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An Al-Mo-Si intermediate alloy and process for preparing same

A master alloy, aluminum-molybdenum technology, applied in the field of aluminum-molybdenum-silicon master alloy and its preparation, can solve the problems of high cost, narrow adaptability, and inability to meet diversification, and achieve low cost, low production cost, and easy storage and transportation Effect

Inactive Publication Date: 2006-12-06
忠世高新材料股份有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

An existing aluminum-titanium rare earth compound master alloy smelted with titanium alloy (patent application number 94112628.5) has good oxidation resistance, but its cost is high and its adaptability is narrow (used for pure rare earth type titanium alloy smelting), which cannot meet the diversified requirements of modern titanium alloy production

Method used

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  • An Al-Mo-Si intermediate alloy and process for preparing same

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Experimental program
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Effect test

Embodiment 1

[0016] Using the ignition smelting method outside the furnace: according to the conventional steps, the raw materials are dried, the furnace is built, the ingredients are prepared according to the weight percentage, the materials are evenly mixed, the furnace is loaded, smelted, cooled, the furnace is started, weighing, finishing, crushing, magnetic Selection, sampling analysis, packaging.

[0017] Concrete preparation process is as follows:

[0018] 1. Drying of raw materials: drying raw materials, masonry slag, and batching slag in a drying room at a temperature of 75°C (can be 75±5°C) for 24 hours (can be 24 to 72 hours);

[0019] 2. Weigh the raw materials: Potassium chlorate is used as the catalyst during the batching (the added weight is 1-8% of the total amount of raw materials)

[0020] Al Industrial SiMoO 3 CaF 2 KClO 3

[0021] 1kg 0.041kg 0.877kg 0.38kg 0.174kg

[0022] 3. Mixing: put the material into the V-shaped mixer, mix evenly, and the number...

Embodiment 2~5

[0034] Embodiment 2~5. Operate by the method of embodiment 1, see table 1 with embodiment 1 difference.

[0035] Table 1. Al-Mo-Si Alloy Reaction System

[0036]

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Abstract

The invention relates to the preparation of titanium alloy, more specifically an Al-Mo-Si intermediate alloy for titanium alloy preparation and process for preparing the same, wherein the constituents (by weight percent) of the alloy include, Mo 38-48%, Si 3.5-4.5%, and balancing Al. The preparing process comprises, employing furnace outside ignition smelting method, operating according to routine procedures, the raw material drying temperature being 70-80 deg. C, the drying time no less than 24 hours, calculated based on 1kg of Al, the charged mixture includes, industrial Si 0.034-0.044kg, MoO3 0.781-0.935kg, CaF2 0.36-0.42kg, KCLO3 0.149-0.174kg, the raw material shoving temperature being 30-60 deg. C. The advantages of the invention include facilitated preparation of titanium alloy, low making cost, homogeneous alloying, good oxidation resistance, easy storing, transport and fragmenting.

Description

technical field [0001] The invention relates to the preparation of titanium alloys, in particular to an aluminum-molybdenum-silicon (aluminum-based) master alloy used in the preparation of titanium alloys and a preparation method thereof. Background technique [0002] With the continuous development of titanium alloys, it is more and more necessary for the master alloy to be directly added to titanium for smelting, which avoids the cumbersomeness of simply adding metal elements separately, and the melting point of the vanadium-based master alloy is lower than the highest melting point of each metal element; The melting point of AlMoSi alloy is 1486°C, while the melting point of Mo is 2610°C, which makes the preparation and smelting process of titanium alloy stable, and avoids the phenomenon that the melting current applied fluctuates and is not easy to control due to the inconsistency of the melting point of the metal element. An existing aluminum-titanium rare earth compoun...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C22C1/03C22C21/00
Inventor 张忠士郭淑君田福礼
Owner 忠世高新材料股份有限公司
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