Quench severities

1. Quench severities

2. Example quench design problems Jominy curve 6 6 What is max bar size for 4140 which will full harden with quench severity of 0.35?

3. Example quench design problems 6 What quench should be used for 2" diam. 4140 bar to full harden 1/2" deep? Quench severity ≈ 1.25 Water quench w/some agitation

4. Example quench design problems 7 Quench severity ≈ 1.25. What is hardness at center?

5. Example quench design problems Jominy curve 7 Quench severity ≈ 1.25. What is hardness at center? 2" bar quenched at 1.25 corresponds to 7/16" on Jominy bar Hardness ≈ 53

6. Corrosion Hint for exams (and life): A substance which is corrosive will corrode other substances SS is thus certainly non-corrosive But it is also non-corrodable (in most instances)

7. Corrosion Galvanic cell is necessary electrical connection anode cathode electrolyte Most corrosion is electrochemical No corrosion if one of these is missing: anode cathode electrolyte electrical connection

8. Corrosion Galvanic cell is necessary electrical connection anode cathode electrolyte Most corrosion is electrochemical Corrosion at anode Me = Me+n + ne– (metal dissolves) No dissolution at cathode

9. Corrosion Ex: Cu & Zn (Zn corrodes) electrical connection Zn Cu electrolyte What constitutes an anode/cathode pair? Dissimilar metals How do we know? Many combos tried experimentally

10. Corrosion more cathodic electrical connection electrical connection Zn anode Cu cathode electrolyte electrolyte more anodic Result: the galvanic series

11. Corrosion Ex: 1 contains little dissolved oxygen 2 contains much dissolved oxygen 1 2 What constitutes an anode/cathode pair? Dissimilar metals Different electrolytes

12. Corrosion Practical example: crevice corrosion 1 2 What constitutes an anode/cathode pair? Dissimilar metals Different electrolytes

13. Corrosion Deformation ––> non-homogeneous residual stress 1 2 What constitutes an anode/cathode pair? Dissimilar metals Different electrolytes

14. Corrosion Deformation ––> non-homogeneous residual stress 1 2 What constitutes an anode/cathode pair? Dissimilar metals Different electrolytes Non-passivated vs. passivated metal or alloy

15. Corrosion What constitutes an anode/cathode pair? In summary– Anything that makes two half-cells different gives anode & cathode ––> corrosion We can call these types macro cells

16. Corrosion Then what about micro cells? anode & cathode within single material operating on a micro scale Grain boundary - high energy region…anodic wrt bulk of grain Differently oriented grains - some planes of atoms dissolve faster than others Segregation (coring)

17. Corrosion Then what about micro cells? anode & cathode within single material operating on a micro scale Segregation (coring)