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Smelting distributing method utilizing nickel beads as main raw material for vacuum induction furnace

A technology of vacuum induction furnace and main raw materials, which is applied in the field of vacuum induction smelting, which can solve problems such as economic loss, top material bonding, failure of vacuum induction smelting, etc., and achieve the effect of good magnetic permeability

Active Publication Date: 2015-11-18
TAIYUAN IRON & STEEL GROUP
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, in the process of vacuum induction smelting, it was found that when nickel beads were used as the main smelting raw materials, the traditional distribution method with nickel plates and nickel beans as the main raw materials continued to be used (the traditional method of distribution was nickel as the bottom, and all Co, Mo, and Nb were added in turn. , W, and the last nickel is covered) it is very easy to cause the top material to stick, and the problem cannot be solved with a ramming rod, so it is forced to break the vacuum treatment
Because the smelted alloy generally contains a large amount of other expensive metals such as Co, Mo, Nb, W, etc., resulting in a large amount of economic losses
The bonding phenomenon of the top material produced by the vacuum induction smelting superalloy with Ni beads as the main raw material will cause the discharge phenomenon on the surface of the metal Ni beads under the action of the induced current, and the adjacent nickel beads will produce a similar "welding" adhesion phenomenon after discharge. When all the nickel beads on the surface of the crucible are "welded" into a whole, it is equivalent to forming a "pot cover" on the upper part of the crucible body, and it is very strong, unable to melt and sink, so that the vacuum induction smelting fails

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0025] The 500kg vacuum induction furnace smelled INCONEL740H alloy.The alloy contains Ni, CR, CO, NB, C, Al, Ti, B, Mg, ZR element.

[0026] Ⅰ Swatering the vacuum induction furnace is cleaned to remove the metal residue.

[0027] The Ⅱ angle is tilted by 15 °.

[0028] Part of the Ni beads are covered with the bottom of the n, and the alloys of this embodiment contain C, CO and NB, and put C in the center of the NI bead layer; then the CO board and NB strips are added in order.

[0029] 铺 Put the CR raw materials in the 坩埚, and add 1 / 2 CR blocks of CR raw materials required to smelting the amount of alloy smelting.

[0030] 混 Mix CR and NI until 坩埚.There must be metal CR and NI beads on the raw material tank surface.It is strictly forbidden to have NI beads on the flat surface.Then turn the angle back to vertical with the horizontal direction.Incorporate Ni beads, and the amount of NI pearls is 65%of the amount of Ni pearls added to the smelting, and the remaining NI beads are a...

Embodiment 2

[0034] Use 500kg vacuum sensing furnace to smell InConel617 alloy.The alloys contain elements of Ni, CR, CO, MO, C, Al, Ti, B, and B.

[0035] Ⅰ Swatering the vacuum induction furnace is cleaned to remove the metal residue.

[0036] The Ⅱ angle is tilted by 10 °.

[0037] Part III is wrapped in the bottom of the Ni beads, and then C is placed in the center of the Ni bead layer.

[0038] Then add the CO board and MO bar in order.

[0039] 铺 Put the CR raw materials in the 坩埚, and add 1 / 2 CR blocks of CR raw materials required to smelting the amount of alloy smelting.

[0040] 混 Mixed CR and NI mixes, and CR occupies a flat -paving area of about 15-18%, loading into 坩埚.It is strictly forbidden to have NI beads on the flat surface.Then turn the angle back to vertical with the horizontal direction, put it in NI beads, and install the amount of NI pearl to the smelting of 62%of the total amount of NI pearls.Add, turn off the lid to draw vacuum.

[0041] When the fabric is fabric, follo...

Embodiment 3

[0044] The 500kg vacuum induction furnace smelled C-2000 alloy.The alloy contains Ni, CR, MO, AL, C element.

[0045] Ⅰ Swatering the vacuum induction furnace is cleaned to remove the metal residue.

[0046] The Ⅱ angle is tilted by 15 °.

[0047] Part III is wrapped in the bottom of the Ni beads, and then C is placed in the center of the Ni bead layer.

[0048] Then add the MO bar.

[0049] 铺 Put the CR raw materials in the 坩埚, and add 1 / 2 CR blocks of CR raw materials required to smelting the amount of alloy smelting.

[0050]I Finally, the CR and NI mixes are performed. The proportion of the flat -paving area of CR is about 15-18%, and it is loaded.It is strictly forbidden to have NI beads on the flat surface.Then turn the angle back to vertical with the horizontal direction, put it into NI beads, and install the amount of NI pearl to the smelting of 65%of the total amount of NI pearls.Add, turn off the lid to draw vacuum.

[0051] When the fabric is fabric, follow the tightnes...

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Abstract

The invention relates to a smelting distributing method utilizing nickel beads as a main raw material for a vacuum induction furnace. The smelting distributing method comprises the following steps: (I) cleaning a smelting crucible of the vacuum induction furnace; (II) starting loading after the crucible is inclined by 10-15 degrees; (III) putting partial nickel beads into the bottom of the crucible until the bottom of the crucible is full; (IV) flatly paving 50%+ / -10% of Cr into the crucible; (V) adding the mixture of Ni and residual Cr into the crucible, wherein the area of Cr is 10%-25% of the flat paving area; rotating until the angle of the crucible is vertical to the horizontal direction; adding Ni beads, wherein the amount of the added Ni beads is more than 60% of the total added amount of Ni beads in the smelting process; and adding the residual Ni beads as a feed supplement in batches in the last stage of smelting; (VI)during distributing, tightly distributing materials at the bottom of crucible, and sparsely distributing materials at the middle upper part of the crucible; and (VII) adding easily-burnt elements including Al, Ti, B, Mg and Zr in the last stage of refining and an alloying stage. According to the smelting distributing method, an electric discharge phenomenon which appears on the surfaces of the Ni beads in the presence of induced current during smelting is avoided, and the phenomenon that the adjacent nickel beads are adhered after discharging is avoided.

Description

Technical field [0001] The present invention belongs to the field of vacuum sensing smelting technology, especially the vacuum induction furnace smelting fabric method with nickel beads as the main raw material. Background technique [0002] Vacuum sensing smelting is an important process of high -temperature alloy production. It has a series of advantages such as strong ability to get off the air, accurate component control, low miscellaneous content, and pure steel.Nickel -based alloys with harsh service environment and strict use conditions, such as: petrochemical, firepower power generation, turbine disk, aircraft engine, and other regulations.Metal raw materials.Nickel -based alloy generally Ni content is greater than 50%, and pure metal Ni is mainly divided into nickel plates, nickel beans and nickel beads.Among them, nickel beads are the highest quality raw materials. The content of impurities is extremely low and the price is high. It is mainly used as high -end and high ...

Claims

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Application Information

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IPC IPC(8): C22C1/02C22C27/06
Inventor 王岩徐芳泓曾莉李阳
Owner TAIYUAN IRON & STEEL GROUP
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