NZ200301A - Wood preservative containing boric acid and organic amine - Google Patents

Description

New Zealand Paient Spedficaiion for Paient Number £00301 2 i n 9 1 t Priority Da;e{s): Complete Specification Filed: '/v t*. 9>?\ Class^ff?^ <&VF>.

PubHcation Date: 2,.Q.££p.

P.O. Journal, Mo: .. co°i ki-'l0*'10 J "SJ^TO2S \A APR 5982 «.jw>»g I4ECBVEO Patents Form No.5 NEW ZEALAND PATENTS ACT 1953 COMPLETE SPECIFICATION "WOOD PRESERVATIVE" -J',WE DR. WOLMAN GMBH, a limited liability company, organized under German Law, with a registered office at 7573 Sinzheim, Federal Republic of Germany, hereby declare the invention, for which J/we pray that a patent may be granted to jne/us, , and the method by which it is to be performed, to be particularly described in and by the following statement (Wlcwed by pa?e \ M • • o.z. 0975/00027 20030 - 1A- Wood preservative The present invention relates to an aqueous wood preservative based on boric acid and an organic amine.

- I-t-d-o lmown from Gorman Patent th?^ a trate having a high content of boric^£U-d-f--fCr~~exainple a mixture (composite) of die±feerrgTaj5ine. boric acid and water, is useful *c—a""wood pposervativo." If alkanolamines are used as solvents for the boric acid, the concentrates are of limited use as flameproofing paints. The concentrates are strongly hygroscopic, and though they dry initially, the coating on the wood becomes very tacky after a period of time which varies depending on the atmospheric moisture and temperature. If other amines, for example poly-amines, are used, the material dries excessively on the wood," so that the coatings in due course become brittle and craze. If the compositions are employed, as aqueous solutions (usually containing 90-75? by weight of water), as wood preservatives, and are applied by brushing, spraying or dipping, the penetration of the boric acid into the wood is adversely affected by the insufficient penetration of the amine, which is instantly bonded to the surface of the wood.

We have found that a wood preservative comprising a boric acid/water-soluble organic amine composite, water and sodium polyborate or a mixture of boric acid and borax, does not show the disadvantages mentioned above. All or most of the composite may be in the form of the boric acid salt of the amine, but the composites need not contain stoichiometric equivalents and free amine etc. may be present. The wood preservative according o the invention can be used both to protect the wood against ^ O.Z. 0975/0002?"' X m ^ attack by fungi and insects and as a flameproofing agent for protecting the wood from being set alight by fire.

Examples of suitable water-soluble organic amines are primary, secondary or tertiary organic amines, as well as 5 diamines, triamines, tetramines and pentamines, and hydroxy derivatives and methoxy derivatives of the said amines. Specific examples are monoethanolamine, diethanolamine, triethanolamine, monomethylethanolamine, methyldiethanolamine, ethylamine, diethylamine, propylamine, methoxyethylamine, 10 methoxypropylamine , dimethylethanolamine, 1,2-propylene- diamine, 3-amino-l-methylaminopropane, dipropylenetriamine, tripropylenetetramine, tetrapropylenepentamine and mixtures of these. Monoethanolamine is preferred.

In the case of most amines, it suffices to stir the 15 boric' acid into the amine. Since the resulting liquids may however be too viscous, it can be advisable to add a small amount of water when using the compositions. The concentrate is easily prepared aboive a pH of from about 6.5 to 7.5.

Below this pH,- dissolution of the 'boric acid in the amine 20 or polyamine is more difficult. A pH of from about 7.5 to 8.0 corresponds to a ratio of about 1 mole of monoamine to 3-^ moles of boric acid. When using the polyamines, each amine radical of the polyamine molecule corresponds to about 3 moles of boric acid, i.e. for neutralization of 1 mole of 25 triamine for example 9 moles of boric acid are required. Any higher pH can readily be obtained by increasing the proportion of amine or of polyamine.

I Sodium polyborate (Na23g0^. 3^0) is a solid, water- P O.Z. 0975/00027.- * c - 3 - . soluble compound which is formed on reaction of boric acid with borax in water. The wood preservative according to the invention can accordingly contain sodium polyborate or a mixture of boric acid and borax, since the latter, as 5 mentioned above, is converted to sodium polyborate. In preparing the wood preservative according to the invention, it is preferred to. add a mixture of boric acid and borax, or to add boric acid and borax alternately, to the aqueous composition obtained by mixing the water-soluble amine and ■ 10 boric acid.

The wood preservative according to the invention contains, for example, from 20 to 60 parts by weight of the boric acid/water-soluble organic amine composite. To this is added,, for example, from 40 to 80 parts by weight of 15 sodium polyborate or, preferably, of a mixture- of boric acid and borax. The weight ratio of boric acid to borax in the mixture added, is, for example, from 2:1 to 1:1.2, preferably 1:1.

The wood preservative according to the invention is, 20 for examp.le, a viscous wood preservative and flameproof ing paste containing a total of 405 by weight of and having a solubility of more than 25* in water at 20°C.

The paste is obtained, for .example, by slowly stirring sodium polyborate, or boric acid/borax, into the boric 25 acid/amine composite. In the latter case-, whilst the material is being stirred in, reaction of boric acid and borax results in elimination of water and formation of sodium polyborate, which precipitates in a very fine crystalline O.Z. 0975^O0O27S IT*. * J ' - : "j %J I - i» -. form (1-10 um) and then, together with the boric acid/amine composite, forms the p^ste.

