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The present disclosure includes a wood composite made from cellulosic particles, a binder, and a water-repelling agent. In some embodiments, the water repelling agent includes aliphatic compounds having a molecular distribution between about 16 and about 36 carbon atoms per molecule. In some embodim

The present disclosure includes a wood composite made from cellulosic particles, a binder, and a water-repelling agent. In some embodiments, the water repelling agent includes aliphatic compounds having a molecular distribution between about 16 and about 36 carbon atoms per molecule. In some embodiments, the water-repelling agent has an average molecular weight of about 220 to about 350 Daltons (solids portion). The water-repelling agent may be applied as a wax emulsion or in neat wax form. The present disclosure also relates to a method for manufacturing a wood composite as described above.

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1. A wood composite comprising: cellulosic particles present from approximately 50% to approximately 99.5% on a dry mass basis;a binder present from approximately 0.1% to approximately 20% on a dry mass basis; anda water-repelling agent present from approximately 0.1% to approximately 5.0% on a dry

1. A wood composite comprising: cellulosic particles present from approximately 50% to approximately 99.5% on a dry mass basis;a binder present from approximately 0.1% to approximately 20% on a dry mass basis; anda water-repelling agent present from approximately 0.1% to approximately 5.0% on a dry mass basis;wherein the water-repelling agent is a neat wax comprising a mixture of aliphatic compounds having a molecular distribution between about 16 and about 36 carbon atoms per molecule;wherein the water-repelling agent has a solids component and an oil content of about 0%, and wherein the solids component has an average molecular weight of about 220 to about 350 Daltons; andwherein the water-repelling agent has a melt point between about 18° C. and about 45° C. 2. The wood composite of claim 1 wherein the water-repelling agent is petroleum-derived. 3. The wood composite of claim 1 wherein the water-repelling agent is effective to inhibit water absorption in the wood composite so that a sample of the wood composite having dimensions of 8 inches by 16 inches by 0.72 inch has a moisture content of about 40% after immersion in water for about 48 hours and an internal bond strength of approximately 88 psi. 4. The wood composite of claim 1 wherein the water-repelling agent further comprises additional compounds, the additional compounds being selected from the group consisting of aromatic compounds, alkenes, alkynes, alkanes having a molecular distribution less than about 16 carbon atoms per molecule, alkanes having a molecular distribution greater than about 36 carbon atoms per molecule, and other organic compounds. 5. The wood composite of claim 1 wherein the aliphatic compounds are an alkane mixture. 6. The wood composite of claim 5, wherein the alkane mixture comprises about 70% to about 93% normal alkanes. 7. The wood composite of claim 5, wherein the alkane mixture comprises: about 7% to about 47% branched alkanes; andabout 53% to about 93% normal alkanes. 8. The wood composite of claim 1 wherein the wood composite is selected from the group consisting of particleboard, fiberboard, oriented strand board, laminated strand lumber, plywood, laminated veneer lumber, and parallel strand lumber. 9. A method for making a wood composite comprising: forming a wood composite formulation, the wood composite formulation comprising:cellulosic particles present from approximately 50% to approximately 99.5% on a dry mass basis;a binder present from approximately 0.1% to approximately 20% on a dry mass basis; anda water-repelling agent present from approximately 0.1% to approximately 5.0% on a dry mass basis; andcompressing the wood composite formulation under heat and pressure to form a wood composite;wherein the water-repelling agent is a neat wax comprising a mixture of aliphatic compounds having a molecular distribution between about 16 and about 36 carbon atoms per molecule;wherein the water-repelling agent has a solids component and an oil content of about 0%, and wherein the solids component has an average molecular weight of about 220 to about 350 Daltons; andwherein the water-repelling agent has a melt point between about 18° C. and about 45° C. 10. The method of claim 9 wherein the wood composite is selected from the group consisting of particleboard, fiberboard, oriented strand board, laminated strand lumber, plywood, laminated veneer lumber, and parallel strand lumber. 11. The method of claim 9 wherein the aliphatic compounds are an alkane mixture. 12. The method of claim 11, wherein the alkane mixture comprises about 70% to about 93% normal alkanes. 13. The method of claim 11, wherein the alkane mixture comprises: about 7% to about 47% branched alkanes; andabout 53% to about 93% normal alkanes. 14. The method of claim 9, further comprising performing one or more post-compression steps on the wood composite, the post compression steps being selected from the group consisting of trimming, sawing, grading, sorting, sanding, marking, labeling, stacking, sealing, packaging, and shipping. 15. The method of claim 9, wherein the water-repelling agent further comprises additional compounds, the additional compounds being selected from the group consisting of aromatic compounds, alkenes, alkynes, alkanes having a molecular distribution less than about 16 carbon atoms per molecule, alkanes having a molecular distribution greater than about 36 carbon atoms per molecule, and other organic compounds.