A kind of preparation method of molybdenum alloy electrode

A molybdenum alloy and electrode technology is applied in the field of preparation of molybdenum alloy electrodes, which can solve the problems of accelerated molybdenum electrode erosion, shortened service life of pure molybdenum electrodes, and falling, etc., and achieves the effects of glass quality assurance, easy preparation method and simple operation.

Active Publication Date: 2017-03-15
JINDUICHENG MOLYBDENUM CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

Due to the low recrystallization temperature of pure molybdenum electrodes, the existence of some components in the glass melt at high temperatures, especially some additives such as clarifiers and decolorizers, will accelerate the erosion of molybdenum electrodes, making molybdenum electrodes prone to embrittlement at high temperatures and fracture, even falling into the molten glass solution, which seriously affects the normal development of industrial production and directly leads to the reduction of the service life of pure molybdenum electrodes

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  • A kind of preparation method of molybdenum alloy electrode
  • A kind of preparation method of molybdenum alloy electrode

Examples

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Embodiment 1

[0027] This embodiment includes the following steps:

[0028] Step 1, 30kg molybdenum powder and 192g analytically pure ZrH 2 The powder is placed in a V-type mixer and mixed evenly to obtain Mo-ZrH 2 Alloy powder; the average Fischer particle size of the molybdenum powder is 1.5 μm, and the bulk density is 0.90 g / cm 3 ;

[0029] Step 2, using cold isostatic pressing to make the Mo-ZrH described in step 1 2 Alloy powder pressed into Mo-ZrH 2 Alloy rod; the pressing pressure is 180MPa, and the holding time is 8min;

[0030] Step 3, Mo-ZrH described in step 2 2 The alloy rod is placed in a medium-frequency induction sintering furnace, and the temperature of the medium-frequency induction sintering furnace is raised to 1980°C and then kept for 6 hours. After cooling in the furnace, Φ110mm is obtained, and the density is 9.75g / cm 3 Mo-ZrO 2 Sintering alloy rods; during the heating process, control the heating time of the intermediate frequency induction sintering furnace fr...

Embodiment 2

[0036] This embodiment includes the following steps:

[0037] Step 1, 30kg molybdenum powder and 681g analytical pure ZrH 2 The powder is placed in a V-type mixer and mixed evenly to obtain Mo-ZrH 2 Alloy powder; the average Fischer particle size of the molybdenum powder is 2.85 μm, and the bulk density is 1.08 g / cm 3 ;

[0038] Step 2, using cold isostatic pressing to make the Mo-ZrH described in step 1 2 Alloy powder pressed into Mo-ZrH 2 Alloy rod; the pressing pressure is 200MPa, and the holding time is 10min;

[0039]Step 3, Mo-ZrH described in step 2 2 Alloy rods are placed in a medium frequency induction sintering furnace, and the temperature of the medium frequency induction sintering furnace is raised to 2000°C, and then kept for 7 hours, and then cooled with the furnace to obtain Φ200mm and a density of 9.45g / cm 3 Mo-ZrO 2 Sintering alloy rods; during the heating process, control the heating time of the intermediate frequency induction sintering furnace from 8...

Embodiment 3

[0045] This embodiment includes the following steps:

[0046] Step 1, with 30kg molybdenum powder and 1135g analytical pure ZrH 2 The powder is placed in a V-type mixer and mixed evenly to obtain Mo-ZrH 2 Alloy powder; the average Fischer particle size of the molybdenum powder is 3.32 μm, and the bulk density is 1.16 g / cm 3 ;

[0047] Step 2, using cold isostatic pressing to make the Mo-ZrH described in step 1 2 Alloy powder pressed into Mo-ZrH 2 Alloy rod; the pressing pressure is 190MPa, and the holding time is 10min;

[0048] Step 3, Mo-ZrH described in step 2 2 The alloy rod is placed in a medium-frequency induction sintering furnace, and the temperature of the medium-frequency induction sintering furnace is raised to 2100°C and then kept for 8 hours. After cooling in the furnace, Φ48mm is obtained, and the density is 9.33g / cm 3 Mo-ZrO 2 Sintered alloy rods; during the heating process, control the heating time of the intermediate frequency induction sintering furnac...

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Abstract

The invention discloses a method for preparing a molybdenum alloy electrode. The method comprises: 1. uniformly mixing molybdenum powder and ZrH2 powder to obtain alloy powder; 2. adopting cold isostatic pressing to press the alloy powder into an alloy rod; 3. Alloy rods are placed in an intermediate frequency induction sintering furnace, heated and kept warm to obtain sintered alloy rods; 4. Put sintered alloy rods in a muffle furnace for heating and heat preservation, and perform multi-fire forging on the sintered alloy rods after heat preservation to obtain forged alloys 5. Machining the forged alloy rod to obtain the semi-finished molybdenum alloy electrode; 6. Performing stress relief annealing on the semi-finished molybdenum alloy electrode to obtain the finished molybdenum alloy electrode. The molybdenum alloy electrode prepared by the method of the present invention has high recrystallization temperature, high high-temperature mechanical properties, recrystallization temperature greater than 1250°C, good glass erosion resistance, and a service life that is 25% higher than that of pure molybdenum electrodes, and does not pollute the glass The solution causes coloration to occur.

Description

technical field [0001] The invention belongs to the technical field of alloy electrode preparation, and in particular relates to a method for preparing a molybdenum alloy electrode. Background technique [0002] Molybdenum is a refractory metal with high high-temperature mechanical properties, good heat transfer and electrical conductivity, low expansion coefficient and non-coloring properties. It is the most widely used electrode material in electric melting furnaces in the glass industry. Due to the low recrystallization temperature of pure molybdenum electrodes, the existence of some components in the glass melt at high temperatures, especially some additives such as clarifiers and decolorizers, will accelerate the erosion of molybdenum electrodes, making molybdenum electrodes prone to embrittlement at high temperatures And break, even drop into the molten glass solution, seriously affect the normal development of industrial production, directly lead to the reduction of t...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B22F3/16B22F3/24C22F1/18C03B5/02
Inventor 卜春阳
Owner JINDUICHENG MOLYBDENUM CO LTD
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