:
HASTELLOY B-3 alloy is available in the form of plate, sheet, strip, billet, bar, wire, pipe and tubing.

Specifications

Hastelloy B-3 is covered by the following specifications:

UNS N10675

Plate, Sheet, Strip: ASTM B333, ASME SB333,

Bar: ASTM B 335, ASME SB335, (DUAL CERTIFIED TO ASTM B564, ASME SB564 ON 3-1/2 DIA. AND UP)

Welded Pipe: ASTM B619, ASME SB619, CLASS I or II, (ABOVE 8 SCH 40) ASTM
B775, ASME SB775,

Seamless Pipe: ASTM B622, ASME SB622

Chemical Composition

Ni: 56
Co: 2.5
Cr: 22
Mo. 13
W. 3
Fe 3
Si 0.08 Max
Mn 0.50 Max
C 0.010 Max
V 0.35 Max
 

Hastelloy B2 (UNS N10665) Ni 68, Mo 28, Fe 2, Co 1, Cr 1 Description

Ni 68, Mo 28, Fe 2, Cr 1, C 0.02 Mn 1.0

 

High Performance Alloys stocks and produces Hastelloy B2 in this grade in the following forms: Bar, loose coil, sheet/plate, fasteners. Request Quote on this grade.

 

Overview

Hastelloy B2 is a nickel-molybdenum alloy with significant resistance to reducing environments, such as hydrogen chloride gas and sulfuric, acetic and phosphoric acids. Hastelloy B2 provides resistance to pure sulfuric acid and a number of non-oxidizing acids. The alloy should not be used in oxidizing media or where oxidizing contaminants are available in reducing media. Premature failure may occur if alloy B2 is used where iron or copper is present in a system containing hydrochloric acid.

Industry users like the resistance to a wide range of organic acids and the resistance to chloride-induced stress-corrosion cracking.

Hastelloy B2 resists the formation of grain boundary carbide precipitates in the weld heat-affected zone, making it suitable for most chemical process applications in the as-welded condition. The heat-affected weld zones have reduced precipitation of carbides and other phases to ensure uniform corrosion resistance.
Alloy B2 also has excellent resistance to pitting and stress corrosion cracking.

 

Applications

Superior resistance to hydrochloric acid, aluminum chloride catalysts and other strongly reducing chemicals. Excellent high-temperature strength in inert and vacuum atmospheres.

Hastelloy B2 is a nickel-molybdenum alloy particularly suited for equipment handling reducing chemical environments .

Applications in the chemical process industry involving sulfuric, phosphoric, hydrochloric and acetic acid. Temperature uses vary from ambient temperature to 1500°F depending on the environments (please call for technical advice).

 

Chemistry

Chemical Requirements

 

Ni

Mo

Fe

Cr

C

Si

Mn

Max

Bal.

30.0

2.0

1.0

0.02

0.10

1.0

Min

 

26.0

 

 

 

 

 

 

Tensile Data

Mechanical Property Requirements

 

Ultimate Tensile

Yield Strength (0.2% OS)

Elong. %

R/A

Hardness Rockwell

 

Min 110 Ksi 51 KSi 40    
Max          
Min 760 MPa 350 MPa      
Max          

 

Specifications

UNS

UNS N10665

Bar

ASTM B335 ASME SB335

Wire

 

Sheet

ASTM B333

Plate

ASTM B333 ASME SB333

Fitting

ASTM B366 ASME SB366

Forging

ASTM B564

Weld Wire

A5.14 ERNiMo-7

Weld Electrodes

ASME SFA 5.11(ENiMo-7) AWS A5.11 (ENiMo-7)

 

Seamless Pipe/Tube

ASTM B622 ASME SB622

Welded Pipe

ASTM B619 ASME SB619

Welded Tube

ASTM B626 ASME SB626

Bare Weld Rods

ASME SFA 5.14(ENiMo-7)

Din

2.4617

 

Formability
Hastelloy B2 does work harden, but can be formed when the proper precautions are taken. Sheet (0.063" thick) in the heat treated condition at 1950°F and rapid quenched has an average olsen cup depth of 0.57" or 14.5mm.

Welding
Hastelloy B2 resists the formation of grain boundary carbide precipitates in the weld heat-affected zone, making it suitable for most chemical process applications in the as-welded condition. The heat-affected weld zones have reduced precipitation of carbides and other phases to ensure uniform corrosion resistance.

 

Machining

 

Machinability Ratings

 

Nickel & cobalt base corrosion, temperature and wear-resistant alloys, such as Hastelloy B2, are classified as moderate to difficult when machining, however, it should be emphasized that these alloys can be machined using conventional production methods at satisfactory rates. During machining these alloys work harden rapidly, generate high heat during cutting, weld to the cutting tool surface and offer high resistance to metal removal because of their high shear strengths. The following are key points which should be considered during machining operations:

CAPACITY - Machine should be rigid and overpowered as much as possible.
RIGIDITY - Work piece and tool should be held rigid. Minimize tool overhang.
TOOL SHARPNESS - Make sure tools are sharp at all times. Change to sharpened tools at regular intervals rather than out of necessity. A 0.015 inch wear land is considered a dull tool.
TOOLS - Use positive rake angle tools for most machining operations. Negative rake angle tools can be considered for intermittent cuts and heavy stock removal. Carbide-tipped tools are suggested for most applications. High speed tools can be used, with lower production rates, and are often recommended for intermittent cuts.
POSITIVE CUTS - Use heavy, constant, feeds to maintain positive cutting action. If feed slows and the tool dwells in the cut, work hardening occurs, tool life deteriorates and close tolerances are impossible.
LUBRICATION - lubricants are desirable, soluble oils are recommended especially when using carbide tooling. Detailed machining parameters are presented Tables 16 and17. General plasma cutting recommendations are presented in Table 18.

