Method for continuously producing ultra-thick phenolic aldehyde outer wall heat-preservation board

An external wall thermal insulation board and phenolic technology, which is applied in the field of building external wall thermal insulation, can solve the problems of reducing thermal conductivity, dissatisfaction, and heartburn of ultra-thick phenolic external wall thermal insulation boards, and achieves the effect of reducing thermal conductivity and improving efficiency.

Inactive Publication Date: 2014-06-25
XINJIANG MAX TECH DEV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] The purpose of the present invention is to overcome the above-mentioned defects in the prior art and to provide a continuous production of ultra-thick phenolic exterior wall insulation board which solves the problems of heartburn and dissatisfaction during the production of ultra-thick phenolic exterior wall insulation boards and reduces thermal conductivity. Methods

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0022] A method for continuous production of ultra-thick phenolic exterior wall insulation boards, the following steps are adopted:

[0023] (1) Add foaming agent, flame retardant and surfactant to the phenolic resin, control the temperature at 15°C, and fully stir in the storage tank. The phenolic resin used is expandable phenolic resin, and the resin viscosity is 2000cps , The gel time is 50 seconds. The foaming agent is a mixed foaming agent, which is a mixture of alkanes catalysts. It can be a mixture of n-pentane and isopentane. The addition amount is 4wt% of the phenolic resin. The flame retardant is an inorganic Class flame retardant, the present embodiment adopts aluminum hydroxide, and the addition amount is 5wt% of phenolic resin, and surfactant is silicone oil, and the addition amount is 4wt% of phenolic resin. ;

[0024] (2) Put the mixed phenolic resin into the high-speed mixing cup of the machine head through the delivery pump, mix it with the curing agent in pr...

Embodiment 2

[0028] A method for continuous production of ultra-thick phenolic exterior wall insulation boards, using the following steps;

[0029] (1) Add foaming agent, flame retardant and surfactant to the phenolic resin, control the temperature at 15°C, and fully stir in the storage tank. The phenolic resin used is expandable phenolic resin, and the resin viscosity is 2000cps , The gel time is 50 seconds. The foaming agent is a mixed foaming agent, which is a mixture of alkanes catalysts. It can be a mixture of n-pentane and isopentane. The addition amount is 5wt% of the phenolic resin. The flame retardant is an inorganic The fire retardant of class, present embodiment adopts ammonium polyphosphate, and addition is 8wt% of phenolic resin, and surfactant is Tween 80, and addition is 5wt% of phenolic resin;

[0030] (2) Put the mixed phenolic resin into the high-speed mixing cup of the machine head through the delivery pump, mix it with the curing agent in proportion, and then inject it ...

Embodiment 3

[0034] A method for continuous production of ultra-thick phenolic exterior wall insulation boards, the following steps are adopted:

[0035] (1) Add foaming agent, flame retardant and surfactant to the phenolic resin, control the temperature at 15°C, and fully stir in the storage tank. The phenolic resin used is expandable phenolic resin, and the resin viscosity is 2000cps , The gel time is 50 seconds. The foaming agent is a mixed foaming agent, which is a mixture of alkanes catalysts. It can be a mixture of n-pentane and isopentane. The addition amount is 6wt% of the phenolic resin. The flame retardant is an inorganic Class flame retardant, the present embodiment adopts ammonium polyphosphate, and the addition is 10wt% of phenolic resin, and surfactant is fatty acid glyceride, and addition is 6wt% of phenolic resin;

[0036] (2) Put the mixed phenolic resin into the high-speed mixing cup of the machine head through the delivery pump, mix it with the curing agent in proportion...

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Abstract

The invention relates to a method for continuously producing an ultra-thick phenolic aldehyde outer wall heat-preservation board. The method comprises the following steps: adding a foaming agent, a fire retardant and a surfactant into phenolic aldehyde resin; controlling the temperature to be kept at 15-20 DEG C; sufficiently agitating in a material storage tank, mixing with a curing agent according to a ratio, and injecting into a laminating machine; uniformly spreading coating materials on upper and lower chain plates of the laminating machine; covering a side surface with side paper; backwards conveying by the chain plates; and finally, incising and cutting to prepare the ultra-thick phenolic aldehyde outer wall heat-preservation board. Compared with the prior art, heat burning and un-filled foaming problems in the production process of the ultra-thick phenolic aldehyde outer wall heat-preservation board are solved, and the production efficiency is also improved.

Description

technical field [0001] The invention belongs to the field of thermal insulation of building exterior walls, and in particular relates to a method for continuously producing ultra-thick phenolic exterior wall thermal insulation boards. Background technique [0002] The basic thickness of ordinary phenolic external wall insulation boards is less than 60mm, and its thermal resistance is less than 1.8. In low temperature environments, such as winter in the north, the thermal resistance of external wall insulation is far from enough. The thermal conductivity of the phenolic foam board and increase the thickness of the insulation board. The thermal conductivity of modified phenolic foam boards on the market can generally reach 0.028W / m·K, but it is very difficult to continue to reduce it, so it is not obvious to increase its thermal resistance. [0003] The production process of phenolic external wall insulation board is also a heat release process, and when the thickness is more...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B29C43/20B29L31/10
Inventor 杨金平薛永顺
Owner XINJIANG MAX TECH DEV
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