Claims
- 1. A pressure die-casting process comprising the steps of:
- introducing a molten metal into a die cavity of a die through an injecting port of the die;
- primary-pressurizing said introduced molten metal in said die cavity with a pressure through said injecting port;
- secondary-pressurizing said molten metal in said die cavity with a pressure through a pressurizing port other than said injecting port;
- predetermining a relationship between a first group of operational parameters of a die temperature and a duration period of said primary pressurization and a second group of operational parameters of a initiation time and speed of said secondary pressurization, to provide an optimum relationship for preventing a shrinkage cavity of a cast product;
- measuring a die temperature and a duration of said primary pressurization;
- determining preset values of a secondary pressurization initiation time and a secondary pressurization speed, by using said measured values on a basis of said optimum relationship; and
- effecting said secondary pressurization based on said preset values of the secondary pressurization initiation time and the secondary pressurization speed.
- 2. The pressure die-casting process according to claim 1, wherein in the effecting said secondary pressurization step, when the primary pressurization initiation time (tp) is less than a first preset value, the secondary pressurization initiation time is determined by setting the primary pressurization initiation time to equal the first preset value; when the primary pressurization initiation time is greater than a second preset value, the second pressurization initiation time is determined by setting the primary pressurization initiation time equal to the second preset value; and, when the die temperature is higher than a preset die temperature, the secondary pressurization speed is determined as a secondary pressurization speed corresponding to the preset die temperature less a predetermined value.
- 3. A pressure die-casting process comprising the steps of:
- introducing a molten metal into a die cavity of a die through an injecting port of the die;
- primary-pressurizing said introduced molten metal in said die cavity with a pressure through said injecting port;
- secondary-pressurizing said molten metal in said die cavity with a pressure through a pressurizing port other than said injecting port;
- predetermining a change of a molten metal pressure in said die cavity as a function of an elapsed time, to provide a reference wave profile for preventing a shrinkage cavity of a cast product;
- measuring a change of a molten metal pressure in said die cavity, to provide a measured wave profile;
- comparing said measured wave profile with said reference wave profile; and
- setting said secondary pressurization initiation time and said secondary pressurization speed based on said comparison.
- 4. A pressure die-casting process according to claim 3, wherein said secondary pressurization speed is increased when said measured wave profile is smaller than said reference wave profile, and said secondary pressurization speed is decreased when said measured wave profile is larger than said reference wave profile.
- 5. A method of discriminating the quality of articles cast by a pressure die-casting process which comprises the steps of introducing a molten metal into a die cavity of a die through an injecting port of the die; primary-pressurizing said introduced molten metal in said die cavity with a pressure through said injecting port; and secondary-pressurizing said molten metal in said die cavity with a pressure through a pressurizing port other than said injecting port; said method of discrimination comprising the steps of:
- predetermining a change of a molten metal pressure in said die cavity as a function of an elapsed time, to provide a reference wave profile for preventing a shrinkage cavity of a cast product;
- measuring a change of a molten metal pressure in said die cavity, to provide a measured wave profile;
- comparing said measured wave profile with said reference wave profile; and
- judging the quality of an article cast by said casting based on said comparison.
- 6. A method of discriminating the quality of die-cast articles, when casting an article by pressurizing and filling a molten metal into a die through an injection sleeve by means of an injection plunger, said method comprising the steps of:
- measuring at least one of the operational parameters of a die temperature, a gas pressure in a die cavity, a molten metal pressure in the die cavity, an injection sleeve temperature, an injecting plunger travel speed, and an injection plunger displacement;
- discriminating the quality of a die-cast article by comparing said measured parameter value with a reference value determined on the basis of a predetermined interrelationship between said operational parameter and a defect tolerance; and wherein
- the following relationship is used as said interrelationship, a relationship between the operational parameters of the die temperature, the injection sleeve temperature, the injection plunger travel speed, and the injection plunger displacement and the fraction amount of broken chilled layers.
- 7. A method of stratifying die-cast articles into groups, when casting an article by pressurizing and filling a molten metal into a die through an injection sleeve by means of an injection plunger, said method comprising the steps of:
- measuring at least one of the operational parameters of a die temperature, a gas pressure in a die cavity, a molten metal pressure in the die cavity, an injection sleeve temperature, an injection plunger travel speed, and an injection plunger displacement;
- discriminating the quality of a die-cast article by comparing said measured parameter value with a reference value determined on the basis of a predetermined interrelationship between said operational parameter and a defect tolerance, to stratify the die-cast articles into a group of nondefective articles and groups of defective articles including different kinds of defects, within the stage of casting; and wherein
- the following relationship is used as said interrelationship, a relationship between the operational parameters of the die temperature, the injection sleeve temperature, the injection plunger travel speed, and the injection plunger displacement and the fraction amount of broken chilled layers.
Priority Claims (2)
Number |
Date |
Country |
Kind |
2-273197 |
Oct 1990 |
JPX |
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2-302528 |
Nov 1990 |
JPX |
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Parent Case Info
This is a continuation of application Ser. No. 07/774,110, filed on Oct. 15, 1991, which was abandoned upon the filing hereof.
US Referenced Citations (8)
Foreign Referenced Citations (5)
Number |
Date |
Country |
0065841 |
Dec 1982 |
EPX |
0262519 |
Apr 1988 |
EPX |
1269966 |
Nov 1986 |
JPX |
59-013942 |
Apr 1988 |
JPX |
63-072467 |
Apr 1988 |
JPX |
Non-Patent Literature Citations (3)
Entry |
Patent Abtracts of Japan, vol. 12, No. 294, Aug. 1988, 61-216824 published Apr. 1988 (English Abstract). |
JP A-59-13942, Jan. 1984 English Abstract. |
Metal Handbook, 9th ed, vol. 15, pp. 294-295. |
Continuations (1)
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Number |
Date |
Country |
Parent |
774110 |
Oct 1991 |
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