Post on 21-Mar-2017
CYANIDING NITRIDING&
-Faizan AliI2 33
Providing hard wear resistant case with a tough core to the carbon steels by liquid cyanide bath.
Producing hard surface on low/medium carbon steels.
CYANIDING
2NaCN + 2O2 = Na2CO3 + 2N + CO2(dissociation of carbon monoxide at steel surface) It is carried out in a bath of 20-50% Sodium
cyanide, up to 40% sodium carbonate(soda ash) with varying amount of sodium and barium chloride.
It is heated to 870-930 Celsius. Work pieces are immersed in a molten bath of
cyanide for 10-180 minutes Then the steel is quenched in water or oil.
Advantages Rapid heat transfer Low distortion(easily avoided) Negligible oxidation or decarburisation of
surface Uniform depth Less time consumption Rapid absorption of carbon and nitrogen Bright finish of machine parts
Disadvantages
Cyanide salts are poisonous Cyanide attacks wounds Even fumes can cause damage Direct contact could be harmful Molten cyanide explodes on contact with
water
Precautions
Careful handling of cyanides is needed as these are very poisonous salts
As molten cyanide explodes with water, components must be dried carefully before dipping into molten cyanide bath.
Cyaniding Plant
Cyaniding Material
Surface hardening , devised by heating the steel in an atmosphere of ammonia.
Nitriding is the last operation after shaping and heat treatment of a machine component
Nitriding
NH3 = 3H + N It is carried out at around 500-650 degree Celsius Hardness is from 0.2-0.4 mm The ammonia is dissociated and [N] nascent
Nitrogen combines with elements in steel to form nitrides.
These nitrides give extreme hardness to surface Carried out for 50-90 hours An average of 0.2 mm is produced at 500 degree
for 50 hours. Components are cooled before supplying
ammonia
Advantages Used on automotive, airplane and diesel engine
wearing parts and many miscellaneous parts such as pumps, gears, shafts, gauges, clutches, drawing dies, clutches, mandrels, etc.
Very high surface hardening As the nitrided parts are not quenched, there is
no chance of distortion/cracking Surface becomes resistive to corrosion, wear and
fatigue No machining of components is required after
nitriding Retains hardness up to 500 degree Celsius.
Disadvantages
Its use is limited due to expense required for treatment( Very costly)
The case formed is brittle The cycle time for nitriding is 50-90 hours Only special types of steels can be heat
treated using this process
Nitriding plant
Nitrided Material
FAQs on Cyaniding
Q. How is the hardness produced?= The hardness is produced from
compounds of nitrogen and carbon present in surface.
Q. What is the result of cyaniding?= An average depth of 0.125 mm produced
in 15 min at 850 degree Celsius.Q. Can we obtain more thickness?= Yes, using special salts, thickness up to
0.8 mm can be obtained.
FAQs on NitridingQ. What Nitrides are formed from [N]?= With plain carbon steels, Fe2n and Fe4N are
formedQ. How do we vary steel types in Nitriding?= Low carbon content for lightly stressed parts
such as spindles, gears and high carbon content steels to withstand high local pressure as in dies, blocks, and dies for plastic molding.
Q. How does surface become so hard?= When ammonia contacts with steel, the
dissociated [N] defuses into surface of work piece component forming hard nitrides