Claims
- 1. In a method for the countergravity casting of a melt, comprising the steps of:
- a) forming a mold having a mold cavity, a lower mold portion adapted for engaging an underlying source of melt and having a fill passage, and inlet passage-forming means disposed between the mold cavity and the lower mold portion, said inlet passage-forming means including a perforated portion defining at least one melt inlet passage for communicating the fill passage and the mold cavity and an adjacent melt impermeable portion extending laterally inwardly from a periphery of said inlet passage-forming means partially across said fill passage toward said perforated portion to form a dam when the mold is tilted after filling with said melt, said inlet passage-forming means further including a fluid impermeable portion spaced above said perforated portion when the lower mold portion and the source are engaged,
- b) relatively moving the mold and the source of the melt to engage the lower mold portion and the source,
- c) applying a differential pressure between the mold cavity and the source to urge the melt upwardly through the inlet passage into the mold cavity to fill the mold cavity with the melt,
- d) relatively moving the mold and the source to disengage the lower mold portion and the source after the mold cavity is filled with the melt, and
- e) tilting the disengaged mold in a direction to raise the perforated portion above the melt impermeable portion such that said melt impermeable portion acts as a dam extending partially across said fill passage to reduce run-out of the melt from the mold as the mold is tilted and such that said fluid impermeable portion entraps any gas that may enter the mold through said perforated portion so as to prevent the gas from entering the mold cavity.
- 2. The method of claim 1 including continuing tilting of the mold until it is inverted.
- 3. The method of claim 2 including solidifying melt in the inverted mold.
- 4. The method of claim 1 wherein the melt comprises a high shrinkage melt such as a steel, stainless steel or superalloy melt.
- 5. In a method for the countergravity casting of a melt, comprising the steps of:
- a) forming a mold having a mold cavity, an upstanding fill passage on a bottom side thereof adapted for engaging an underlying source of melt, and inlet passage-forming means disposed between the mold cavity and the fill passage, said inlet passage-forming means including a perforated portion defining at least one melt inlet passage for communicating the fill passage and the mold cavity and an adjacent melt impermeable portion extending laterally inwardly from a periphery of said inlet passage-forming means partially across said fill passage toward said perforated portion to form a dam when the mold is tilted after filling with said melt, said inlet passage-forming means further including a fluid impermeable portion spaced above said perforated portion when the fill passage and the source are engaged,
- b) relatively moving the mold and the source of the melt to engage the lower mold portion and the source,
- c) applying a differential pressure between the mold cavity and the source to urge the melt upwardly through the fill passage and the inlet passage into the mold cavity to fill the mold cavity with the melt,
- d) relatively moving the mold and the source to disengage the fill passage and the source after the mold cavity is filled with the melt, including draining the melt from the fill passage, and then
- e) tilting the disengaged mold in a direction to raise the perforated portion above the melt impermeable portion such that said melt impermeable portion acts as a dam extending partially across the fill passage to reduce run-out of the melt from the mold during tilting of the mold and such that said fluid impermeable portion entraps any gas that may enter the mold through said perforated portion so as to prevent the gas from entering the mold cavity.
- 6. The method of claim 5 including continuing tilting of the mold until it is inverted.
- 7. The method of claim 6 including solidifying melt in the inverted mold.
- 8. The method of claim 5 wherein the melt comprises a high shrinkage melt such as a steel, stainless steel or superalloy melt.
- 9. Countergravity casting apparatus, comprising:
- a) a mold having a mold cavity, a lower mold portion adapted to engage an underlying source of melt and having a fill passage, and inlet passage-forming means disposed between the mold cavity and the lower mold portion, said inlet passage-forming means including a perforated portion defining at least one inlet passage for communicating the fill passage and the mold cavity and an adjacent melt impermeable portion extending laterally inwardly from a periphery of said inlet passage-forming means partially across said fill passage toward said perforated portion to form a dam when the mold is tilted after filling with said melt for reducing run-out of the melt from the mold, said inlet passage-forming means further including a fluid impermeable portion spaced above said perforated portion when the lower mold portion and the source are engaged,
- b) means for relatively moving the mold and source to engage said lower mold portion and the source,
- c) means for applying a differential pressure between the mold cavity and the source sufficient to urge the melt upwardly through said inlet passage into the mold cavity when said lower mold portion is engaged with said source
- d) means for relatively moving the mold and the source to disengage said lower mold portion and the source after the mold cavity is filled with the melt, and
- e) means for tilting the disengaged mold in a direction to raise the perforated portion above the melt impermeable portion such that said melt impermeable portion acts as a dam extending partially across the fill passage to reduce run-out of the melt from the mold during mold tilting and such that said fluid impermeable portion entraps any gas that may enter the mold through said perforated portion so as to prevent the gas from entering the mold cavity.
- 10. The apparatus of claim 9 wherein said inlet passage-forming means includes a second perforated portion opposing said melt impermeable portion, said second perforated portion defining a melt outlet passage communicating the said melt inlet passage to the mold cavity.
- 11. The apparatus of claim 10 wherein said inlet passage-forming means comprises a first wall including said perforated portion and said melt impermeable portion and a second wall spaced substantially parallel to said first wall, said second wall including said second perforated portion and said fluid impermeable portion.
- 12. The apparatus of claim 9 wherein said lower mold portion comprises a fill pipe attached to a bottom of the mold and said inlet passage-forming means is disposed between the fill tube and the mold cavity.
- 13. The apparatus of claim 10 wherein said passage-forming means comprises a refractory collar captured in the bottom of the mold.
Parent Case Info
This application is a continuation-in-part of patent application Ser. No. 303,813 filed Jan. 27, 1989, now U.S. Pat. No. 4,982,777.
US Referenced Citations (1)
Number |
Name |
Date |
Kind |
1100831 |
Kline |
Jun 1914 |
|
Foreign Referenced Citations (1)
Number |
Date |
Country |
1296294 |
Mar 1987 |
SUX |
Continuation in Parts (1)
|
Number |
Date |
Country |
Parent |
303813 |
Jan 1989 |
|