RU2017598C1 - Method of manufacture of chip wood boards - Google Patents

Abstract

FIELD: wood- working industry. SUBSTANCE: method involves employment of polyurethane foam binding agent containing mixture of elementary polyethers, stabilizer of foam, foaming agent and solidification catalyst which is M-dioxibenzene in amounts of 0.6-10 units of mass and diphenylmethanediisocyanite in amounts of 120-130 units of mass with the following proportion of components: crushed wood - 100, polyurethane foam binding agent - 10-40 units of mass. EFFECT: enhanced operating capabilities.

Description

 The invention relates to the woodworking industry and can be used in the manufacture of glued wood materials, in particular chipboards, glued wood, etc.

 A known method of manufacturing chipboards based on crushed wood, urea-formaldehyde resin and a curing catalyst, followed by the formation of the carpet and its pressing. The disadvantage of this method is that the resulting plates have low strength properties, high toxicity and low rates of water absorption and swelling in thickness.

 A known method of manufacturing chipboards based on crushed wood, urea resin and catalyst. The plates obtained by this method have low water resistance and swelling thickness, have low physical and mechanical properties and high toxicity.

 A known method of producing chipboards based on crushed wood, urea-formaldehyde resin and a curing catalyst [1]. The plates obtained by this method do not meet the toxicity requirements, and the scarcity of the curing catalyst inhibits the implementation of the method. In addition, in the manufacture of plates requires a high temperature pressing.

 The closest in technical essence and the achieved result to the proposed one is a method for producing wood boards by mixing crushed wood, urea-formaldehyde resin and a complex catalyst for curing and hot pressing [2]. The plates obtained by this method tend to reduce their toxicity, however, this problem has not been fully resolved. In addition, their manufacture requires high temperature and a sharp increase in the duration of hot pressing. Plates are characterized by relatively low water resistance.

 The aim of the invention is to reduce the temperature of pressing plates, reducing their toxicity, water absorption and swelling in thickness, as well as increasing mechanical strength.

This is achieved by the fact that a polyurethane foam binder is applied to the wood particles, including a mixture of polyethers, a foam stabilizer, a blowing agent, and m-dioxibenzene-5 in the amount of 0.6-10 wt.h. as a curing catalyst. and polyisocyanate in an amount of 120-130 parts by weight in the following ratio of ingredients, parts by weight: Chopped wood 100
Polyurethane foam binder 10-40. Moreover, oxypropylated triol and N'-tetraoxypropylene diamine are used as the polyester mixture, as a foam stabilizer is a copolymer of polyorganosiloxane and polyoxysiloxane and a blowing agent — freon in the following ratio of components, parts by weight:
Oxypropylated Triol 70-80
N'-tetraoxypropylene diamine 20-30
Copolymer
polyorganosiloxane and polyoxysiloxane 1.3-2.0 Freon 25-35, and diphenylmethanediisocyanate as a polyisocyanate component.

 The advantage of the distinguishing features of the proposed method is the use of a new binder for the manufacture of chipboards, which reduces the pressing temperature and obtain non-toxic boards, improves their physical and mechanical properties, and also maintains a constant pressing time (8 ± 2 min) regardless of the thickness of the boards.

 The manufacturing process of chipboards according to the proposed method includes the following operations: preparing a polyurethane foam binder by thoroughly and sequentially mixing its component composition, applying a binder to wood particles, forming a carpet and pressing it.

PRI me R 1. In the mixing tank is placed a polyester mixture comprising an oxypropylated triol 70 parts by weight, N'-tetraoxypropylene diamine 20 wt. including a copolymer of polyorganosiloxane and polyoxysiloxane 1.3 parts by weight, freon 25 parts by weight and the curing catalyst m-dioxibenzene 5-0.6 parts by weight, mix thoroughly, then add diphenylmethanediisocyanate in an amount of 120 wt. o'clock and after repeated mixing the mixture in a predetermined amount is applied to wood particles. Formed mat is compressed in a hot press at ¹⁰⁰ ° C and residence time 8 min.

 Example 2. It is carried out in a sequence similar to the first example with the following components, parts by weight: hydroxypropylated triol 75, N'-tetraoxypropylenediamine 25, copolymer of polyorganosiloxane and polyoxysiloxane 1,7, freon 30, catalyst 5, diphenylmethaneisocyanate 125 .

 PRI me R 3. It is carried out in a sequence similar to the first example with the following components, parts by weight: oxypropylated triol 80, N'-tetraoxypropylene diamine 30, a copolymer of polyorganosiloxane and polyoxysiloxane 2.0, freon 35, diphenylmethanediisocyanate 130, catalyst 10 .

 Physico-mechanical properties of particle boards with a thickness of 16 mm depending on the component composition and binder consumption are given in the table.

 The research results showed that the tensile strength under static bending of the plates, depending on the content of the polyurethane foam binder, varies from 9.9 to 27.4 MPa, the tensile strength perpendicular to the formation - from 0.51 to 1.59 MPa, water absorption - from 17, 0 to 90.1%, and swelling in thickness - from 3.45 to 21.0%. No isolation of free isocyanate from the plates was found.

 Studies have established the possibility of varying the type and component composition of the polyester mixture in the range of oxypropylated triol 70-80 wt. hours, N'-tetraoxypropylene diamine 20-30, a copolymer of polyorganosiloxane and polyoxysiloxane 1.3-2.0, freon 25-35, m-dioxibenzene-5 0.6-10, diphenylmethanediisocyanate 120-130 parts by weight with the specified positive effect.

 The effectiveness of this method is achieved by reducing energy costs for the manufacture of plates, reducing toxicity and improving their physical and mechanical properties.

Claims (1)

METHOD FOR MANUFACTURE OF WOOD-SHAPED PLATES by mixing chopped wood and a binder and subsequent hot pressing, characterized in that, in order to reduce the temperature of pressing the plates, their toxicity, water absorption and swelling in thickness, increase the mechanical strength, a polyurethane foam binder comprising a mixture of simple polyesters - hydroxypropylated triol and tetraoxypropylene diamine, foam stabilizer - a copolymer of polyorganosiloxane and polyoxysiloxane, foaming the agent is freon, as the curing catalyst is m-dioxibenzene, diphenylmethanediiosocyanate in the following ratio of ingredients, parts by weight:
Shredded wood 100
Polyurethane foam binder 10 - 40
in the following ratio of components, parts by weight:
Oxypropylated Triol 70 - 80
Tetraoxypropylenediamine 20 - 30
The copolymer of polyorganosiloxane and polyoxysiloxane 1.3 - 2.0
m-Dioxibenzene 0.6 - 10
Freon 25 - 35
Diphenylmethanediisocyanate 120 - 130

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