Study of hydrogen absorption of aluminum melt
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Ruizhi Wu
Abstract
Hydrogen absorption of aluminum melt during melt treatment is one of the important factors that affect the hydrogen content of aluminum melt. In this paper, the effects of several factors (melt temperature, atmosphere humidity, and rotary speed in the rotary impellor degassing process) on hydrogen absorption are investigated quantitatively. It is found that, the higher the melt temperature, the higher the atmospheric humidity, and the higher the rotary speed in the rotary impellor degassing process, the more serious the hydrogen absorption of melt will become.
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© 2008, Carl Hanser Verlag, Munich
Artikel in diesem Heft
- Contents
- Contents
- Editorial
- IJMR wishes all its readers and contributors a belated Happy New Year
- Basic
- Experimental study of the phase relations in the Fe–Zn–Cr system at 600°C
- Thermodynamic description of the ternary Pd–Sn–Zn system
- The morphology of nitrided iron–chromium alloys; influence of chromium content and nitrogen supersaturation
- The surface tension and density of Ag–Bi–Sn alloys
- Density and thermal expansion of liquid binary Al–Ag and Al–Cu alloys
- Hardening precipitation and mechanical properties in new Mg–Mn–Y–Gd alloys
- On recrystallization texture formation in polycrystalline fcc alloys with low stacking fault energies
- A numerical study of grain size effects on the strength and elongation of Al polycrystals using strain gradient plasticity theory
- Applied
- Thermodynamic simulation of the Bayer process
- The anisotropy of deformation for friction stir processed Mg alloy due to the existence of onion rings
- A study of the Si-phase growth mechanismin thixocast (A356) alloy during hot deformation
- Study of hydrogen absorption of aluminum melt
- Modelling of work-hardening behaviour for laser welded magnesium alloy
- Tribological behavior of short carbon fiber or hybrid with SiCp reinforced Al alloy composites
- Elevated temperature compressive behavior of Nb-22Ti-16Si-7Cr-3Al-3Ta-2Hf alloy with minor Ho addition
- Notifications
- News
Artikel in diesem Heft
- Contents
- Contents
- Editorial
- IJMR wishes all its readers and contributors a belated Happy New Year
- Basic
- Experimental study of the phase relations in the Fe–Zn–Cr system at 600°C
- Thermodynamic description of the ternary Pd–Sn–Zn system
- The morphology of nitrided iron–chromium alloys; influence of chromium content and nitrogen supersaturation
- The surface tension and density of Ag–Bi–Sn alloys
- Density and thermal expansion of liquid binary Al–Ag and Al–Cu alloys
- Hardening precipitation and mechanical properties in new Mg–Mn–Y–Gd alloys
- On recrystallization texture formation in polycrystalline fcc alloys with low stacking fault energies
- A numerical study of grain size effects on the strength and elongation of Al polycrystals using strain gradient plasticity theory
- Applied
- Thermodynamic simulation of the Bayer process
- The anisotropy of deformation for friction stir processed Mg alloy due to the existence of onion rings
- A study of the Si-phase growth mechanismin thixocast (A356) alloy during hot deformation
- Study of hydrogen absorption of aluminum melt
- Modelling of work-hardening behaviour for laser welded magnesium alloy
- Tribological behavior of short carbon fiber or hybrid with SiCp reinforced Al alloy composites
- Elevated temperature compressive behavior of Nb-22Ti-16Si-7Cr-3Al-3Ta-2Hf alloy with minor Ho addition
- Notifications
- News
