Method of producing cast-to-size tools
First Claim
1. In the process of casting mating metal tool members comprising two punches having engaging surfaces for the shaping of compliant material and thereafter finishing such surfaces as necessary to achieve a predetermined configuration,the improvement in such process for reducing such finishing operation comprisingseparately casting each punch in a resin-bonded sand mold in which the cavity-defining face is shaped by a pattern representing the respective shaping surface with accurate allowance for shrinkage of the metal to be cast and such mold face is formed of a fine particulate sand,removing each cast punch from its mold after full solidification thereof with at least one of the castings at an above-ambient temperature at which its material-shaping surface is plastically formable, andplacing the castings together and pressing their intended engaging surfaces together to plastically shape them into conformance with these predetermined dimensions.
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Accused Products
Abstract
A process for producing multipiece complementary tooling castings is disclosed in which hollow internal surfaces are cast in a mold having a soft, low strength sand core piece to define such hollow portions and external surfaces are cast against hard, resin-bonded sand mold surfaces. The castings are removed from their respective molds while still warm and nested and pressed together to bring their working surfaces into conformance with each other. The result of this practice is a set of tool pieces that require little machining and display high accuracy in their as-cast condition.
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Citations
5 Claims
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1. In the process of casting mating metal tool members comprising two punches having engaging surfaces for the shaping of compliant material and thereafter finishing such surfaces as necessary to achieve a predetermined configuration,
the improvement in such process for reducing such finishing operation comprising separately casting each punch in a resin-bonded sand mold in which the cavity-defining face is shaped by a pattern representing the respective shaping surface with accurate allowance for shrinkage of the metal to be cast and such mold face is formed of a fine particulate sand, removing each cast punch from its mold after full solidification thereof with at least one of the castings at an above-ambient temperature at which its material-shaping surface is plastically formable, and placing the castings together and pressing their intended engaging surfaces together to plastically shape them into conformance with these predetermined dimensions.
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3. In the process of casting mating metal tool members comprising a male punch, a female punch and a binder ring having engaging surfaces for the shaping of compliant material and thereafter finishing such surfaces as necessary to achieve a predetermined configuration,
the improvement in such process for reducing such finishing operations comprising separately casting each punch in a resin-bonded sand mold in which the cavity-defining face is shaped by a pattern representing the respective shaping surface with accurate allowance for shrinkage of the metal to be cast and such mold face is formed of a fine particulate sand, casting the binder ring in a like resin-bonded sand mold that defines the outer periphery of the ring and with a compliant green sand inner core that defines the inner periphery of the ring. removing each cast punch and the cast binder ring from their respective molds after full solidification thereof at an above-ambient temperature at which they are plastically formable, and placing the castings together and pressing their intended engaging surfaces together to plastically shape them into conformance so as to reduce the need for finish machining.
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5. In the process of casting mating metal tool members comprising a male punch, a female punch and a binder ring having engaging surfaces for the shaping of compliant material and thereafter finishing such surfaces as necessary to achieve a predetermined configuration,
the improvement in such process for reducing such finishing comprising separately casting each punch in a resin-bonded sand mold in which the cavity-defining face is shaped by a pattern representing the respective shaping surface with accurate allowance for shrinkage of the metal to be cast and such mold face is formed of a fine particulate sand having higher thermal conductivity and a lower coefficient of thermal expansion than silica sand, casting the binder ring in a like resin-bonded sand mold that defines the outer periphery of the ring and with a compliant oil-bonded green sand-containing inner core that defines the inner periphery of the ring, removing each casting from its mold after full solidification thereof at an above-ambient temperature at which it is plastically formable, placing the castings together with the male punch at the lower above-ambient temperature and the female punch and binder ring at respectively successively higher temperatures, and pressing the castings together with a stress greater than their respective weights, the cooler, harder male punch serving as a master tool against which the engaging surfaces of the other castings conform as they cool, so as to reduce the need for shaping surface finishing operations.
Specification