 

Table 16
RECOMMENDED TOOL TYPES AND MACHINING CONDITIONS
Operations Carbide Tools
Roughing, with severe interruption Turning or Facing C-2 and C-3 grade: Negative rake square insert, 45 degree SCEA1, 1/32 in. nose radius. Tool holder: 5 degree neg. back rake, 5 degree neg. side rake. Speed: 30-50 sfm, 0.004-0.008 in. feed, 0.150 in depth of cut. Dry2, oil3, or water-base coolant4.
Normal roughing Turning or Facing C-2 or C-3 grade: Negative rate square insert, 45 degree SCEA, 1/32 in nose radius. Tool holder: 5 degree neg. back rake, 5 degree neg. side rake. Speed: 90 sfm depending on rigidity of set up, 0.010 in. feed, 0.150 in. depth of cut. Dry, oil, or water-base coolant.
Finishing Turning or Facing C-2 or C-3 grade: Positive rake square insert, if possible, 45 degree SCEA, 1/32 in. nose radius. Tool holder: 5 degree pos. back rake, 5 degree pos. side rake. Speed: 95-110 sfm, 0.005-0.007 in. feed, 0.040 in. depth of cut. Dry or water-base coolant.
Rough Boring C-2 or C-3 grade: If insert type boring bar, use standard positive rake tools with largest possible SCEA and 1/16 in. nose radius. If brazed tool bar, grind 0 degree back rake, 10 degree pos. side rake, 1/32 in. nose radius and largest possible SCEA. Speed: 70 sfm depending on the rigidity of setup, 0.005-0.008 in. feed, 1/8 in. depth of cut. Dry, oil or water-base coolant.
Finish Boring C-2 or C-3 grade: Use standard positive rake tools on insert type bars. Grind brazed tools as for finish turning and facing except back rake may be best at 0 degrees. Speed: 95-110 sfm, 0.002-0.004 in feed. Water-base coolant.
Notes:
1 SCEA - Side cutting edge angle or lead angle of the tool.

2 At any point where dry cutting is recommended, an air jet directed on the tool may provide substantial tool life increases. A water-base coolant mist may also be effective.

3 Oil coolant should be premium quality, sulfochlorinated oil with extreme pressure additives. A viscosity at 100 degrees F from 50 to 125 SSU.

4 Water-base coolant should be premium quality, sulfochlorinated water soluble oil or chemical emulsion with extreme pressure additives. Dilute with water to make 15:1 mix. Water-base coolant may cause chipping and rapid failure of carbide tools in interrupted cuts.

 

Table 17
RECOMMENDED TOOL TYPES AND MACHINING CONDITIONS
Operations Carbide Tools
Facing Milling Carbide not generally successful, C- grade may work. Use positive axial and radial rake, 45 degree corner angle, 10 degree relief angle. Speed: 50-60 sfm. Feed: 0.005-0.008 in. Oil or waterbase coolants will reduce thermal shock damage of carbide cutter teeth.
End Milling Not recommended , but C-2 grades may be successful on good setups. Use positive rake. Speed: 50-60 sfm. Feed: Same as high speed steel. Oil or water-base coolants will reduce thermal shock damage.
Drilling C-2 grade not recommended, but tipped drills may be successful on rigid setup if no great depth. The web must thinned to reduce thrust. Use 135 degree included angle on point. Gun drill can be used. Speed: 50 sfm. Oil or water-base coolant. Coolant-feed carbide tipped drills may be economical in some setups.
Reaming C-2 or C-3 grade: Tipped reamers recommended, solid carbide reamers require vary good setup. Tool geometry same as high speed steel. Speed: 50 sfm. Feed: Same as high speed steel.
Tapping Not recommended, machine threads, or roll-form them.
Electrical Discharge Machining The alloys can be easily cut using any conventional electrical discharge machining system (EDM) or wire (EDM).
Notes:
5 M-40 series High Speed Steels include M-41 , M-42, M-43, M-44, M-45 and M-46 at the time of writing. Others may be added and should be equally suitable.

6 Oil coolant should be a premium quality, sulfochlorinated oil with extreme pressure additives. A viscosity at 100 degree F from 50 to 125 SSU.

7 Water-base coolant should be premium quality, sulfochlorinated water soluble oil or chemical emulsion with extreme pressure additives. Dilute with water to make 15:1 mix.

 

Table 18
Plasma Arc Cutting
Hastelloy B2 can be cut using any conventional plasma arc cutting system. The best arc quality is achieved using a mixture of argon and hydrogen gases. Nitrogen gas can be substituted for hydrogen gases, but the cut quality will deteriorate slightly. Shop air or any oxygen bearing gases should be avoided when plasma cutting these alloys.

 

HASTELLOY® is a registered trademark of Haynes International, Inc.

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Brand Name
Speciality Metals UAE
 
Product Name
Hastelloy B3 Alloy - ASTM B333, ASME SB333, ASTM B 335, ASME SB335, ASTM B564, ASME SB564, ASTM B619, ASME SB619, CLASS I or II, ASTM B775, ASME SB775, ASTM B622, ASME SB622
 
Price
At Very Reasonable Prices
Product Availability
Available in Stock

Cold Rolled Nickel B-3 / UNS N10675 Hastelloy Plate Alloy B3 PlateCold Rolled Nickel B-3 / UNS N10675 Hastelloy Plate Alloy B3 Plate

Contact Details
JIANGSU MITTEL STEEL INDUSTRIAL LIMITED

Contact Person: Gao Ben

Tel: +8618068357371

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