Stock material or miscellaneous articles – Composite – Of carbohydrate
Reexamination Certificate
2001-06-25
2003-05-13
Kiliman, Leszek (Department: 1773)
Stock material or miscellaneous articles
Composite
Of carbohydrate
C428S535000, C428S536000, C428S537500, C244S109000, C244S12200B, C244S123800, C244S198000, C244S198000
Reexamination Certificate
active
06562479
ABSTRACT:
BACKGROUND OF THE INVENTION
This invention relates to a release agent and to a method producing that release agent. The release agent is typically used during the formation of composite wood products, such as, for example, fiberboard, particleboard and the like. More specifically, the release agent is employed to substantially prevent mats of lignocellulosic material and adhesive bonding agent from adhering to a formation area, such as a press system, in which the composite wood products are produced, and from adhering to a caul screen or plate if one is used. Furthermore, the subject release agent performs several additional functions in the product formation process.
Products such as composite wood products have been found to be acceptable alternatives in most cases to natural wood paneling, sheathing and decking lumber. Composite wood products are produced from wood particles bonded together by an adhesive, the adhesive being selected according to the intended use of and the properties desired for the finished product.
Often times, the adhesive is combined with other additives to impart additional properties to the lumber. Additives can include fire retardants, insect repellants, moisture resistants, fungus resistants and color dyes. A significant advantage of composite wood products is that they have many of the properties of plywood, but can be made from lower grade wood species and waste from other wood product production. These products also can be formed into lumber in lengths and widths independent of size of the timber as harvested. A major reason for increased presence in the marketplace of the above-described product alternatives to natural solid wood lumber is that these materials exhibit properties like those of the equivalent natural solid wood lumber, especially, the properties of retaining strength, durability, stability and finish under exposure to expected environmental and use conditions.
Classes of these alternative products are multi-layer lignocellulosic products such as multi-layer oriented wood strand particleboards, particularly those with a layer-to-layer oriented strand pattern, such as OSB. Oriented, multilayer wood strand boards are composed of several layers of thin wood strands. Wood strands are wood particles having a length which is several times greater than their width. These strands are formed by slicing larger wood pieces of wood so that the fiber elements in the strands are substantially parallel to the strand length. The strands in each layer are positioned relative to each other with their length in substantial parallel orientation and extending in a direction approaching a line which is parallel to one edge of the layer. The layers are positioned relative to each other with the oriented strands of adjacent layers perpendicular, forming a layer-to-layer cross-oriented strand pattern. Oriented, multilayer wood strand boards of the above-described type are described in detail in the following U.S. Pat. Nos.: 3,164,511, 4,364,984, 5,435,976, 5,470,631, 5,525,394, and 5,718,786, all of which are incorporated herein by reference.
Typical adhesive systems employed in the manufacture of composite wood products such as particleboard and fiberboard, and particularly in multi-layer wood products, comprise aldehyde resins and/or polymeric isocyanates. Aldehyde resins, particularly PF resins, are still the most widely used adhesives for the production of exterior grade composite wood-based panels. However, isocyanates (in particular MDI polymers) have been used in the wood industry for almost 25 years. These isocyanate materials alone, or in combination with an aldehyde resin, can produce excellent results when used as adhesives for particulate ligncellulosic products.
During the manufacture of composite lignocellulosic products, the lignocellulosic mats can adhere to the production equipment, particularly to caul screens and press platens. The upshot of this adhering problem is substantially increased production downtime, press damage, and even can be press fires. Also, if lignocellulosic material is mixed with an adhesive in a blender, cleanup can be quite difficult and time consuming.
In order to prevent the problem of lignocellulosic mats adhering to the production equipment during the manufacture of composite lignocellulosic products, a release agent was sprayed onto the caul screens and onto the surface of the mat of lignocellulosic material before the mat contacted the press platens.
U.S. Pat. No. 4,110,397 discloses composite bodies or sheets made from multiple compositions in which an isocyanate based binding agent is used. A metallic soap is used at the interface of the composition and the mold surface to assist release. The metallic soap is a metal salt of a long chain fatty acid.
U.S. Pat. No. 4,581,387 discloses internal release agents comprising esters and/or amides used in the manufacture of polyisocyanate polyurea molded parts. The esters and/or amides prepared by reacting a mixture of montanic acid and a carboxylic acid having ten or more carbon atoms with a polyol, alkanol-amine, or polyamine.
U.S. Pat. Nos. 4,772,442 and 4,933,232 relate to isocyanate carboxyl group for the manufacture of lignocellulosic composites. Disclosed are internal and external binder release agents which are fatty materials having at least one polymerized fatty acid and/or at least one polycarboxyl compound containing a polymeric fatty radical.
U.S. Pat. Nos. 5,607,633, 5,719,301 and 5,942,058 relate to co-adhesive systems for binding composite materials. The co-adhesive can be a conjugated trigylceride.
U.S. Pat. No. 5,554,438 relates to a self-release binder comprising an organic polyisocyanate binder and a composition comprising wax and a fatty acid.
SUMMARY OF THE INVENTION
The invention is directed to a release agent and a method for making same. The release agent of this invention is typically used in formation of a lignocellulosic composite products. The release agent is typically introduced into the formation area.
The release agent comprises at least one fatty acid and is capable of substantially preventing a mat comprising a lignocellulosic material and an adhesive bonding agent, generally formed within the confines of a formation chamber, from adhering to the formation area, such as a press system, and preferably having a plurality of platens. Additionally, the release agent is capable of substantially reducing deposits of either adhesive bonding agent or release agent which can accumulate in the formation area. Preferably, the release agent removes deposits of adhesive bonding agent and release agent from the surfaces of equipment used in the manufacture of the lignocellulosic composite product. For example, the build up of residue in the formation area, such as on the press system or on caul screens or caul plates can be substantially decreased so that the amount of cleaning required of this equipment during production is significantly diminished.
In a preferred form of this invention, the mat is formed on a caul screen or caul plate located within the formation area. The caul screen or caul plate will have a substantially longer useful life due to the substantial reduction in adhesive binding material and release agent deposits in the formation area on the caul screen or caul plate.
The release agent preferably is formed of at least one fatty acid which is preferably a branched fatty acid. More preferably, the branched fatty acid is neodecanoic acid.
The release agent preferably comprises at least about 5% by weight neodecanoic acid, more preferably comprises at least about 10% by weight neodecanoic acid, and most preferably comprises at least about 15% by weight neodecanoic acid, based on the total weight of the fatty acid.
In addition to the preferred neodecanoic acid branched fatty material, the release agent preferably includes fatty acids which produce a liquid soap at room temperature. Other fatty acids which can be employed with the neodecanoic acid are tall oil fatty acids, oleic acid, and mixtures with fatty acids of vegetable oils
Eckelman Deanna L.
Smalley Douglas S.
Associated Chemists, Inc.
Kiliman Leszek
Marger & Johnson & McCollom, P.C.
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