Process for applying a material to a member
First Claim
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1. A process for applying a material to a member, the process comprising:
- providing a member having a surface suitable for receiving a material;
providing a mold having at least one contour;
locating the mold upon a rotating table surface;
placing the member adjacent to the mold, wherein the surface of the member includes a contour;
extruding a bead of the material robotically as a continuous bead in a viscoelastic state to the mold, the member or both and wherein the material includes a relatively minimal amount of residual stress upon application of the material to the member such that the material undergoes less deformation, wherein;
i) the material is positioned adjacent the at least one contour of the mold, the surface of the member or both with an automated apparatus; and
ii) the material is a thermally activatable polymeric sealing or reinforcing material that is activated at a temperature greater than about 70 degrees Celsius, 120 degrees Celsius or 150 degrees Celsius;
conforming the material, in a viscoelastic state, at least partially to the shape of the at least one contour of the mold and the contour of the member while the material is contacting the surface of the member, such that the material is formed into any shape or configuration depending upon the shape and configuration of the chosen contour; and
moving the member away from the mold with the material adhered to the surface of the member by rotating the rotating table surface.
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Accused Products
Abstract
There is disclosed a process for applying a material to a member having an adhesion surface. Typically, the process includes applying the material to a mold, the member or both. Thereafter, the material is at least partially conformed to the shape of the mold.
33 Citations
15 Claims
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1. A process for applying a material to a member, the process comprising:
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providing a member having a surface suitable for receiving a material; providing a mold having at least one contour; locating the mold upon a rotating table surface; placing the member adjacent to the mold, wherein the surface of the member includes a contour; extruding a bead of the material robotically as a continuous bead in a viscoelastic state to the mold, the member or both and wherein the material includes a relatively minimal amount of residual stress upon application of the material to the member such that the material undergoes less deformation, wherein; i) the material is positioned adjacent the at least one contour of the mold, the surface of the member or both with an automated apparatus; and ii) the material is a thermally activatable polymeric sealing or reinforcing material that is activated at a temperature greater than about 70 degrees Celsius, 120 degrees Celsius or 150 degrees Celsius; conforming the material, in a viscoelastic state, at least partially to the shape of the at least one contour of the mold and the contour of the member while the material is contacting the surface of the member, such that the material is formed into any shape or configuration depending upon the shape and configuration of the chosen contour; and moving the member away from the mold with the material adhered to the surface of the member by rotating the rotating table surface. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A process for applying a material to a member of an automotive vehicle, the process comprising:
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providing a member of an automotive vehicle, the member having a surface suitable for receiving a material; providing a mold having at least one cavity suitable for receiving a material; locating the mold upon a rotating table surface; placing the member adjacent to the mold, wherein the surface of the member includes a cavity; extruding a bead of the material robotically as a continuous bead in a viscoelastic state to the mold, the member or both and the material includes a relatively minimal amount of residual stress upon application of the material to the member such that the material undergoes less deformation, wherein; i) the material is extruded into the at least one cavity with an automated apparatus that includes an extruder and a robot for moving the extruder relative to the mold; and ii) the material is a thermally activatable sealing or reinforcing material that is activated at a temperature greater than about 70 degrees Celsius, 120 degrees Celsius or 150 degrees Celsius; conforming the material, in a viscoelastic state, at least partially to the shape of the at least one cavity of the mold and the cavity of the material contacting the surface of the member, such that the material is formed into any shape or configuration depending upon the shape and configuration of the chosen cavity; moving the member away from the mold with the material adhered to the surface of the member by rotating the rotating table surface; and activating the material at elevated temperatures during a paint processing step of the automotive vehicle. - View Dependent Claims (12, 13, 14)
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15. A process for applying a material to a member of an automotive vehicle, the process comprising:
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providing a member of an automotive vehicle, the member having a surface suitable for receiving a material, the member being a cover fuel sender; providing a mold having at least one cavity suitable for receiving a material; locating the mold upon a rotating table surface; placing the member adjacent to the mold, and wherein the surface of the member includes a cavity; extruding a bead of the material robotically as a continuous bead to the mold, the member or both in a viscoelastic state at a temperature below 70°
C. and wherein the material includes a relatively minimal amount of residual stress upon application of the material to the member such that the material undergoes less deformation, whereini) the material is extruded into the at least one cavity with an automated apparatus that includes an extruder and a robot for moving the extruder relative to the mold; and ii) the material is thermally activatable, heat expandable and heat curable material that is activated at a temperature greater than about 70 degrees Celsius, 120 degrees Celsius or 150 degrees Celsius; conforming the material, in a viscoelastic state, at least partially to the shape of the at least one cavity of the mold and the cavity of the material contacting the surface of the member, such that the material is formed into any shape or configuration depending upon the shape and configuration of the chosen cavity; moving the member away from the mold with the material adhered to the surface of the member by rotating the rotating table surface; and curing the material at elevated temperatures during a paint processing step of the automotive vehicle.
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Specification