Name: Pure Nickel Wire Nickel201/N 02201/2.4061/N7 For Corrosion Resistance High Temperatures And Low-Carbon Applications
Brand: Jiangyin Chengxin Alloy Material Co., Ltd ，
SKU: Nickel201/N 02201/2.4061/N7
Availability: InStock

Pure Nickel Wire Nickel201/N 02201/2.4061/N7 For Corrosion Resistance High Temperatures And Low-Carbon Applications

MOQ:	5kg
Standard Packaging:	Packed with waterproof paper or weave bag, into pallets or wooden case. Special packaging requirements can also be accommodated.
Delivery Period:	3 days
Payment Method:	T/T, D/P
Supply Capacity:	30 Tons per day

Chemical Processing Equipment: Nickel 201’s excellent resistance to corrosion in acidic and alkaline environments makes it ideal for use in chemical reactors, piping, tanks, and heat exchangers in industries such as petrochemical and chemical manufacturing.
Heat Exchangers: Its ability to maintain strength and resistance to corrosion at elevated temperatures makes Nickel 201 a popular choice for heat exchangers, especially in industries dealing with aggressive chemicals or high-temperature processes.
Food Processing: Due to its non-toxic properties and corrosion resistance, Nickel 201 is used in the food processing industry for equipment like food tanks, containers, and processing vessels that come into contact with food products.
Aerospace Components: Nickel 201 is used in the aerospace industry for components exposed to high temperatures, such as heat shields, turbines, and engine components, where high-temperature stability and corrosion resistance are critical.
Marine Applications: Nickel 201 is utilized in marine environments for components like seawater piping, valves, and heat exchangers due to its resistance to seawater corrosion.
Electrical and Electronics: The alloy's good electrical and thermal conductivity makes it suitable for electrical components, connectors, switches, and other applications where stable performance under varying temperatures is needed.
Nuclear Industry: Due to its resistance to radiation damage and high-temperature stability, Nickel 201 is used in nuclear reactor components, particularly in heat exchangers and coolant systems.
Pharmaceutical Equipment: Nickel 201’s biocompatibility and resistance to corrosive substances make it an ideal choice for pharmaceutical manufacturing equipment, such as reactors and mixing tanks, where cleanliness and durability are essential.
Furnace Components: Nickel 201 is used in furnace linings and other high-temperature applications where the alloy must withstand prolonged exposure to heat without degradation.

In summary, Nickel 201’s combination of high-temperature stability, corrosion resistance, and weldability makes it ideal for demanding applications in chemical, food processing, aerospace, marine, and nuclear industries.

Chemical Processing Equipment: Nickel 201’s excellent resistance to corrosion in acidic and alkaline environments makes it ideal for use in chemical reactors, piping, tanks, and heat exchangers in industries such as petrochemical and chemical manufacturing.
Heat Exchangers: Its ability to maintain strength and resistance to corrosion at elevated temperatures makes Nickel 201 a popular choice for heat exchangers, especially in industries dealing with aggressive chemicals or high-temperature processes.
Food Processing: Due to its non-toxic properties and corrosion resistance, Nickel 201 is used in the food processing industry for equipment like food tanks, containers, and processing vessels that come into contact with food products.
Aerospace Components: Nickel 201 is used in the aerospace industry for components exposed to high temperatures, such as heat shields, turbines, and engine components, where high-temperature stability and corrosion resistance are critical.
Marine Applications: Nickel 201 is utilized in marine environments for components like seawater piping, valves, and heat exchangers due to its resistance to seawater corrosion.
Electrical and Electronics: The alloy's good electrical and thermal conductivity makes it suitable for electrical components, connectors, switches, and other applications where stable performance under varying temperatures is needed.
Nuclear Industry: Due to its resistance to radiation damage and high-temperature stability, Nickel 201 is used in nuclear reactor components, particularly in heat exchangers and coolant systems.
Pharmaceutical Equipment: Nickel 201’s biocompatibility and resistance to corrosive substances make it an ideal choice for pharmaceutical manufacturing equipment, such as reactors and mixing tanks, where cleanliness and durability are essential.
Furnace Components: Nickel 201 is used in furnace linings and other high-temperature applications where the alloy must withstand prolonged exposure to heat without degradation.

Alloy	Ni	Mn	Fe	Si	Cu	C	Ti
Ni200	≥ 99.2	≤ 0.30	≤ 0.20	≤ 0.10	≤ 0.20	≤ 0.10	≤ 0.10
Ni201	≥ 99.2	≤ 0.30	≤ 0.20	≤ 0.10	≤ 0.20	≤ 0.05	≤ 0.10
Ni205	≥ 99.6	≤ 0.20	≤ 0.20	≤ 0.10	≤ 0.10	≤ 0.05	≤ 0.05

Type	Dia. (mm)	Width (mm)	Thickness (mm)
Wire	0.04 - 12.0	-	-
Ribbon	-	2.0	≥ 0.08

Alloy	Density (g/cm³)	Thermal Conductivity (W/m K)	Thermal Linear Expansion Coeff. (20-95 ℃) (10^-6/K)	Electrical Resistivity at 20 ℃ (μΩ-cm)
Ni200/201	8.89	70.20	13.3	9
Ni205	8.89	75.00	13.3	8.9

Alloy	Tensile strength (N/mm²)		Elongation (% at L₀=100mm)
Alloy	Min	Max	Min	Max
Ni200/201	400	550	20	30
Ni205	400	530	20	30

Alloy	Ni	Mn	Fe	Si	Cu	C	Ti
Ni200	≥ 99.2	≤ 0.30	≤ 0.20	≤ 0.10	≤ 0.20	≤ 0.10	≤ 0.10
Ni201	≥ 99.2	≤ 0.30	≤ 0.20	≤ 0.10	≤ 0.20	≤ 0.05	≤ 0.10
Ni205	≥ 99.6	≤ 0.20	≤ 0.20	≤ 0.10	≤ 0.10	≤ 0.05	≤ 0.05

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