| Autor: |
Іванов, В. П., Лещинський, Л. К., Щербаков, С. В. |
| Zdroj: |
Automatic Welding / Avtomatitcheskaia Svarka; 2019, Issue 11, p40-45, 6p |
| Abstrakt: |
It is shown that the nature of the change of chemical composition of the weld (deposited metal) is determined by the law of control of volume feed rate of the alloying electrode, which was derived by mathematical modeling of the effect of surfacing technology on the process of weld pool alloying. It is found that the high gradient of variation of chemical composition along the weld length is ensured by a discrete change of the volume feed rate of the alloying electrode. At a rectangular waveform of the electrode feed pulse, the alloying element distribution in the weld metal is asymmetrical at the stage of increase and decrease of the concentration that is manifested to a greater extent with increase of weld pool volume. Experimentally confirmed calculation results are presented, which show that the trapezoidal shape of the pulse allows reducing the asymmetrical nature of variation of the composition. It is found that the nature and gradient of alloying element distribution in the weld can be changed at pulsed feed of the alloying electrode by a sinusoidal law. Conditions of forming a deposited layer of variable composition and hardness along the length of the barrel of a rolling roll of continuous billet mill were determined. [ABSTRACT FROM AUTHOR] |
| Databáze: |
Complementary Index |
| Externí odkaz: |
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