METHOD OF PRODUCING SPALTED WOOD VENEERS AND METHOD OF PRODUCING SPALTED WOOD PRODUCTS

Abstract

Methods of production of spalted wood veneer and spalted wood products are disclosed. The method of production of the spalted wood veneer includes comprising forming a wood veneer, and inoculating the wood veneer with spalting spores. The inoculated wood veneer is positioned in the chamber, which may be sterilized. The method of production of the spalted wood product includes sterilizing a chamber and inoculating a wood product with spalting spores. The inoculated wood product is positioned in the chamber.

Description

CROSS REFERENCE TO RELATED APPLICATIONS

This application is a continuation of U.S. patent application Ser. No. 13/611,028, filed Sep. 19, 2012, entitled “Spalted Wood Veneers and Spalted Engineered Wood Flooring”, which is a continuation of U.S. patent application Ser. No. 11/901,361, filed on Sep. 17, 2007, entitled “Spalted Wood Veneers, Spalted Engineered Wood Flooring and Method of Making”, the disclosures of which are hereby incorporated by reference in their entirety.

FIELD OF THE INVENTION

The present invention is related to spalted wood veneers, spalted engineered wood flooring and the method of making the veneers and flooring.

BACKGROUND OF THE INVENTION

Spalted wood occurs naturally in forests in felled logs and trees which have been infected with spalt fungus (a combination of white rot and blue stain). The spalting makes the wood brittle and difficult to cut into lumber. Therefore, it has not been possible to cut the spalted wood into veneers.

According to the American National Standards Institute, a veneer is a thin sheet of wood, rotary cut, sliced, or sawed from a log, bolt or flitch. A veneer is referred to as a ply when assembled. The formation of spalted veneers would permit the manufacture of spalted engineered wood flooring having a spalted wood veneer decorative layer.

Naturally occurring spalted maple is traditionally used by artisans in lathe produced turnings, e.g. bowls and vases. While spalted solid wood floors have been made from lumber pieces cut from spalted logs, it has not been possible to cut the spalted logs into veneers for use in making engineered wood and engineered wood floors. If the decay progresses too far, the wood becomes punky, soft and spongy, stringy, ringshaked, pitted or crumbly.

Spalting is a decay process in certain wood species that gives the wood a unique blotchy appearance having dark lines. White rot is a decay mechanism that yields thin distinctive lines with broad lighter colored areas in between the lines. White rot is caused by white rot decay fungi. The white rot attacks the cellulose and lignin giving the wood a whitish appearance and multicolored streaks of black, pink and gray. The white rot spores are typically airborne.

Blue stain does not contribute to the decay of the wood but does yield a yellow, orange, red, blue, black or brown coloration. It is caused by microscopic fungi that infect only the sapwood. The blue stain fungi are normally spread by spores that are carried into the wood by insects.

SUMMARY OF THE INVENTION

In an exemplary embodiment, a method of production of a spalted wood veneer includes comprising forming a wood veneer, sterilizing a chamber, and inoculating the wood veneer with spalting spores. The inoculated wood veneer is positioned in the chamber.

In another exemplary embodiment, a method of production of a spalted wood product includes sterilizing a chamber and inoculating a wood product with spalting spores. The inoculated wood product is positioned in the chamber.

In another exemplary embodiment, a method of production of a spalted wood veneer includes forming a wood veneer and inoculating the wood veneer with spalting spores. The inoculated wood veneer is positioned in the chamber.

DETAILED DESCRIPTION OF THE INVENTION

To form the spalted veneer, green (wet) wood is cut into veneers and then inoculated with the white rot (e.g. Phanerochaete chyrsosporium) and/or blue stain (e.g. Ceratocystis tenella) spores by coating the surfaces of the veneer with a solution containing the spores. Both of the major surfaces of the veneers can be efficiently coated with a roll coat system. Other means of inoculating the cut veneers is to spray the major surfaces of the veneers with a solution containing the white rot and/or blue stain spores. The environment of the impregnated veneers can be controlled to promote the rapid growth of the spalting and then stopped when the desired degree of spalting is achieved.

The invention is directed to any species of wood which can be cut into veneers and spalted. The wood species that can be used include maple, elm, beech, birch, buckeye, basswood, sycamore, apple, and the hickories. Red oak and white oak will also spalt. While walnut will spalt, it is dark in color and more difficult to observe.

