Ni 99.6 (low carbon)
LC-99.6
LC-99.6 C0-0.02
Chemical composition |
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Cu0.15 max
Ni99.6 min
Fe0.25 max
Mn0.35 max
Si0.15 max
S0.005 max
C0.02 max
Mg0.15 max
Ti0.1 max
Alloy name | |
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RLSA no. | 606 |
EN standard | |
DIN standard | 2.4061 |
UNS no.* |
*Unified Numbering System (USA)
Characteristics and main uses
Pure nickel LC- Ni 99.6 is characterized by very high resistance to oxidation and chemical corrosion. Ni 99.6 (low carbon) is magnetic up to approx. +350 ° C. The maximum operating temperature in air is +700 ° C.
Due to its low carbon content, LC-Nickel 99.6 exhibits high resistance to corrosion caused by strong solution of sodium or potassium hydroxide, even at high temperatures.
- Good corrosion resistance to acids and alkalis and is particularly useful under reducing conditions.
- Excellent resistance to caustic alkalis up to and including the molten state.
- In acidic, alkaline and neutral salt solutions, the material has good strength, but in oxidizing salt solutions, severe attack will occur.
- Resistant to all dry gases at room temperature also to dry chlorine and also to hydrogen chloride can be used at temperatures up to 550 ° C.
- Resistance to mineral acids varies with temperature and concentration and whether the solution is aerated or not. Corrosion resistance is better in deaerated acid.
- Practically insensitive to inter-granular attack above 315 ° C, chlorates must be reduced to a minimum.
Main uses
- Manufacture and handling of sodium hydroxide, especially at a temperature above 300 ° C.
- Production of viscose rayon. Soap making.
- Electrical and electronic component
- Electrode contacts and current conductors in batteries
- Current conductors in alkaline fuels
- Production of analin hydrochloride and chlorination of aliphatic hydrocarbons such as benzene, methane and ethane.
- Manufacture of vinyl chloride monomer.
- Reactors and vessels in which fluorine is generated and reacts with hydrocarbons.