How to suppress the penetration of molten cast iron into sand mould
The interaction between the high-temperature molten metal and porous mould leads to various types of defects in castings. In a severe case, metal or metal oxides may fill the voids between sand grains. The penetration of molten metal appears as a surplus of metal adhesion, containing sand from the moulding material. The removal of this adhesion and the correction of the shortcomings of surface quality require additional machining, cleaning, or repair. This also draws major yield losses, environmental load and extra noise pollution. Studying the origins of penetration defects is important for foundries to avoid the formation of this type of defects. There are tools developed for this purpose those can be utilized in both laboratory and industrial conditions. A special type of penetration particular for cast iron, the metal expansion penetration will be discussed.
In this webinar, we will discuss how one can suppress the penetration of molten metal into the porous medium, especially penetration of molten cast iron into the sand mould, based on a simple theory. The valuable X-ray image movie of the penetration will also be shown, and you will see how the penetration takes place. The most prevalent test method to study penetration defects will be introduced through a particular case study.
Date: May 6, 2021
Time: 10:00-11:00 (+ 30 min group discussion and networking)
After attending this webinar you will know more about:
- Understand more about the penetration behavior of molten metal into porous media
- Know a guideline to suppress the penetration
- Understand how step cone castings work to evaluate penetration processes
- How to use color etching to distinguish the chronology of porosity formation in cast iron
This webinar is specifically useful for Foundry process and quality engineers in cast iron producing companies, designer, and end user of cast iron components. Everyone with a general interest in penetration behavior and sand casting of cast iron can learn more by attending this webinar.