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Continuous-cooling-transformation CCT diagram

Continuous cellulosic fibers, 20 557 Continuous compression filters, 77 379-381 Continuous conveyors, 9 119 Continuous cooling, in austenite transformation, 23 282-283 Continuous-cooling transformation (CCT) diagrams, 77 16 23 280 Continuous copper-drossing process, 74 745-747... [Pg.212]

Fig. 3.1-113 Continuous-cooling-transformation (CCT) diagram for a 4130 grade low-alloy steel. Acs and Ac signify the temperatures of the y/ y+a) and eutectoid reation, respectively. A - austenite, F - ferrite, B - bainite, P - pearlite, M - martensite. The cooling rate is measured at 705 °C. The calculated critical cooling rate is 143 K/s [1.80]... Fig. 3.1-113 Continuous-cooling-transformation (CCT) diagram for a 4130 grade low-alloy steel. Acs and Ac signify the temperatures of the y/ y+a) and eutectoid reation, respectively. A - austenite, F - ferrite, B - bainite, P - pearlite, M - martensite. The cooling rate is measured at 705 °C. The calculated critical cooling rate is 143 K/s [1.80]...
Fig. 31. Continuous-Cooling-Transformation (CCT) diagram for TRIP 700 (measured at Gleeble3500 ). The following experimental procedure/material is used heating (austenitization) up to 1350 °C, holding time 1 s, dT/df = 337.5 °C/s, austenite grain size 3.0 (ASTM E112), material cold rolled strip, thickness 1.8 mm, Ms = 400 °C, Ac = 735 °C, Ac3 = 1000 °C. Fig. 31. Continuous-Cooling-Transformation (CCT) diagram for TRIP 700 (measured at Gleeble3500 ). The following experimental procedure/material is used heating (austenitization) up to 1350 °C, holding time 1 s, dT/df = 337.5 °C/s, austenite grain size 3.0 (ASTM E112), material cold rolled strip, thickness 1.8 mm, Ms = 400 °C, Ac = 735 °C, Ac3 = 1000 °C.
Figure 10.13 Continuous cooling transformation (CCT) diagram of 9Cr-ODS steels. Figure 10.13 Continuous cooling transformation (CCT) diagram of 9Cr-ODS steels.
Transformation Products. The continuous cooling (CCT) diagram is similar to that of Ti-17. Alpha precipitation occurs first at grain boundaries and secondly inside the grains. For instance, the time difference between grain boundary and intragranular precipitation is about 1 h when cooled at 1 °C/min (1.8 °F/min) from the P field. The... [Pg.562]


See other pages where Continuous-cooling-transformation CCT diagram is mentioned: [Pg.467]    [Pg.437]    [Pg.132]    [Pg.238]    [Pg.238]    [Pg.370]    [Pg.381]    [Pg.923]    [Pg.467]    [Pg.437]    [Pg.132]    [Pg.238]    [Pg.238]    [Pg.370]    [Pg.381]    [Pg.923]    [Pg.1456]    [Pg.430]    [Pg.69]   
See also in sourсe #XX -- [ Pg.238 ]

See also in sourсe #XX -- [ Pg.238 ]




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Continuous cooling

Continuous-cooling transformation diagrams

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