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Stacking method of titanium and titanium alloy briquette materials

A titanium alloy and material code technology is applied in the field of titanium and titanium alloy briquetting material and material, which can solve the problems of affecting the normal progress of the melting material, increase the cost, reduce the efficiency, etc. The effect of improving efficiency

Inactive Publication Date: 2014-09-24
攀枝花云钛实业有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

As a result, accidents of material jams and material blockages often occur during the smelting process
Thus affecting the normal progress of the melting material, resulting in a decrease in efficiency and an increase in cost

Method used

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Examples

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Embodiment Construction

[0008] specific implementation

[0009] The titanium and titanium alloy briquetting materials are evenly stacked in "ladder-like" staggered layers, with seven briquetting materials in each layer, and each layer is placed half a block back and then coded to the next layer, a total of four layers of ladder-shaped briquettes In order to leave more space in the material box and avoid jamming, the middle piece is placed upright.

[0009] The titanium and titanium alloy briquetting materials are evenly stacked in "ladder-like" staggered layers, with seven briquetting materials in each layer, and each layer is placed half a block back and then coded to the next layer, a total of four layers of ladder-shaped briquettes In order to leave more space in the material box and avoid jamming, the middle piece is placed upright.

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Abstract

The invention relates to a stacking method of titanium and titanium alloy briquette materials. The titanium and titanium alloy briquette materials are stacked uniformly in a stepped and staggered manner; the seven briquette materials are located on each layer; after one layer is stacked, the next layer is stacked by moving back by a distance of a half block; the stepped briquette materials are in four layers totally; and the materials in the middles are vertical. The method can completely avoid sticking and plugging in a smelting process.

Description

technical field [0001] The invention belongs to the technical field of titanium and titanium alloy briquetting material coding methods. Background technique [0002] At present, domestic and foreign EB furnace smelting enterprises generally use titanium sponge briquette as the raw material for the furnace. The width of the left and right feed frames of the EB furnace is 920mm, and the weight of the titanium sponge briquette is 6.3kg and the specification is 128x128x120mm. The traditional coding method is to lay 7 fast briquetting materials in a 920mm material frame. Burrs and irregular edges and corners will always appear around the pressed briquette, and at the same time, small particles of titanium sponge will fall and get stuck in the middle of the briquette from time to time during the coding process. As a result, accidents of material jams and material blockages often occur during the smelting process. Thereby affecting the normal progress of the melting material, res...

Claims

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Application Information

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IPC IPC(8): B65G1/16B65G57/00
Inventor 朱晓龙施汝洪朱发金陶杰彦
Owner 攀枝花云钛实业有限公司
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