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Particulate wood preservative and method for producing same

a wood preservative and wood technology, applied in the field of wood preservatives, can solve the problems of affecting the long-term efficacy, and contaminating the environment, and achieve the effect of widening the distribution of particle size and reducing the amount of biocid

Inactive Publication Date: 2005-11-17
OSMOSE
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0013] The principal aspect of the invention is sparingly soluble or substantially insoluble, biocidal particulates adapted to be incorporated into as a preservative treatment into wood and wood products. The biocide particulates preferably contain one or more sparingly soluble, copper-, zinc- and / or tin-containing particulates. Optionally the biocidal particulates can comprise solid, substantially insoluble organic biocides. Optionally, one or more of the biocidal particulates can further comprise a permeable coating of a substantially insoluble organic biocide. The biocide particulates of the current invention are also advantageously incorporated in nonfouling paints and coatings. Additionally, the biocide particulates when used in foliar applications on crops provides an efficacious treatment that is more resistant to rain, and the amount of the biocide may be reduced compared to prior art formulations having larger mean particle sizes and wider particle size distributions.
[0015] A third embodiment of this invention is an effective, long-lasting, environmentally responsible, non-staining / coloring, inexpensive, non-corrosion-inducing, injectable, sparingly soluble zinc-salt-containing particulate preservative treatment for wood and wood products that is substantially free of hazardous material. A fourth embodiment of this invention is an effective, long-lasting, inexpensive, non-corrosion-inducing, micron- to sub-micron-sized, sparingly soluble zinc-salt-containing particulates for use in non-fouling paints and coatings, and for use in foliar applications.

Problems solved by technology

There are several problems with these new copper-amine-containing preservatives.
This leaching is of concern for at least two reasons: 1) removal of the copper portion of the pesticide from the wood by leaching will compromise the long term efficacy of the formulation, and 2) the leached copper causes concern that the environment will be contaminated.
Copper is extremely toxic to certain fish at sub-part per million levels.
Copper leaching is such a problem that some states do not allow use of wood treated with the soluble copper containing wood preservatives near waterways.
The commercial soluble copper containing wood preservatives cause increased metal corrosion, for example of nails within the wood.
Traditional fastening material, including aluminum and standard galvanized fittings, are not suitable for use with wood treated with these new preservatives.
Further, the copper-containing portion of the treatment is not protective against some biological species, and these soluble copper containing wood preservatives require higher copper loading, a second organic biocide, or both to be effective.
The cost of providing and transporting the liquid carrier for these soluble products can be considerable, and the likelihood of an extreme biological impact on fish is very high if transported soluble copper wood preservative material is spilled or accidentally released near a waterway.
Finally, the cost of the amine—between three and 4 moles of amine are required to solubilize a mole of copper) is very high.

Method used

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  • Particulate wood preservative and method for producing same
  • Particulate wood preservative and method for producing same
  • Particulate wood preservative and method for producing same

Examples

Experimental program
Comparison scheme
Effect test

example 1

Milling Chlorothalonil with 0.5 mm Zirconium Silicate

[0177] The laboratory-sized vertical mill was provided by CB Mills, model# L-3-J. The mill has a 2 liter capacity and is jacketed for cooling. Unless otherwise specified, ambient water was cycled through the mill cooling jacket during operation. The internal dimensions are 3.9″ diameter by 9.1″ height. The mill uses a standard 3×3″ disk agitator (mild steel) on a stainless steel shaft, and it operates at 2,620 rpm.

[0178] The media used in this Example was 0.4-0.5 mm zirconium silicate beads supplied by CB Mills. All particle size determinations were made with a Sedigraph™ 5100T manufactured by Micromeritics, which uses x-ray detection and bases calculations of size on Stokes' Law.

