Nickel Coil
Nickel Coil

Creating the World's High-Performance Alloys.
Baosteel-alloy is the world leader in the invention, production and supply of high-nickel alloys for critical engineering.

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Description
Characteristics
Machining Data
Product NameNickel  Coil
TypeCoil
Thickness0.3-20mm
Length3000mm,5800mm,6000mm,9000mm,12000mm,etc.
Width40mm-600mm, 1000mm, 1219mm, 1500mm, 1800mm, 2000mm, 2500mm, 3000mm, 3500mm, etc
StandardASTM,JIS, AISI, GB, DIN, EN
SurfaceBA,2B,NO.1,NO.4,4K,HL,8K
CertificationISO, SGS
TechniqueCold Rolled, Hot Rolled
EdgeMill Edge  Slit Edge
QualitySGS Inspection
Price TermCIF CFR FOB EX-WORK
Payment Terms T/T  L/C and Western Union etc
ApplicationIt is widely used in high-temperature and electric industry, medical devices, construction, chemistry, food industry, agriculture, and ship components.It also applies to food and beverage packaging, kitchen supplies, trains, aircraft, conveyor belts, vehicles, bolts, nuts, springs, and screen mesh etc. 

INGREDIENT:

MATERIALSGBASME/ASTMDINJISSPECIFIC GRAVITY g/cm3 CONTENT
NICKELN4N022012.4068NLC8.999Ni-0.15Fe-0.2Mn-0.1Si-0.1Cu-0.10C
NICKELN6N022002.4066NNC8.999Ni-0.15Fe-0.2Mn-0.1Si-0.1Cu-0.10C
NICKEL
N022702.4050 
8.999.9Ni-0.02Fe-0.001Mn-0.002Si-0.005Cu-0.01C


Alloy Description
301 High work-hardening rate due to reduced chromium and nickel content.
302 General purpose material with greater corrosion resistance but less work hardening than Type 301. This is the basic alloy of the austenitic group often referred to as 18:8.
303 Phosphorus and sulfur added for easier machining. For heavier cuts in automatic machining operations.
304 Carbon lower to minimize carbide precipitation. Less heat sensitive than other 18:8 steels. Used in high-temperature applications.
304L Extra low carbon content to avoid harmful carbide precipitation in welding applications. Corrosion resistance comparable to Type 304.
316 Contains molybdenum for better corrosion resistance—particularly to pitting.
316L Carbon lower than Type 316 to avoid carbide precipitation in welding applications.
321 Titanium added to avoid chromium-carbide precipitation when heated. Good for welding.
410 Basic martensitic type. General purpose, heat-treatable type used wher ecorrosion is not severe.
410 HT Heat treated version of Type 410. Basic martensitic type. General purpose, used where corrosion is not severe.
416 Free machining variation of Type 410 by virtue of added sulfur.
420 Hardenable stainless steel, which can be hardened to approximately Rockwell C 50.
430F Free machining version of Type 430. Non-hardenable by thermal treatment and is used for heat resistance and corrosion resistance under many conditions. Excellent machinability and good forming.
440C A high carbon type. Can be heat treated for high strength and hardness. Greater abrasion and wear resistance for use in bearing and bushing applications. Corrosion resistant only in the hardened condition.
15-5 High strength, corrosion resistant and easy to heat treat. Use for high pressure applications.
17-4 Chromium, nickel, copper, columbium, tantalum, and carbon balanced for high corrosion resistance and hardening by heat treatment.
Type No. UNS No. Machinability* Drawing or Stamping Welding
301 S30100 40% Good Very good, tough welds.
302 S30200 40% Good Very good, tough welds.
303 S30300 70% Fairly Good Fusion welding not recommended.
304 S30400 45% Very Good Very good, tough welds.
304L S30403 44% Very Good Very good, recommend for welding.
316 S31600 45% Good Very good, tough welds.
316L S31603 45% Good Very good, recommended for welding.
321 S32100 38% Good Very good, tough welds.
410 S41000 60% Fairly Good Fair, pre-heat 400-500°F Anneal 1250°F after welding.
416 S41600 85% Fair Poor, pre-heat 400-500°F, Anneal 1250°F after welding.
420 S42000 52%    
430F S43020 85%    
440C S44004 40% Not Recommended Not Recommended
17-4 S17400 40%   Very good, tough welds.