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Composite flame retardant wood and production process thereof

A composite flame retardant and production process technology, which is applied in the direction of wood processing equipment, manufacturing tools, and wooden veneer joints, can solve the problems of halogen flame retardant restrictions, large environmental pollution, serious pollution, etc., to reduce vibration, The effect of good shock absorption

Active Publication Date: 2018-11-06
NANTONG A ZENITH DONGFANG FURNITURE CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] Wood flame retardant treatment has a long history. In the late 1940s, attempts were made to use urea and other weakly basic organic nitrogen compounds for phosphoric acid esterification, which reacted in wood to form phosphoric acid condensates, which made wood not only flame retardant but also resistant to loss. , but the pollution is relatively serious; due to the development of the times, people pay more and more attention to the protection of environmental issues, and products that bring great harm to the environment are gradually abandoned by people, and the use of halogen flame retardants that pollute the environment is extremely popular. big limit

Method used

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  • Composite flame retardant wood and production process thereof
  • Composite flame retardant wood and production process thereof
  • Composite flame retardant wood and production process thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0031] A composite flame-retardant wood production process, including the following steps, step 1, raw material selection and weighing; step 2, heating and mixing; step 3, stirring and cooling; step 4, filtering and screening; step 5, eroding the board; dry; Wherein in the above-mentioned step 1, according to raw material weight percentages are respectively: diamine hydrogen phosphate 20%, magnesium sulfate 20%, ammonium borate 30%, ammonium chloride 28%, defoamer 1%, dispersant 1% and A small amount of water, the defoamer is at least one of polyoxypropylene glyceryl ether, polyoxypropylene polyoxyethylene glyceryl ether and polydimethylsiloxane, and the dispersant is triethylhexyl phosphoric acid, sodium lauryl sulfate and At least one of methyl pentanol;

[0032] In the above-mentioned step two, a small amount of water is added to the reaction kettle, and then the diamine hydrogen phosphate, magnesium sulfate, ammonium borate, ammonium chloride, defoamer and dispersant weigh...

Embodiment 2

[0038] A composite flame-retardant wood production process, including the following steps, step 1, raw material selection and weighing; step 2, heating and mixing; step 3, stirring and cooling; step 4, filtering and screening; step 5, eroding the board; Dry;

[0039] Wherein in above-mentioned step 1, according to raw material weight percent respectively: diamine hydrogen phosphate 25%, magnesium sulfate 25%, ammonium borate 25%, ammonium chloride 24%, defoamer 0.5%, dispersant 0.5% and a small amount of water , the defoaming agent is at least one of polyoxypropylene glyceryl ether, polyoxypropylene polyoxyethylene glyceryl ether and polydimethylsiloxane, and the dispersant is triethylhexyl phosphoric acid, sodium lauryl sulfate and methyl At least one of pentanols;

[0040] In the above-mentioned step two, a small amount of water is added to the reaction kettle, and then the diamine hydrogen phosphate, magnesium sulfate, ammonium borate, ammonium chloride, defoamer and dispe...

Embodiment 3

[0046]A composite flame-retardant wood production process, including the following steps, step 1, raw material selection and weighing; step 2, heating and mixing; step 3, stirring and cooling; step 4, filtering and screening; step 5, eroding the board; Dry;

[0047] Wherein in the above-mentioned step 1, according to raw material weight percent respectively: 30% of diamine hydrogen phosphate, 29% of magnesium sulfate, 20% of ammonium borate, 20.8% of ammonium chloride, 0.1% of defoamer, 0.1% of dispersant and a small amount of water , the defoaming agent is at least one of polyoxypropylene glyceryl ether, polyoxypropylene polyoxyethylene glyceryl ether and polydimethylsiloxane, and the dispersant is triethylhexyl phosphoric acid, sodium lauryl sulfate and methyl At least one of pentanols;

[0048] In the above-mentioned step two, a small amount of water is added to the reaction kettle, and then the diamine hydrogen phosphate, magnesium sulfate, ammonium borate, ammonium chlor...

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Abstract

The invention discloses a composite flame retardant wood and a production process thereof. The composite flame retardant wood comprises a first board, a rubber pad, a second board, a third board, a bonding layer, a bump, a limiting slot, limiting blocks and a guide post, wherein the guide post is arranged on the top of the first board; the two ends of the top of the guide post are equipped with the limiting blocks; a guide sleeve is uniformly mounted on the bottom of the second board; and the limiting slot and the bump are matched components. According to the composite flame retardant wood disclosed by the invention, the third board covers the second board, the bump and the limiting slot are matched and fixed, and are bonded through the bonding layer which is made of super glue, so that the damping effect is very good under action of a spring and the rubber pad, and therefore, vibrations can be reduced; diammonium hydrogen phosphate, magnesium sulfate, ammonium borate, ammonium chloride, a de-foaming agent and a dispersing agent, which are in special proportion, are heated and mixed, are stirred and cooled, and are filtered and are screened; and the boards are eroded and are driedin air, so that easy leachability of an inorganic flame retardant is effectively overcome on the premise of keeping the original appearance of the wood.

Description

technical field [0001] The invention relates to the technical field of fire retardant equipment, in particular to a composite fire retardant wood and its production process. Background technique [0002] Wood flame retardant treatment has a long history. In the late 1940s, attempts were made to use urea and other weakly basic organic nitrogen compounds for phosphoric acid esterification, which reacted in wood to form phosphoric acid condensates, which made wood not only flame retardant but also resistant to loss. , but the pollution is relatively serious; due to the development of the times, people pay more and more attention to the protection of environmental issues, and products that bring great harm to the environment are gradually abandoned by people, and the use of halogen flame retardants that pollute the environment is extremely popular. big limit. The development trend of flame retardants is towards the development trend of non-toxic, smoke-suppressing and high-effi...

Claims

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Application Information

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IPC IPC(8): B27D1/04B27D1/08B27K3/04
CPCB27D1/04B27D1/08B27K3/04
Inventor 高伟卢建军钱蒋锋钱海强俞斌傅泽勋张玲云
Owner NANTONG A ZENITH DONGFANG FURNITURE CO LTD
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