■ The ratio of boric acid to borax in the composite of these two ingredients is chosen in accordance with the pH of the boric acid/amine composite, so that the wood preservative according to the invention and its aqueous solutions have a pH of from 6 to 8'at 20°C. A greater or lesser amount of water can be added, as required, to the wood preservative according to the invention, in order to obtain the desired viscosity.

The sedimenting characteristics, and/or the brushing properties, of the wood preservative can be improved by adding thickeners and thixotropic agents.

In the following Examples parts and percentages are by weight. ~ EXAMPLE 1 Boric acid/amine concentrate 1, consisting of 20 parts by weight of monoethanolamine, 60 parts of boric acid and 20 parts of water.

Wood preservative, consisting of 33 parts of boric acid/amine concentrate 1 and 67 parts of a 1:1 borax/boric acid mixture.

Preparation: The boric acid/amine concentrate is introduced into a stirred vessel and boric acid ana borax are added alternately, whilst stirring. Stirring is continued until the boric acid and borax crystals have dissolved and the sodium polyborate has formed and separated out.

O.Z. 0975/00027 Coatings of the wood preservative, applied in 2 passes, 2 in1 a total amount of 300-450 g/m , to wood, dry very rapidly. They are not hygroscopic and do not become tacky or brittle, even after a lengthy period.

Application characteristics as a flameproofing agent: 2 - Amount applied: 350 g/m ; the wood is then stored at about 75?.atmospheric humidity/20°C for a period of 4 weeks.

The boric acid/amine concentrate gives very tacky coatings after drying.

The wood preservative according to Example 1 dries without crazing and is neither brittle nor tacky.

On exposure to heat,.the wood preservative according to Example 1, present on the wood, forms a microscopic layer of boron trioxiae foam, with elimination_of water, and this layer serves as an insulating agent for the wood below it. The normally flammable wood acquires low flamma- bility as a result of the coating.

Penetrating capacity when used as a wood preservative: Sample pieces of wood are brushed with 10? strength aqueous solutions and after 7 days the depth of penetration is determined by testing the.wood with Kurkuma reagent.

The boric acid/amine concentrate is applied at the rate 2 of 50 g of concentrate/m and gives a mean penetration (fiber saturation) of 3.6 mm.

The wood preservative according to Example 1 is applied 2 in an amount of 50 g/m and gives a mean penetration of 6.2 mm.

Claims (15)

O.Z. 0975/00027 - 6 - EXAMPLE 2 Boric acid/amine concentrate 2: 15 parts of diethylen triamine, 20 parts of water -and 65 parts of boric acid. Wood preservative consisting of: 50 parts of boric acid/amine concentrate 2 and 50 parts of a 1.2:1 mixture of boric acid/borax. The method of preparation is as described in Example 1 Application characteristics as a flameproofing agent: 2 Amount applied: 350 g/ro ; the wood is then stored at about 65% atmospheric humidity/20°C for a period of 4 weeks Boric acid/amine concentrate 2: a dry crazed film is obtained. Wood preservative according to Example 2: the film is dry, free~from crazing, and neither brittle nor tacky. Penetrating capacity when used as a wood preservative: Sample pieces of wood are brushed with 10$ strength solutions and after 7 days the penetration is determined with Kurkuma reagent. Boric acid/amine concentrate 2: mean penetration (fiber saturation) 3.2 mm. Wood preservative according to Example 2: mean penetration 6.0 mm. Colored coatings and colored wood preservative solutions can be prepared by adding pigment preparations or dyes. The addition of wetting agents assists instant wetting of the wood by the wood preservative. t 200301 o.z. 0975/00027 - 7 - CLAIM J5> GLAI-&S-

1. A wood preservative comprising a boric acid/water-soluble organic amine composite, water and sodium polyborate or a mixture of boric acid and b^rax.

2. A wood preservative as claimed in claim 1, which contains boric acid and borax in a weight ratio of from 2:1 to 1:1.2, leaving out of account the boric acid present as the salt of the organic amine.

3. A wood preservative as claimed in claim 1 or 2,

wherein the amine contains up to 8 carbon atoms, up to 5 amino nitrogen atoms and optionally one or more hydroxy or methoxy groups.

4.' A wood preservative as claimed in claim 3, wherein the amine is monoethanolamine.

5. A wood preservative as claimed in any of claims 1 to 4, wherein the sodium polyborate and/or boric acid and borax constitute 40 to 80J by weight of the wopd preservative, leaving out of account water and the boric acid present as the salt of the organic amine.

6. A process for'preparing a wood preservative comprising stirring boric acid into a water-soluble organic amine, stirring sodium polyborate or boric acid and borax thereir.to and adding water as required.

7. A process as claimed in claim 6, wherein the boric acid is stirred into the amine at"a pH of at least 6.5

in the presence of water.

S. A process as claimed in claim 6 or 7, wherein either mixture of boric acid and borax is aacea or boric acid ar.d

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borax are added alternately, so that sodium polyborate is formed in situ in the presence of water.

9. A process as claimed in claim 8, wherein the weight ratio of boric acid to borax is chosen so that the wood preservative or an aqueous solution thereof has a pH of from 6 to 8 at 20°C.

10. A process for preparing a wood preservative claimed in claim 1 carried out substantially as hereinbefore described or exemplified.

11. A wood preservative when prepared by a process as claimed in any of claims 6 to 10.

12. A process for protecting wood against fungal and insect attack and fireproofing it comprising applying a wood preservative as claimed in any of claims 1 to 5 or 11 to the wood surface.

13- A process as claimed in claim 12 wherein the wood preservative is applied to the wood surface in an amount of from 300 to 450 g/m2.

described with reference to Example 1 or to Example 2.

15. A process for preparing a. wood as herein described with reference to Example 1

or to Example 2.