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Preparation method of high power non-inductance synthesized resistor

A technology for synthesizing resistors and high power, applied in resistor manufacturing, resistors, circuits, etc., can solve the problems of poor mixing uniformity of monomer materials, difficult to accurately control the ratio, difficult to control and adjust, etc., to reduce the firing temperature, The effect of high market value and more controllable preparation methods

Active Publication Date: 2017-02-22
鼎垣建工科技(佛山)有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, in the above production method, the mixing uniformity of the monomer material is poor, and it is difficult to control and adjust. Because acetylene carbon black is used as the semiconducting chain component in the component, its fineness is too fine, the surface adsorption force is too strong, the dispersion is large, and it is easy to absorb. Tide, it is difficult to accurately control the proportion when weighing and mixing, the deviation is large, and it is more difficult to control when firing with protective inert gas nitrogen, and the yield is low

Method used

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  • Preparation method of high power non-inductance synthesized resistor
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  • Preparation method of high power non-inductance synthesized resistor

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0036] Example 1 Preparation method of high-power non-inductive synthetic resistor composition

[0037] Pretreatment: put all the materials into the infrared lamp oven for 1 to 2 hours before mixing according to the mass percentage; weigh the pretreated mullite, clay, talc, boric acid and barium carbonate respectively, and put them into the mixer Mix for ≥30 minutes to get the primary mixed material; weigh the pretreated recrystallized graphite and the primary mixed material and put them into a dry ball mill for dry mixing and milling for ≥60 minutes, discharge the material and humidify the bales, shape it, and fill it into the sagger A mixture of 1:1 graphite and activated carbon, sealed with a cover, buried and fired at a high temperature of 1150 degrees Celsius, out of the kiln to make electrodes, glazed, thermally stabilized, resistance measured, assembled, and high-power non-inductive synthetic resistance products can be obtained.

[0038]The preparation method of the abo...

Embodiment 2

[0039] Example 2 High-power non-inductive synthetic resistor composition

[0040] It is mainly prepared from the following raw materials in mass percentage:

[0041]

[0042] Preparation method of high-power non-inductive synthetic resistor:

[0043] Put all the materials in the infrared lamp oven for 1 hour before mixing according to the above mass percentage; weigh the pretreated mullite, clay, talc, boric acid, and barium carbonate according to the above mass percentage respectively, and put them into the mixer Mix ≥ 30 minutes for primary mixing to obtain primary mixed materials; weigh the pretreated recrystallized graphite and the above primary mixed materials according to 4%, put them into a dry ball mill for dry mixing and milling for 60 minutes, discharge and humidify the bales, shape them, and put them into boxes The bowl is filled with a mixture of 1:1 graphite and activated carbon, sealed and sealed, buried and fired at a high temperature of 1150 degrees Celsius...

Embodiment 3

[0045] Example Three High Power Non-Inductive Synthetic Resistor Composition

[0046] It is mainly prepared from the following raw materials in mass percentage:

[0047]

[0048]

[0049] Preparation method of high-power non-inductive synthetic resistor:

[0050] Put all the materials in the infrared lamp oven for 1 hour before mixing according to the above mass percentage; weigh the pretreated mullite, clay, talc, boric acid, and barium carbonate according to the above mass percentage respectively, and put them into the mixer Mix ≥ 30 minutes for primary mixing to obtain primary mixing materials; weigh the pretreated recrystallized graphite and the above primary mixing materials according to 3% and put them into a dry ball mill for dry mixing and milling for 60 minutes, discharge and humidify the bales, shape them, and put them into boxes The bowl is filled with a mixture of 1:1 graphite and activated carbon, sealed and sealed, buried and fired at a high temperature of...

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Abstract

The invention discloses a preparation method of a high power non-inductance synthesized resistor. The method comprises the following steps: 1, conducting pretreatment, wherein mullite, clay, talc, boric acid, barium carbonate and recrystallized graphite are dried based on mass ratios respectively; 2, weighing the pretreated mullite, clay, talc, boric acid and barium carbonate obtained after pretreatment in step 1, putting the aforementioned materials in an agitator for blending for 30 minutes or longer to obtain a primary mixture; 3, weighing recrystallized graphite pretreated in step 1, putting the primary mixture prepared in step 2 and the recrystallized graphite in a dry type ball mill for dry mixed grinding for 60 minutes or longer, discharging the material, moisturizing and binding the material, conducting the shape forming, taking products in a sagger and filling the sagger with a graphite and active carbon mixture, the ratio of graphite to active carbon is 1:1, sealing the sagger lid, burying and sintering, acquiring kiln-formed electrodes, conducting glazing, conducting thermal stabilization, measuring the resistance value of the resistor and assembling to obtain the high power non-inductance synthesized resistor product. The preparation method is easier to control, simple and higher in yield, enhances electrical stability and attains an excellent service performance in the electrical power application.

Description

technical field [0001] The invention belongs to the technical field of electronic materials, in particular to a method for preparing a high-power non-inductive synthetic resistor. Background technique [0002] Non-inductive synthetic resistor refers to a resistor whose inductive reactance value is very small and can be ignored. Some precision instrumentation equipment and electronic industrial equipment often need to use this kind of non-inductive synthetic resistor. Non-inductive synthetic resistors are often used as loads to absorb unnecessary electric energy generated during the use of products, or to buffer and brake. Such resistors are often called braking resistors and load resistors. In addition, for high-precision resistors, it is not allowed to have high impedance in the product, which requires the selection of high-quality materials and high-demand processes. Among them, metal non-inductive resistors are the most common. [0003] Metal non-inductive resistors ar...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01C17/00H01C17/30
CPCH01C17/00H01C17/30
Inventor 杨德厚陈亚洲韩德浩张海帆
Owner 鼎垣建工科技(佛山)有限公司