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Oxygen-rich lost foam bubble garage kit

A lost foam and oxygen-enriched technology, used in casting and molding equipment, etc., can solve the problems of insufficient pyrolysis and gasification of foam patterns, decreased fluidity at the front end of casting filling, and increased liquid and solid residues, so as to avoid liquid and solid residues. Increase in solid residues, low cost, and make up for the effect of endothermic cooling

Inactive Publication Date: 2017-09-19
ANHUI UNIVERSITY OF TECHNOLOGY AND SCIENCE
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] In the process of realizing the present invention, the inventors found that there are at least the following problems in the prior art: 1) The foam pattern prepared by various types of expandable resin beads, such as EPS (expandable polystyrene resin beads), EPMMA (expandable polymethyl methacrylate resin beads), STMMA (expandable methyl methacrylate and styrene copolymer resin beads), etc., all have carbon residues caused by high-temperature pyrolysis solid products to varying degrees. Surface defects such as black and slag inclusions
2) For the foam pattern prepared by various types of expandable resin beads, at high pouring temperature, the pyrolysis process needs to absorb a large amount of heat, causing the front-end metal liquid to cool down rapidly, resulting in a decrease in the fluidity of the front-end of casting filling, which is prone to cold Moreover, as the temperature of the front end of the molten metal drops, it is easy to cause insufficient pyrolysis and gasification of the foam pattern, and the increase of liquid and solid residues, together with the supercooled molten metal, forms the unique bean curd slag cold insulation phenomenon of lost foam casting

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0033] An oxygen-enriched foam white mold, in the foam structure of the white mold, the foam cavity gas is oxygen-enriched air or pure oxygen with an oxygen volume content of not less than 21%, and the foam structure material is EPS beads, In this embodiment, the white mold is prepared by enriching oxygen in the pre-foaming stage. Specifically, firstly, the oxygen-enriched steam is used for pre-foaming, and the pre-expanding machine adopted is an intermittent pre-expanding machine. The pre-foaming cylinder is preheated, and the preheating temperature is 80-90°C; after the preheating is completed, the EPS expandable original beads are quickly added to the pre-foaming cylinder, and then the oxygen volume content is not lower than 21% oxygen-enriched steam is pre-expanded, the pressure of the oxygen-enriched steam is 0.1-0.2MPa, and the temperature is 90-105°C. During the pre-expansion process, the material is in a good boiling state, and the material level continues to rise until...

Embodiment 2

[0036] The difference from Example 1 is that it is an oxygen-enriched lost foam foam white mold. The white mold is prepared by enriching oxygen in the drying and curing stage. Specifically, the pre-expanded pre-expanded EPS beads are first passed through The pipeline enters the drying and curing chamber, blows it dry with a blower, and then stores and matures it. The curing time is 6 to 8 hours. The curing chamber used for oxygen-enriched curing should be a closed structure, and the internal circulation is oxygen-enriched air with an oxygen volume content of not less than 21%. , 8 to 10 times of air exchange per hour to prevent excessive condensation of pentane in the warehouse; after the aging is completed, the conventional molding foaming and other process steps are carried out, and finally the oxygen-enriched lost foam foam white mold is obtained.

[0037] At this stage, the freshly pre-expanded EPS beads are placed under oxygen-enriched air for several hours to obtain matur...

Embodiment 3

[0039] The difference from Example 1 is that it is an oxygen-enriched lost foam foam white mold. The white mold is prepared by enriching oxygen in the foaming stage of molding. The feeder sprays the pre-foamed and dry-cured EPS beads into and fills the mold cavity, and feeds oxygen-enriched steam with an oxygen volume content of not less than 21% into the mold cavity to further expand the beads. The oxygen vapor pressure is 0.2-0.4MPa, the temperature is 110-120°C, and the foaming time is 30s-2min, finally forming a foamed plastic sheet or pattern.

[0040] At this stage, the oxygen-enriched steam permeates into the internal cells of the pre-expanded and matured EPS beads again, and at the same time, the remaining foaming agent in the cells is also vaporized and expanded by heat, which further expands the cells and the volume of the beads. Restricted by the mold wall, the foam beads in the semi-molten state are bonded to each other and fill the gaps between the particles, fina...

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Abstract

The invention discloses an oxygen-enriched lost foam foam white mold, which belongs to the technical field of lost foam casting. In the foam structure of the foam white mold, the foam cavity gas is oxygen-enriched air or pure oxygen with an oxygen volume content of not less than 21%. Oxygen, the foam structure material includes EPS beads, EPMMA beads, STMMA beads and other commonly used expandable resin beads. The preparation method includes at least one of the oxygen-enriching method in the pre-foaming stage, the oxygen-enriching method in the drying and aging stage, and the oxygen-enriching method in the molding and foaming stage. On the one hand, the oxygen-enriched gas in the cavity can promote the combustion and gasification of carbon atoms in the white mold, and reduce the residual solid products produced by foam pyrolysis; The endothermic cooling of the white mold pyrolysis process; and more active oxygen atoms can promote the cracking degree and cracking speed of the white mold.

Description

technical field [0001] The invention belongs to the technical field of lost foam casting, in particular to an oxygen-rich lost foam white mold. Background technique [0002] Lost foam casting is an advanced technology with nearly no margin and precise molding. It conforms to the general trend of casting technology development and has broad development prospects. Its superiority is beyond doubt. In the lost foam process technology, the development of the pattern material and the pattern preparation process are particularly important: first of all, only the pattern material can have the lost foam (real) casting technology, and the development of the lost foam casting technology requires a pattern with better performance materials, and their preparation processes. [0003] At present, the raw materials used in the foam pattern used in lost foam casting are expandable resin beads. There are three main types of products: expandable polystyrene (EPS), expandable polymethyl methac...

Claims

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Application Information

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IPC IPC(8): B22C7/02
CPCB22C7/023
Inventor 陈志浩姚敏朱协彬尹博白明雪
Owner ANHUI UNIVERSITY OF TECHNOLOGY AND SCIENCE
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