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Advanced polymer wood composite

a polymer wood composite and composite material technology, applied in the field of composite thermoplastic materials, can solve the problems of not producing the highest quality structural members or maximizing structural strength of particles of this size, and achieve the effects of high modulus, superior modulus of elasticity, and high compressive strength

Inactive Publication Date: 2004-07-01
ANDERSEN CORPORATION
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

The patent text describes a method for manufacturing window and door structural members using a polymer / wood fiber composite material in the form of a pellet. By combining polyvinyl chloride and wood fiber in a controlled manner, the resulting composite has high strength and stiffness. The method involves manufacturing the composite in the form of a pellet by mixing the materials in a thermoplastic extrusion process. The wood fiber can be introduced into the process in various sizes, and the intimate mixing of the materials results in a useful product with improved physical properties. The wood fiber can be pre-dried and pre-pelletized to achieve the desired size and strength. The water content in the wood fiber should be controlled to prevent issues during the manufacturing process. The technical effects of this patent text are the development of a reliable and effective method for manufacturing structural members with improved physical properties.

Problems solved by technology

The wood fiber comprises the sawdust or milling byproduct waste stream from milling wooden members in window manufacture and can be contaminated with substantial proportions of hot melt adhesive, paint, solvent or adhesive components, preservatives, polyvinyl chloride recycle pigment, plasticizers, etc.
However, particles of this size do not produce highest quality structural members or maximized structural strength.

Method used

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Examples

Experimental program
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Effect test

Embodiment Construction

[0030] A Cincinnati millicron extruder with an HP barrel, Cincinnati pelletizer screws, an AEG K-20 pelletizing head with 260 holes, each hole having a diameter of about 0.0200 inches was used to make the pellet. The input to the pelletizer comprised approximately 60 wt-% polymer and 40 wt-% sawdust. The polymer material comprises a thermoplastic mixture of approximately 100 parts of polyvinyl chloride homopolymer (in. weight of 88,000.+-.2000), about 15 parts titanium dioxide, about 2 parts ethylene bis-stearamide wax lubricant, about 1.5 parts calcium stearate, about 7.5 parts Rohm & Haas 820-T acrylic resin impact modifier / process aid and about 2 parts of dimethyl tin thioglycolate. The sawdust comprises a wood fiber particle containing about 5 wt-% recycled polyvinyl chloride having a composition substantially identical to that recited above.

[0031] The initial melt temperature in the extruder was maintained between 350.degree. C. and 400.degree. C. The pelletizer was operated at...

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Abstract

The invention relates to a composition comprising a polymer and wood fiber composite that can be used in the form of a linear extrudate or thermoplastic pellet to manufacture structural members. The polymer and wood fiber composite structural members can be manufactured in an extrusion process or an injection molding process. The linear extrudate or pellet can have a cross-section of any arbitrary shape, or can be a regular geometric. The pellet can have a cross-section shape having a volume of at least about 12 mm<3>. Preferably the pellet is a right cylindrical pellet having a minimum radius of about 1.5 mm and a minimum length of 1 mm weighing at least 14 mg. The invention also relates to an environmentally sensitive recycle of waste streams. The polymer and wood fiber composite contains an intentional recycle of a waste stream comprising polymer flakes or particles or wood fiber. The waste stream can comprises, in addition to polymer such as polyvinyl chloride or wood fiber, adhesive, paint, preservative, or other chemical stream common in the wood-window or door manufacturing process, or mixtures thereof. The initial mixing step before extrusion of the composite material insures substantial mixing and melt contact between molten polymer and wood fiber. The extruded pellet comprises a consistent proportion of polymer, wood fiber and water. During the extrusion, water is removed intentionally to dry the material to a maximum water content of less than about 10 wt-% based on the pellet weight. To make a structural unit, the pellet is introduced into an extruder or injection molding apparatus wherein, under conditions of temperature and pressure, the composite pellet material is shaped into a useful cross-section. Alternatively, the extruded thermoplastic mass, in the form of a elongated linear extrudate without a pelletizing step, can be immediately directed after formation into an extruder or injection molding apparatus.

Description

FILED OF THE INVENTION[0001] This invention relates to composite thermoplastic materials used for the fabrication of structural members. Such members an be any structural unit, preferably they are for use in windows and doors for residential and commercial architecture. These composite materials include an optional, intentional recycle of by-product streams, from window and door manufacture, of polymer, adhesive, paint, etc. More particularly, the invention relates to an improved composite material adapted to extrusion or injection molding processes for forming structural members that have improved properties when used in windows and doors. The composite materials of the invention can be made to manufacture structural components such as rails, jambs, stiles, sills, tracks, stop and sash, nonstructural trim elements such as grid, cove, bead, quarter round, etc.[0002] Conventional window and door manufacture has commonly used wood and metal components in forming structural members. Co...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): B27N3/00B27N3/28B29B9/14C08J5/04C08J5/06C08K7/02C08L27/06C08L97/02C08L101/00
CPCB27N3/007Y10T428/2904B29B9/14B29K2311/14C08J5/04C08J5/045C08J5/06C08J2327/06C08K7/02C08L27/06C08L97/02C08L101/00C08L2205/03B27N3/28Y10T428/253Y10T428/2907C08L2666/26C08L2666/06C08L2666/02C08L2666/04C08L2666/08Y10T428/249925
Inventor DEANER, MICHAEL J.PUPPIN, GIUSEPPEHEIKKILA, KURT E.
Owner ANDERSEN CORPORATION
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