White rot grows best at temperatures of from about 70° degree F. to about 90° degree F. and a wood moisture content of about 30% in an oxygen rich atmosphere. The best conditions for blue stain are temperatures between about 60° degree F. and about 150° degree F. and a wood moisture content of about 20% to about 30% in an oxygen rich atmosphere. For efficient growth of the white rot and blue stain spores, the wood veneer should have a moisture content of about 20% to about 40% during the spalting process.

Therefore, the inoculated veneers can be stacked into a chamber in which a preferred environment for spalting the veneer of about 50° degree F. to about 100° degree F. with about 50% RH to about 90% RH is maintained. No growth of the white rot is seen below about 50° degree F. A more preferred environment for processing the spalted veneers is a temperature of from about 70° degree F. to about 90° degree F. and about 70% RH to about 90% RH in an oxygen rich atmosphere.

Prior to loading the inoculated veneers into the chamber, the chamber could be sterilized with an ultraviolet light treatment to kill any other spores. The invention is not limited to ultraviolet light sterilization. Other sterilization techniques, such as using alcohol, may be used. The spalting process may take days, weeks or months, depending upon the type and condition of the wood and the environmental conditions. Samples are removed frequently and inspected to determine when the spalting process should be stopped. It is desired to allow the spalting to proceed to a point where the appearance is pleasing, but the structure of the veneer has not been overly weakened.

The spalting process can be halted by drying the veneers at a temperature of at least 130° degree F. After the spalting process has been stopped, the spalted veneers can be stabilized and/or stiffened by filling the spalted areas with waxes, oils, glues or impregnation chemicals, such as acrylics. The veneers are then glued to the engineered platform or base, and then tongue and groove edges, including locking tongue and groove edges or other locking or interlocking designs, are typically machined into the engineered wood piece.

Claims

1. A method of production of a spalted wood veneer, comprising:

forming a wood veneer;

sterilizing a chamber; and

inoculating the wood veneer with spalting spores,

wherein the inoculated wood veneer is positioned in the chamber.

2. The method of claim 1, wherein the spalting spores are selected from the group consisting of white rot spores, blue stain spores and a combination of white rot spores and blue stain spores.

3. The method of claim 1, wherein the spalting spores are in a solution.

4. The method of claim 3, wherein the inoculating is by applying the solution with a roll coater.

5. The method of claim 3, wherein the inoculating is by spraying the solution.

6. The method of claim 1, wherein the inoculated wood veneer is stacked within a plurality of inoculated wood veneers in the chamber.

7. The method of claim 1, wherein the sterilizing by subjecting the chamber to ultraviolet light.

8. The method of claim 1, wherein the inoculated wood veneer is subjected to a predetermined environment having an average temperature of from about 50° F. to about 100° F. and a relative humidity of from about 50% RH to about 90% RH.

9. The method of claim 8, wherein the predetermined environment has an average temperature of from about 70° F. and about 90° F. and a relative humidity of from about 70% RH to about 50% RH.

10. The method of claim 1, wherein the chamber is oxygen rich.

11. The method of claim 1, wherein the wood veneer has a moisture content of about 20% to about 40% during the spalting.

12. The method of claim 1, wherein continued spalting is deterred by raising the temperature of the wood veneer to at least 130° F.

13. The method of claim 1, wherein the spalted wood veneer is coated.

14. The method of claim 1, wherein the spalted wood veneer is coated with a wax, an oil, a glue or an impregnation chemical.

15. The method of claim 14, wherein the impregnation chemical is an acrylic.

16. The method of claim 1, further comprising gluing the inoculated wood veneer to a base to form a spalted engineered wood flooring.

17. The method of claim 1, wherein the wood veneer is a species of wood selected from the group consisting of maple, elm, beech, birch, buckeye, basswood, sycamore, apple, hickory, red oak, white oak, and walnut.

18. The method of claim 1, wherein the wood veneer is formed from a log, bolt, or flitch.

19. A method of production of a spalted wood product, comprising:

sterilizing a chamber;

inoculating a wood product with spalting spores,

wherein the inoculated wood product is positioned in the chamber.

20. A method of production of a spalted wood veneer, comprising:

forming a wood veneer,

inoculating the wood veneer with spalting spores,

wherein the inoculated wood veneer is positioned in the chamber.