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Method for controlling variations of al-ti-c alloy grain refinement ability through controlling compression ratio

Inactive Publication Date: 2011-08-11
SHENZHEN SUNXING LIGHT ALLOYS MATERIALS CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0004]It is an object of the present invention to provide a method for controlling variations of Al—Ti—C alloy crystal grain refinement ability through controlling a compression ratio of sectional area of Al—Ti—C alloy.

Problems solved by technology

However, a quality control during a press process of the Al—Ti—C alloy has been ignored or indifferent to people.
The press process includes mill rolling and cast extrusion machine extruding, and many believe that a ratio of the sectional area before press process to that after press process (defined as compression ratio), a variation of temperatures before and after press process, a line speed at exit, and a quantity of the standers have relations with the refinement ability of the Al—Ti—C alloy crystal grain, and there is no quantitative optimal control method for control the refinement ability of the Al—Ti—C alloy crystal grain through these respects including compression ratio.

Method used

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  • Method for controlling variations of al-ti-c alloy grain refinement ability through controlling compression ratio
  • Method for controlling variations of al-ti-c alloy grain refinement ability through controlling compression ratio
  • Method for controlling variations of al-ti-c alloy grain refinement ability through controlling compression ratio

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Embodiment Construction

[0012]Reference will now be made to the drawings to describe preferred and exemplary embodiments in detail.

[0013]It has been proved that during a press process of the Al—Ti—C alloy, a pressure parameter of the press process is directly related with the refinement ability of the Al—Ti—C alloy crystal grain by experiments conducted by inventors of the present application using continuous casting and tandem rolling machines, and continuous casting and continuous extruding machines. The pressure parameter is closely relevant to the refinement ability of the Al—Ti—C alloy crystal grain. The following is a table 1 showing part of the experiments data.

TABLE 1S1 (mm2)S2 (mm2)D=S1S2ΔT (° C.)V (m / s)nΔ AAAA1AA2 76070.810.73377.9170162 78070.811.03378.1170162 80070.811.33378.3170162 96070.813.63379.9170160 98070.813.833710.1170160100070.814.133710.4170160116070.816.433712.0170158118070.816.733712.2170158120070.816.933712.4170158 76070.810.746810.3170160 78070.811.046810.6170159 80070.811.3468...

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Abstract

A method for controlling variations of Al—Ti—C alloy crystal grain refinement ability through controlling a compression ratio of sectional area of Al—Ti—C alloy including: A. establishing a relationship between variations of refinement ability of Al—Ti—C alloy crystal grain and parameters of press process of the Al—Ti—C alloy; setting the parameters of press process and controlling the variation of the refinement ability of the Al—Ti—C alloy crystal grain through controlling a value of the compression ratio.

Description

[0001]The present invention relates to processing techniques, especially relates to a method for controlling variations of Al(aluminum)-Ti(titanium)-C(carbon) alloy crystal grain refinement through controlling a ratio of sectional area of Al—Ti—C alloy before press processing to after press processing (namely compression ratio) during a production of the Al—Ti—C alloy.GENERAL BACKGROUND[0002]Currently, Al—Ti—C alloy is much popularly employing in Al material machining as a most efficient preliminary alloy for Al and Al alloy coagulation crystal grain refinement. A refinement ability of the Al—Ti—C alloy crystal grain is a very important factor when judging a quality of Al processing material. Usually, the better the Al—Ti—C alloy crystal grain refinement ability is, the higher yield strength and the better malleability of the Al material are. Therefore, the Al—Ti—C alloy manufacturers and research organizations are forward into developing improvements of the Al—Ti—C alloy crystal gr...

Claims

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Application Information

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IPC IPC(8): C22F3/00C21D11/00
CPCB21B3/00C22F1/04C22C1/06C22C1/03
Inventor CHEN, XUEMINYE, QINGDONGLI, JIANGUOLIU, CHAOWENYU, YUEMING
Owner SHENZHEN SUNXING LIGHT ALLOYS MATERIALS CO LTD