Method of producing composite members having increased strength
First Claim
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1. A method of making a foam member comprising the steps of:
- determining a volume expansion of an unexpanded foam material from a liquid to a solid;
incorporating chopped fibers and substantially incompressible filler material into said foam material to form a foam mixture in an amount wherein said incompressible filler material comprises a volume ratio of 20% to 80% with respect to an expanded volume of said foam mixture;
feeding said foam mixture through a die, wherein said foam mixture locates in a deformable structural material, said step of feeding after said step of determining said volume expansion of said foam material for preventing swelling of said deformable structural material;
expanding said foam mixture;
wherein said fibers contact and adhere to at least some of said filler material to act as anchoring members to said fibers;
adjusting a selected amount of said filler material in said foam mixture to achieve a coefficient of thermal expansion of said foam mixture that reduces shear stress between said foam mixture and said deformable structural material for preventing delamination of said foam mixture from said deformable structural material.
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Abstract
This invention relates to extruded composite materials specifically focusing on the increasing load bearing capacity and the overall strength of composites. Injectable conformable structural core materials are used to replace foam cells inside extruded composite materials thereby increasing the overall load bearing stability and strength. The core materials are tailored to have a desired CTE with respect to the structural materials. The core materials may also incorporate fibers and solid structural fillers for increasing the strength of the composite member. The objective is to enable composite materials to have the highest structural load bearing capability possible so that these technologies can be used as the replacement of wood, in aerospace applications and for other purposes.
75 Citations
22 Claims
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1. A method of making a foam member comprising the steps of:
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determining a volume expansion of an unexpanded foam material from a liquid to a solid; incorporating chopped fibers and substantially incompressible filler material into said foam material to form a foam mixture in an amount wherein said incompressible filler material comprises a volume ratio of 20% to 80% with respect to an expanded volume of said foam mixture; feeding said foam mixture through a die, wherein said foam mixture locates in a deformable structural material, said step of feeding after said step of determining said volume expansion of said foam material for preventing swelling of said deformable structural material; expanding said foam mixture; wherein said fibers contact and adhere to at least some of said filler material to act as anchoring members to said fibers; adjusting a selected amount of said filler material in said foam mixture to achieve a coefficient of thermal expansion of said foam mixture that reduces shear stress between said foam mixture and said deformable structural material for preventing delamination of said foam mixture from said deformable structural material. - View Dependent Claims (2, 3, 4, 5, 20)
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6. A method of making a member comprising the steps of:
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determining a volume expansion of a foam material from a liquid to a solid; incorporating fibers and rigidly solid substantially incompressible filler material into said foam material to form a foam mixture in an amount wherein said filler material comprises a volume ratio that adjusts said volume expansion of said foam mixture to reduce shear stress between said foam mixture and a deformable structural material; introducing said foam mixture through a die, wherein said foam mixture locates in said deformable structural material, said step of introducing after said step of determining said volume expansion of said foam material for preventing swelling of said deformable structural material; wherein said fibers contact and interact with at least some of said filler material, said filler material acting as anchoring members to anchor said fibers in said foam mixture, thereby strengthening the member; wherein said rigidly solid incompressible filler material interacts with said fibers throughout said foam mixture. - View Dependent Claims (7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19)
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21. A method of making a foam member comprising the steps of:
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determining an expanded foam volume of an unexpanded mixture of an unexpanded polymer material, chopped fibers and substantially incompressible filler material; calculating an optimal feed rate of said unexpanded mixture for preventing a volume mismatch with respect to a deformable structural material; feeding said unexpanded mixture through a die and expanding said unexpanded mixture to form an expanded foam mixture, wherein said filler material comprises a volume ratio of 20% to 80% with respect to a volume of said expanded foam mixture, wherein said expanded foam mixture locates in said deformable structural material; wherein said step of feeding is after said step of determining said expanded foam volume for preventing swelling of said deformable structural material; wherein said fibers contact and adhere to at least some of said filler material, said filler material acting as anchoring members to said fibers.
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22. A method of making a member comprising the steps of:
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determining an expanded foam volume of an unexpanded mixture of unexpanded polymer material, chopped fibers and substantially incompressible filler material; calculating an optimal feed rate of said unexpanded mixture comprising said unexpanded polymer material, said fibers and said filler material for preventing a volume mismatch with respect to a deformable structural material; introducing said unexpanded mixture through a die, wherein said unexpanded mixture expands to form an expanded foam mixture, wherein said filler material comprises a volume ratio that adjusts a volume of said expanded foam mixture, to reduce shear stress between said expanded foam mixture and a deformable structural material wherein said expanded mixture locates in said deformable structural material; said step of introducing is after said step of determining said expanded foam volume for preventing swelling of said deformable structural material; wherein said fibers contact and interact with at least some of said filler material, said filler material acting as anchoring members to anchor said fibers in said expanded foam mixture, for strengthening the member; wherein said filler material interacts with said fibers throughout said expanded foam mixture; adjusting a selected amount of said filler material in said unexpanded mixture to achieve a desirable coefficient of thermal expansion of said expanded foam mixture with respect to said deformable structural material for reducing a difference in a coefficient of thermal expansion between the expanded foam mixture and the deformable structural material for significantly reducing or preventing delamination of said expanded foam mixture from said deformable structural material.
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Specification
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Current AssigneeEcopuro, LLC
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Original AssigneeEcopuro, LLC
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InventorsJohnson, Sr., William L.
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Primary Examiner(s)Daniels, Matthew J
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Application NumberUS13/111,680Publication NumberTime in Patent Office2,987 DaysField of Search264 453, 264131, 427194US Class CurrentCPC Class CodesB29C 2948/92561 Time, e.g. start, terminati...B29C 2948/926 Flow or feed rateB29C 2948/92761 Mechanical propertiesB29C 2948/92952 Drive section, e.g. gearbox...B29C 2948/9298 Start-up, shut-down or para...B29C 44/128 Internally reinforcing cons...B29C 44/186 Filling multiple cavities B...B29C 44/3411 Relieving stressesB29C 48/07 Flat, e.g. panelsB29C 48/11 comprising two or more part...B29C 48/12 Articles with an irregular ...B29C 48/304 specially adapted for bring...B29K 2105/04 cellular or porousB29L 2031/60 Multitubular or multicompar...