[0179] The formulation contained 20.41% chlorothalonil (98% active), 5% Galoryl™ DT-120, 2% Morwet™ EFW, and 72.6% water by weight, and the concentrate had a pH of 8.0. The total batch weight was about 600 g. The results of a 7.5 hour grinding study ar...

example 2

Milling Chlorothalonil with 0.5 mm Zirconium Oxide

[0182] The same mill and conditions were used in this experiment as in experiment 1. However, the grinding media was 0.5-0.6 mm cerium-doped zirconium oxide beads obtained from CB Mills. The density of the cerium doped zirconium oxide is ˜6.0 g / cm3. The formulation contained 20.41% chlorothalonil (98% Active), 5% Galoryl™ DT-120, 2% Morwet™ EFW, 3% Pluronic™ F-108, and 69.6% water by weight, and the concentrate had a pH of about 7.3. The total batch weight was about 600 g. The results are shown in Table 2 below.

TABLE 2Particle Size Data - Volume % WithMilling Timed50Diameter Greater ThanMins.μm10 μm5 μm2 μm1 μm0.4 μm0.2 μm03.448307792——900.31333322—2400.210123351

[0183] For the higher density 0.5 mm zirconia milling media, a composition with a d50 less than 1 micron and a d95 less than 1 micron was obtainable in 90 minutes, and a composition with a d50 less than 0.3 microns and a d95 less than 0.4 microns was obtainable in 6 hours....

example 3

Milling Sparingly Soluble Copper Salts with 0.5 mm Zirconium Silicate

[0184] This comparative example and subsequent example show the effectiveness of the milling media and process on the particle size distribution of inorganic copper salts.

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Abstract

A wood preservative includes injectable particles comprising one or more sparingly soluble copper salts. The copper-based particles are sufficiently insoluble so as to not be easily removed by leaching but are sufficiently soluble to exhibit toxicity to primary organisms primarily responsible for the decay of the wood. Exemplary particles contain for example copper hydroxide, basic copper carbonate, copper carbonate, basic copper sulfates including particularly tribasic copper sulfate, basic copper nitrates, copper oxychlorides, copper borates, basic copper borates, and mixtures thereof. The particles typically have a size distribution in which at least 50% of particles have a diameter smaller than 0.25 μm, 0.2 μm, or 0.15 μm. At least about 20% and even more than 75% of the weight of the particles may be composed of the substantially crystalline copper salt. Wood or a wood product may be impregnated with copper-based particles of the invention.

Description

RELATED APPLICATIONS [0001] This application claims priority to U.S. Provisional application 60 / 571,535 filed on May 17, 2004, which is incorporated herein by reference, to co-pending U.S. patent application Ser. No. 10 / 868,967 filed Jun. 17, 2004, and to U.S. Provisional Application titled: MILLED SUBMICRON CHLOROTHALONIL WITH NARROW PARTICLE SIZE DISTRIBUTION, AND USES THEREOF, filed on Oct. 8, 2004, which is also incorporated herein by reference.STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH OR DEVELOPMENT [0002] not applicable INCORPORATION-BY-REFERENCE OF MATERIAL SUBMITTED ON A COMPACT DISC [0003] not applicable SEQUENCE LISTING [0004] not applicable FIELD OF THE INVENTION [0005] The present invention relates to particulate-based biocidal compositions, particularly wood preservatives comprising particles including one or more copper compounds. More particularly, the invention relates to a method of manufacture of particulate-based biocidal compositions capable of being injec...

Claims

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Application Information

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IPC IPC(8): B27K3/22B27K3/52C09D5/14C09D5/16C09D7/62
CPCA01N59/20A01N37/34B27K3/08B27K3/22B27K3/52C08K3/22C08K9/02C09D5/14C09D5/1618C09D7/1225C09D7/1266C09D7/1275B27K3/005A01N25/02A01N59/16A01N59/14A01N25/34A01N25/26A01N25/04A01N2300/00C09D7/62C09D7/67C09D7/68Y10T428/31989A01N25/00A01N25/08A01N25/12A01N29/10A01N31/08A01N31/14A01N33/00A01N33/26A01N43/00A01N57/00A01N57/06A01N57/10A01N57/14A01N57/16A01N59/00
Inventor RICHARDSON, H. WAYNEHODGE, ROBERT L.
Owner OSMOSE
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