Dynamic pressure in mould flux channel during mould non-sinusoidal oscillation

Abstract: Based on the lubrication theory of mould flux, a mathematical model of dynamic pressure in mould flux channel was developed, and the distribution of dynamic pressure and its variation during non-sinusoidal oscillation were investigated. The effects of casting speed and nonsinusoidal oscillation parameters, including the degree of non-sinusoidal operation (nonsinusoidal factor), amplitude and frequency of oscillation on the dynamic pressure in the mould flux channel, were studied. The results indicate that the … Show more

“…The required level of the compressive force imposed on the solidified shell increases with increased relative speed during tn and, due to the elongation of tp, the decreased relative speed in tp between the mold and strand can reduce the tensile force exerted on the solidified shell, which may be critical to solder surface cracking and strand demolding [4]. Several industrial trials and laboratory experiments [6,7,9,10,[14][15][16][17][18][19] have been conducted to investigate the influence of nonsinusoidal oscillation mode on the continuous casting process, as summarized in Table 1. Table 1.…”

Mold Nonsinusoidal Oscillation Mode and Its Effect on Slag Infiltration for Lubrication and Initial Shell Growth during Steel Continuous Casting

“…The required level of the compressive force imposed on the solidified shell increases with increased relative speed during tn and, due to the elongation of tp, the decreased relative speed in tp between the mold and strand can reduce the tensile force exerted on the solidified shell, which may be critical to solder surface cracking and strand demolding [4]. Several industrial trials and laboratory experiments [6,7,9,10,[14][15][16][17][18][19] have been conducted to investigate the influence of nonsinusoidal oscillation mode on the continuous casting process, as summarized in Table 1. Table 1.…”

Mold Nonsinusoidal Oscillation Mode and Its Effect on Slag Infiltration for Lubrication and Initial Shell Growth during Steel Continuous Casting