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Categories | Nickel Alloy Flanges |
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Brand Name: | DINGSCO |
Model Number: | According to customers requirements |
Certification: | ISO 9001:2015,PED 2014/68/EU,API 6A,API-20B,TSG,NORSOK |
Place of Origin: | China |
MOQ: | Negotiable |
Price: | Negotiable |
Payment Terms: | T/T |
Supply Ability: | Negotiable |
Delivery Time: | (Sample Order) 7 days |
Packaging Details: | According to Customers' Requests |
Product Name: | Nickel Alloy Flanges |
Grade: | Inconel 600 |
Density: | 8.42 g/cm3 |
Specific Heat: | 0.106Btu/lb-°F |
Melting Range: | 1354–1413°C |
Electrical Resistivity: | 620 Microhm-in at 68°F |
UNS: | UNS N06600 |
Curie Temperature: | -124°C |
Company Info. |
Hunan Dinghan New Material Technology Co., LTD |
Verified Supplier |
View Contact Details |
Product List |
Nickle Alloy Flanges Inconel 600 Marine structures desalination heat exchange
Nickle Alloy Flanges are disk-shaped components that are most common in piping engineering, and they are always used in pairs. In pipeline engineering, flanges are primarily used for connecting pipes. For pipes that need to be connected, a flange plate is installed; low-pressure pipes can use threaded flanges, while those operating at pressures above 4 kilograms use welded flanges. Between the two flanges, a sealing point is added, and then they are secured with bolts. Flanges for different pressures have different thicknesses and require different bolts. For equipment such as water pumps and valves that need to be connected to pipes, the relevant parts of these devices are also made into corresponding flange shapes, which are also referred to as flange connections. Generally, any connection component that uses bolts to connect and seal between two planes can be called a “flange.”
Flange parts: such as the connection of ventilation pipes; these types of parts can be referred to as “flange parts.” However, this type of connection is only a part of a device; for example, the connection between a flange and a water pump would not lead to calling the water pump a “flange part.” Smaller components, such as valves, can be called “flange parts.”
Classification: The thickness of flanges and the diameter and number of connecting bolts vary with different pressure ratings. Depending on the pressure class, flange gaskets also come in different materials, ranging from low-pressure asbestos gaskets, high-pressure asbestos gaskets to metal gaskets.
Applications:
INCONEL ALLOY 600 (nickel-chromium-iron)(UNS N06600/W.Nr. 2.4816) is a standard engineering material for applications which require resistance to corrosion and heat. The alloy also has excellent mechanical properties and presents the desirable combination of high strength and good workability.
Typical Applications:
Corrosion Resistance:
Alloy 600 is able to withstand a variety of corrosion. The alloy has excellent resistance to alkaline solution performance and good resistance to strong oxidizing acid solution performance. It is particularly resistant to the erosion of dry chlorine or hydrogen chloride even at temperatures up to 650°C.
Characteristics:
The excellent mechanical properties of this alloy endow the material with high strength and good workability. It has good corrosion resistance, especially in alkaline environments, and can be used in low and high temperature environments.
Chemical Composition:
Element | Ni+Co | Cr | Fe | C | Mn | S | Si | Cu |
Minimum(%) | 72 | 14 | 6 | - | - | - | - | - |
Max(%) | - | 17 | 10 | 0.15 | 1 | 0.015 | 0.5 | 0.5 |
Physical Properties & Mechanical Properties:
Physical Properties | |||
Mean Coefficient of Thermal Expansion | |||
Temperature Range | |||
°F | °C | in/in°F | cm/cm°C |
68 | 20 | 5.8 x 10-6 | 10.4 x 10-6 |
Mechanical Properties | |||
Typical Values at 68°F(20°C) | |||
Yield Strength 0.2% offset psi | Ultimate Tensile Strength (min.) psi | Elongation in 2"% | |
35,000 | 80,000 | 30 |
Thermal Properties:
Temperature | Coefficient of Expansiona | Electrical Resistivity | Thermal Conductivity | Specific Heat |
°F | 10-6 in/in•°F | ohm•circ•mil/ft | Btu•in/ft2•h•°F | Btu/lb•°F |
-250 | 6.0 | - | 86 | 0.073 |
-200 | 6.3 | - | 89 | 0.079 |
-100 | 6.7 | - | 93 | 0.090 |
70 | 5.8 | 620 | 103 | 0.106 |
200 | 7.4 | 625 | 109 | 0.111 |
400 | 7.7 | 634 | 121 | 0.116 |
600 | 7.9 | 644 | 133 | 0.121 |
800 | 8.1 | 644 | 145 | 0.126 |
1000 | 8.4 | 680 | 158 | 0.132 |
1200 | 8.6 | 680 | 172 | 0.140 |
1400 | 8.9 | 680 | 186 | 0.145 |
1600 | 9.1 | 686 | 200 | 0.149 |
1800 | 9.3 | 698 | - | - |
2000 | - | 704 | - | - |
°C | μm/m•°C | μΩ•m | W/m•°C | J/kg•°C |
-150 | 10.9 | - | 12.5 | 310 |
-100 | 11.7 | - | 13.1 | 352 |
-50 | 12.3 | - | 13.6 | 394 |
20 | 10.4 | 1.03 | 14.9 | 444 |
100 | 13.3 | 1.04 | 15.9 | 444 |
200 | 13.8 | 1.05 | 17.3 | 486 |
300 | 14.2 | 1.07 | 19.0 | 502 |
400 | 14.5 | 1.09 | 20.5 | 519 |
500 | 14.9 | 1.12 | 22.1 | 536 |
600 | 15.3 | 1.13 | 22.1 | 578 |
700 | 15.8 | 1.13 | 25.7 | 595 |
800 | 16.1 | 1.13 | 27.5 | 611 |
900 | 16.4 | 1.15 | - | 628 |
Processing Flow Chart: