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Heat treatment of nickel base alloys

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Different aspects of heat treatment of nickel base alloys. property variation with heat treatment.

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HEAT TREATMENT OF NICKEL BASE ALLOYS JABIN MATHEW BENJAMIN 13MY04
Nickel (Ni) • Good resistance to corrosion and oxidation • Poor conductivity compared to Al and Cu • Alloyed with Cu, Fe, Cr, Mo, Si. • Alloys – Inconel, Monel, Hastealloy 4/29/2014Dept. of Metallurgical Engineering, PSG Tech. 2
Factors Influencing Heat Treatment Of Ni • Effect of prior cold work. • Greater the cold work before annealing  the lower the temperature of recrystallization  shorter the time required at any one temperature. • Influences the ductility of nickel and nickel alloys after annealing. • Small amount of cold work (for example, ~10% reduction), full ductility cannot be restored by annealing. • Minimum 20% cold working between anneals ensure maximum ductility and softness. • Effect of cooling rate. • No specific effect on the softness of the annealed nickel materials • Rapid cooling preferable: Time-saver and to minimize the amount of oxidation. • Except for heavy sections - may set up excessive thermal stresses 4/29/2014Dept. of Metallurgical Engineering, PSG Tech. 3
• Control of grain size. • Coarse-grained material unsuitable for cold-working • Coarse grain removed only by cold working and subsequent annealing treatment. • Optimum average grain diameter:0.064 mm (0.0025 in.) (ASTM no. 5). • Combination of ductility to permit extensive deformation, strength to withstand the action of tools, and surface quality to facilitate polishing. • Effect of atmospheres. • Susceptible to oxidation under oxidizing atmosphere • Sufficient excess of reducing atmosphere during heating and cooling. 4/29/2014Dept. Of metallurgical engineering, PSG tech. 4
• Protection from contamination by foreign material. • Lubricants used for deep drawing contain sulfur or lead  unless removed before annealing, they will cause embrittlement • Affected material cannot be reclaimed • Contaminated area must be either removed or scrapped • Lubricants, paints etc of any type should be removed entirely from the material before annealing. 4/29/2014Dept. of Metallurgical Engineering, PSG Tech. 5
Heat treatment • Annealing • Stress relieving • Stress equalizing • Solution treating • Age hardening 4/29/2014Dept. of Metallurgical Engineering, PSG Tech. 6
Annealing • To produce recrystallized grain structure • Softens the work hardened alloys • Temp: 700oC to 1200oC • Depends on alloy composition and extent of work hardening 4/29/2014Dept. of Metallurgical Engineering, PSG Tech. 7
Stress Relieving • Done to minimize residual stress • For work hardened and non-age hardenable alloys • No recrystallization • Temp: 430oC to 870oC • Depends on composition 4/29/2014Dept. of Metallurgical Engineering, PSG Tech. 8
Stress Equalizing • Low temperature heat treatment • Balances stresses in cold worked metal or alloy without affecting the mechanical properties 4/29/2014Dept. of Metallurgical Engineering, PSG Tech. 9
Solution Treating • For age hardenable alloys before ageing • To diffuse age hardening constituents and carbides into solid solution 4/29/2014Dept. of Metallurgical Engineering, PSG Tech. 10
Age Hardening • Temp: 430oC to 870oC • To obtain maximum strength by precipitation of a dispersed phase in the matrix 4/29/2014Dept. of Metallurgical Engineering, PSG Tech. 11
Nimonic • 20% Cr, 18% Co, 2.5% Ti, 1.5% Al, 0.05% C • 8-12 hours at 1080- 1180oC then air cooled • 12-16 hours at 700-850oC and aircooled • Supersaturated γ solution with a FCC lattice forms • On ageing γ solid solution decomposes and a fine precipitate of γ’ phase of Ni(Al) forms • On longer ageing at 850-900oC stable η phase Ni3Ti forms- hexagonal type and may cause embrittlement • γ solid solution has a high recrystallization temperature 4/29/2014Dept. of Metallurgical Engineering, PSG Tech. 12
Inconel • 15% Cr, 6.75% Fe, 2.5% Ti, 0.8% Al, 0.85% Co • 2-4 hours at 1165oC  Air cooling • 24 hours at 860oC Air cooled then 20 hours at 740oC air cooled 4/29/2014Dept. of Metallurgical Engineering, PSG Tech. 13
Hastealloy • 1% Cr, 2.5% Co, 23-30% Mo, 2.6% V, 1% Si and Mn, 0.05% C. • 1200oC for 1 hour then air cooled 4/29/2014Dept. of Metallurgical Engineering, PSG Tech. 14
Waspalloy • 19.5% Cr, 13.5% Co, 2% Fe, 4.25% Mo, 1.3% Al, 3% Ti, 0.1% C • 4 hours at 1100oC then air cooled • 24 hours at 860oC then air cooled 4/29/2014Dept. of Metallurgical Engineering, PSG Tech. 15
THANK YOU 4/29/2014Dept. of Metallurgical Engineering, PSG Tech. 16

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Heat treatment of nickel base alloys

  • 1. HEAT TREATMENT OF NICKEL BASE ALLOYS JABIN MATHEW BENJAMIN 13MY04
  • 2. Nickel (Ni) • Good resistance to corrosion and oxidation • Poor conductivity compared to Al and Cu • Alloyed with Cu, Fe, Cr, Mo, Si. • Alloys – Inconel, Monel, Hastealloy 4/29/2014Dept. of Metallurgical Engineering, PSG Tech. 2
  • 3. Factors Influencing Heat Treatment Of Ni • Effect of prior cold work. • Greater the cold work before annealing  the lower the temperature of recrystallization  shorter the time required at any one temperature. • Influences the ductility of nickel and nickel alloys after annealing. • Small amount of cold work (for example, ~10% reduction), full ductility cannot be restored by annealing. • Minimum 20% cold working between anneals ensure maximum ductility and softness. • Effect of cooling rate. • No specific effect on the softness of the annealed nickel materials • Rapid cooling preferable: Time-saver and to minimize the amount of oxidation. • Except for heavy sections - may set up excessive thermal stresses 4/29/2014Dept. of Metallurgical Engineering, PSG Tech. 3
  • 4. • Control of grain size. • Coarse-grained material unsuitable for cold-working • Coarse grain removed only by cold working and subsequent annealing treatment. • Optimum average grain diameter:0.064 mm (0.0025 in.) (ASTM no. 5). • Combination of ductility to permit extensive deformation, strength to withstand the action of tools, and surface quality to facilitate polishing. • Effect of atmospheres. • Susceptible to oxidation under oxidizing atmosphere • Sufficient excess of reducing atmosphere during heating and cooling. 4/29/2014Dept. Of metallurgical engineering, PSG tech. 4
  • 5. • Protection from contamination by foreign material. • Lubricants used for deep drawing contain sulfur or lead  unless removed before annealing, they will cause embrittlement • Affected material cannot be reclaimed • Contaminated area must be either removed or scrapped • Lubricants, paints etc of any type should be removed entirely from the material before annealing. 4/29/2014Dept. of Metallurgical Engineering, PSG Tech. 5
  • 6. Heat treatment • Annealing • Stress relieving • Stress equalizing • Solution treating • Age hardening 4/29/2014Dept. of Metallurgical Engineering, PSG Tech. 6
  • 7. Annealing • To produce recrystallized grain structure • Softens the work hardened alloys • Temp: 700oC to 1200oC • Depends on alloy composition and extent of work hardening 4/29/2014Dept. of Metallurgical Engineering, PSG Tech. 7
  • 8. Stress Relieving • Done to minimize residual stress • For work hardened and non-age hardenable alloys • No recrystallization • Temp: 430oC to 870oC • Depends on composition 4/29/2014Dept. of Metallurgical Engineering, PSG Tech. 8
  • 9. Stress Equalizing • Low temperature heat treatment • Balances stresses in cold worked metal or alloy without affecting the mechanical properties 4/29/2014Dept. of Metallurgical Engineering, PSG Tech. 9
  • 10. Solution Treating • For age hardenable alloys before ageing • To diffuse age hardening constituents and carbides into solid solution 4/29/2014Dept. of Metallurgical Engineering, PSG Tech. 10
  • 11. Age Hardening • Temp: 430oC to 870oC • To obtain maximum strength by precipitation of a dispersed phase in the matrix 4/29/2014Dept. of Metallurgical Engineering, PSG Tech. 11
  • 12. Nimonic • 20% Cr, 18% Co, 2.5% Ti, 1.5% Al, 0.05% C • 8-12 hours at 1080- 1180oC then air cooled • 12-16 hours at 700-850oC and aircooled • Supersaturated γ solution with a FCC lattice forms • On ageing γ solid solution decomposes and a fine precipitate of γ’ phase of Ni(Al) forms • On longer ageing at 850-900oC stable η phase Ni3Ti forms- hexagonal type and may cause embrittlement • γ solid solution has a high recrystallization temperature 4/29/2014Dept. of Metallurgical Engineering, PSG Tech. 12
  • 13. Inconel • 15% Cr, 6.75% Fe, 2.5% Ti, 0.8% Al, 0.85% Co • 2-4 hours at 1165oC  Air cooling • 24 hours at 860oC Air cooled then 20 hours at 740oC air cooled 4/29/2014Dept. of Metallurgical Engineering, PSG Tech. 13
  • 14. Hastealloy • 1% Cr, 2.5% Co, 23-30% Mo, 2.6% V, 1% Si and Mn, 0.05% C. • 1200oC for 1 hour then air cooled 4/29/2014Dept. of Metallurgical Engineering, PSG Tech. 14
  • 15. Waspalloy • 19.5% Cr, 13.5% Co, 2% Fe, 4.25% Mo, 1.3% Al, 3% Ti, 0.1% C • 4 hours at 1100oC then air cooled • 24 hours at 860oC then air cooled 4/29/2014Dept. of Metallurgical Engineering, PSG Tech. 15
  • 16. THANK YOU 4/29/2014Dept. of Metallurgical Engineering, PSG Tech. 16