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Magnesium hydroxide particle and resin composition containing same

A resin composition, magnesium hydroxide technology, applied in the direction of magnesium hydroxide, magnesium compounds, inorganic chemistry, etc., can solve the problems of flame retardants that cannot be used in flame retardants, misuse, high alpha ray release, etc., to achieve less flow Sexual and dispersive effects

Active Publication Date: 2015-07-22
TATEHO CHEM IND CO
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, existing flame retardants emit high amounts of α-rays, and misuse due to α-rays may occur, so existing flame retardants cannot be used as flame retardants for memory ICs.

Method used

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  • Magnesium hydroxide particle and resin composition containing same
  • Magnesium hydroxide particle and resin composition containing same
  • Magnesium hydroxide particle and resin composition containing same

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0106]

[0107] In container, add magnesium hydroxide (purity is more than 95 mass %, and alpha ray emission is 0.028c / cm 2 / h, and the median particle size is 4.9 μm), and iron oxide (purity of 98.4% by mass or more, α-ray emission of 0.001c / cm 2 / h, and the median particle size is 0.53 μm), the calcium oxide (purity is more than 99.5% by mass, and the amount of α-ray emission is 0.002c / cm 2 / h, and the median particle size is 1.04 μm), and the concentration of magnesium hydroxide is 30% by weight of ion-exchanged water and stirred. Then, the obtained white precipitate was filtered, washed with water, and dried. The dried product was pulverized with a ball mill, and baked at 1400° C. for 2 hours in an electric furnace. The calcined product was pulverized by a ball mill for 4 hours, and then classified to obtain magnesium oxide powder. The median particle size of the obtained magnesium oxide powder was 9.6 μm, and the crystallite diameter was 29.9×10 -9 m.

[0108] The ...

Embodiment 2

[0120] In container, add magnesium hydroxide (purity is more than 95 mass %, and alpha ray emission is 0.049c / cm 2 / h, and the median diameter is 5.0 μm), and relative to magnesium hydroxide, the addition of Fe is 450 ppm of iron oxide, the addition of Ca is 700 ppm of calcium oxide, and the concentration of magnesium hydroxide is 30% by weight of ion-exchanged water and stirred. In addition, iron oxide and calcium oxide are the same as those used in Example 1. Then, the obtained white precipitate was filtered, washed with water, and dried. The dried product was pulverized with a ball mill, and baked at 1400° C. for 2 hours in an electric furnace. The calcined product was pulverized by a ball mill for 8 hours, and then classified to obtain magnesium oxide powder. The median particle size of the obtained magnesium oxide powder was 6.8 μm, and the crystallite diameter was 27.6×10 -9 m.

[0121] The obtained magnesium oxide powder was added to a container with an inner volum...

Embodiment 3

[0124] Magnesium hydroxide (purity is more than 95% by mass, α ray emission is 0.049c / cm2) used in the container is added in Example 2 2 / h, and the median diameter is 5.0 μm), and relative to magnesium hydroxide, the addition of Fe is 50 ppm of iron oxide, the addition of Ca is 200 ppm of calcium oxide, and the concentration of magnesium hydroxide is 30% by weight of ion-exchanged water and stirred. In addition, iron oxide and calcium oxide are the same as those used in Example 1. Then, the obtained white precipitate was filtered, washed with water, and dried. The dried product was pulverized with a ball mill, and baked at 1400° C. for 2 hours in an electric furnace. The calcined product was pulverized by a ball mill for 8 hours, and then classified to obtain magnesium oxide powder. The median particle size of the obtained magnesium oxide powder was 5.8 μm, and the crystallite diameter was 26.6×10 -9 m.

[0125] The obtained magnesium oxide powder was added to a containe...

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Abstract

Provided are: a magnesium hydroxide particle that emits little α-rays and shows excellent flowability and dispersibility when added to a resin; a resin composition containing the magnesium hydroxide particle; and a method for manufacturing the same. A magnesium hydroxide particle that is a hexagonal column-shaped particle, the external shape of a crystal of which consists of two (i.e., top and bottom) hexagonal base planes, said base planes being parallel to each other, and six outer peripheral column planes formed between these basal planes, wherein the hexagonal column-shaped particle has a length in the c-axial direction of 0.5-6.0 μm, the length in the c-axial direction corresponds to at least 50% of the average particle diameter of the hexagonal column-shaped particle, the α-ray emitting quantity is 0.020 c / cm2 / h or less, and the purity is 98.0% or more, and a method for manufacturing the same.

Description

technical field [0001] The present invention relates to magnesium hydroxide particles and a resin composition containing them. Background technique [0002] Magnesium hydroxide does not generate toxic gas during firing and has excellent environmental properties, so it is added as a flame retardant of the resin composition for encapsulating semiconductors. However, the conventional flame retardants have a high emission amount of α-rays, and misuse due to α-rays may occur, so the conventional flame retardants cannot be used as flame retardants for memory ICs. In addition, there are increasing cases where logic ICs that do not require α-ray countermeasures are embedded together with memory ICs. Therefore, anti-alpha rays are also required for flame retardants for logic ICs. In order to solve such a problem, a magnesium hydroxide particle has been proposed, which is characterized in that it satisfies the following requirements (i) to (iv): (i) the average secondary particle si...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C01F5/22C08K3/22C08L63/00H01L23/29H01L23/31
CPCC01F5/22C01P2006/80C08L63/00C01P2004/54C01P2004/61C08K3/0033C08K2003/2224C01F5/145H01L23/295C01P2004/22C08K3/22C01F5/14C01P2006/90C09K21/02H01L2924/0002C08K3/013H01L2924/00
Inventor 大崎善久
Owner TATEHO CHEM IND CO