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Ni-Fe-Pr-P plating bath, glass fibre Ni-Fe-Pr-P alloy and preparation thereof

A technology of glass fiber, ni-fe-pr-p, applied in the field of Ni-Fe-Pr-P plating solution and glass fiber Ni-Fe-Pr-P alloy and its preparation, which can solve the problem of heavy coating weight and loss Low tangent value, weak wave-absorbing performance of conductive glass fiber, etc., achieve the effect of lowering plating temperature, good conductivity, improving stability and utilization rate

Inactive Publication Date: 2010-01-13
NORTHWESTERN POLYTECHNICAL UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

In order to prevent electromagnetic pollution and information leakage, it is particularly important to control and shield electromagnetic waves. However, when metal fillers are used as conductive fillers, there are disadvantages of high price and heavy coating weight.
[0003] The Ni-Co-La-P, Ni-Co-Fe-La-P and Ni-Fe-La-P quaternary alloy plating solutions and their preparation methods developed by our research group in the early stage can be realized on glass fibers. Shidu, but the loss tangent value at higher frequencies is relatively low, and there is a disadvantage that the conductive glass fiber has weak absorbing performance

Method used

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  • Ni-Fe-Pr-P plating bath, glass fibre Ni-Fe-Pr-P alloy and preparation thereof
  • Ni-Fe-Pr-P plating bath, glass fibre Ni-Fe-Pr-P alloy and preparation thereof
  • Ni-Fe-Pr-P plating bath, glass fibre Ni-Fe-Pr-P alloy and preparation thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0024] 1. Weigh 2.10g of nickel sulfate and 0.80g of ferrous sulfate into a 250ml beaker, add 95ml of distilled water.

[0025] 2. Weigh 0.12g of praseodymium nitrate and put it into a 50ml beaker, add 5ml of distilled water and 2.50-5.50ml of concentrated hydrochloric acid, stir and dissolve in a magnetic stirrer at room temperature, and add it to the 250ml beaker in the above 1 after dissolving.

[0026] 3. Weigh 3.50g of sodium citrate, 0.90g of malic acid, 0.60g of succinic acid, 3.0g of sodium hypophosphite, 4.10g of ammonium sulfate, 0.02g of thiourea and 1.35g of urea into the 250ml beaker in the above 1 in sequence , stirred until completely dissolved, dripped ammonia water to adjust the pH=8.0±0.2, and prepared an electroless plating solution.

[0027] 4. Pre-treat the glass fiber, put the pre-treated glass fiber into the beaker filled with the prepared chemical solution in the above 1, heat in a water bath, and react at 50°C-70°C for 20-60min.

[0028] 5. After the ...

Embodiment 2

[0031] 1. Weigh 2.50g of nickel sulfate and 1.40g of ferrous sulfate into a 250ml beaker, add 95ml of distilled water.

[0032] 2. Weigh 0.10g of praseodymium nitrate and put it into a 50ml beaker, add 5ml of distilled water and 2.50-5.50ml of concentrated hydrochloric acid, stir and dissolve in a magnetic stirrer at room temperature, and add it to the 250ml beaker in the above 1 after dissolving.

[0033] 3. Weigh 4.60g of sodium citrate, 0.62g of malic acid, 0.50g of succinic acid, 2.96g of sodium hypophosphite, 4.12g of ammonium sulfate, 0.02g of thiourea and 1.35g of urea into the 250ml beaker in the above 1 in sequence , stirred until completely dissolved, dripped ammonia water to adjust the pH=8.0±0.2, and prepared an electroless plating solution.

[0034] 4. Pre-treat the glass fiber, put the pre-treated glass fiber into the beaker filled with the prepared chemical solution in the above 1, heat in a water bath, and react at 50°C-70°C for 20-60min.

[0035] 5. After the...

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Abstract

The invention relates to a Ni-Fe-Pr-P bath, a glass fiber Ni-Fe-Pr-P alloy and a preparation method thereof, which is characterized in that a formula of the bath comprises nickel sulfate, sodium hypophosphite, ferrous sulfate, praseodymium nitrate, sodium citrate, malic acid, butane diacid, ammonium sulfate, distilled water, thiourea, urea and concentrated hydrochloric acid; the preparation method comprises the following steps: main salts, namely, the nickel sulfate and the ferrous sulfate are put in the distilled water, added with the praseodymium nitrate, the distilled water and the concentrated hydrochloric acid after dissolution, and then added with sodium citrate, malic acid, butane diacid, ammonium sulfate, sodium hypophosphite, thiourea and urea in sequence for dissolution and then added with ammonia to prepare the electroless bath. A chemical plating technology is utilized to prepare the glass fiber Ni-Fe-Pr-P alloy. The beneficial effects are that as a moderate amount of praseodymium nitrate is added to the electroless bath, the content of praseodymium in a prepared alloy coating is 10 percent to 20 percent; the glass fiber which adopts the chemical plating has good electrical conductivity and can be used as a conductive filler and an electric loss absorbent.

Description

technical field [0001] The invention relates to a Ni-Fe-Pr-P plating solution, a glass fiber Ni-Fe-Pr-P alloy and a preparation method thereof. Background technique [0002] At present, there are many reports on electroless plating ternary alloy plating solution and its preparation method at home and abroad, and there are few reports on quaternary alloy plating solution and related rare earth element electroless plating, and most of the plating solutions are applied on metal substrates. plating. Generally, when rare earth elements are added, the stability of the plating solution, the deposition rate and the quality of the coating can be significantly improved, and the material can be used to prepare magnetic recording media and corrosion-resistant coatings, but only plating on the metal substrate undoubtedly limits the scope of use of the material. In recent years, various non-metallic materials and polymer materials have been widely used in the electronics industry, and el...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C23C18/48C03C25/46
Inventor 黄英吴道伟苏武齐暑华
Owner NORTHWESTERN POLYTECHNICAL UNIV
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