A synthetic material is applied to a structure of an article of manufacture such as an automotive vehicle. Typically, the material assists in or at last does not interfere with manufacturing steps applied to the article of manufacture.
대표청구항▼
What is claimed is: 1. A method of providing sealing, reinforcement, structural adhesion, baffling or a combination thereof to a structure of an automotive vehicle while allowing for welding, the method comprising: providing a mass of synthetic material, the synthetic material including a base mate
What is claimed is: 1. A method of providing sealing, reinforcement, structural adhesion, baffling or a combination thereof to a structure of an automotive vehicle while allowing for welding, the method comprising: providing a mass of synthetic material, the synthetic material including a base material, the base material including a conductive filler; applying the mass of synthetic material to a member; performing a weld operation upon the member wherein the weld operation displaces at least a portion of the mass of synthetic material and forms a weld having a size that is at least 80% of the size of a weld formed by performing a weld operation upon the member without the synthetic material but with a same amount of electrical power or voltage; and activating, after performance of the weld operation, the synthetic material to cure in an automotive paint or coating processing step in an automobile assembly plant such that the synthetic material adheres to the member and provides sealing, reinforcement, structural adhesion, baffling or a combination thereof to the member; wherein the base material includes at least 12% by weight conductive filler and the at least 12% by weight conductive filler is selected from the group consisting of graphite, carbon black, iron phosphide, iron phosphite or combinations thereof; wherein the synthetic material includes a layer disposed upon at least one surface of the base material, the layer being a film having a thickness that is less than 0.5 mm; and wherein the layer includes at least 12% by weight conductive filler, the conductive filler including graphite. 2. A method as in claim 1 wherein the base material is tacky at temperatures between about 10�� C. and about 50�� C. 3. A method as in claim 1 wherein the base material, upon activation, expands to at least about 101% its original unexpanded volume. 4. A method as in claim 1 wherein the conductive material of the layer is entirely graphite. 5. A method as in claim 1 wherein the base material has a viscosity, at 45�� C. and a shear rate of 400 1/s of less than about 800 poise. 6. A method as in claim 1 wherein the layer is a polymeric film. 7. A method as in claim 1 wherein the conductive filler in the layer also includes is iron phosphide or iron phosphite. 8. A method of providing sealing, reinforcement, structural adhesion, baffling or a combination thereof to a structure of an automotive vehicle while allowing for welding, the method comprising: providing a synthetic material wherein the synthetic material includes: i) a mass of base material having at least one surface, the mass of material including a conductive filler; and ii) a layer disposed upon the at least one surface, the layer being a film that also includes a conductive filler, the conductive filler including graphite; placing the synthetic material between a first member and a second member of the automotive vehicle, both the first member and the second member having an outwardly facing surface and an inwardly facing surface; contacting the outwardly facing surface of the first member with a first electrode and contacting the outwardly facing surface of the second member with a second electrode; inducing an electrical current to flow between the first and second electrodes for forming a weld connecting the first member to the second member, the weld being at least 80% of the size of a weld formed by flowing current through the same members without the synthetic material but with a same amount of electrical power or voltage delivered to the electrodes; and activating, after forming the weld, the base material to cure in an automotive paint or coating processing step in an automobile assembly plant wherein the base material is a thermally activated material that cross-links upon activation and adheres to the first member, the second member or both; wherein provision of the synthetic material includes stretching of the film to thin the film. 9. A method as in claim 8 wherein the base material includes at least 8% by weight conductive filler. 10. A method as in claim 9 wherein the layer includes at least 8% by weight conductive filler. 11. A method as in claim 10 wherein the conductive filler in the base material is iron phosphide or iron phosphite. 12. A method as in claim 11 wherein the electrical current that flows between the electrodes is at least 80% of an amount of current that would flow through the members without the synthetic material therebetween. 13. A method as in claim 12 wherein the layer includes one or more correspondence components in common with the base material. 14. A method as in claim 12 wherein the synthetic material exhibits a post activation shear strength of greater than about 1500 psi. 15. A method as in claim 12 wherein the base material is tacky at temperatures between about 10�� C. and about 50�� C. 16. A method of providing sealing, reinforcement or baffling to a structure of an automotive vehicle while allowing for welding, the method comprising: providing a synthetic material wherein the synthetic material includes: i) a mass of base material having at least one surface, the mass of material including at least 12% by weight conductive filler, the conductive filler of the base material including at least one of graphite, iron phosphide or iron phosphite, the base material having a viscosity, at 45�� C. and a shear rate of 400 1/s, of less than 800 poise; and ii) a layer disposed upon the at least one surface, the layer being a polymeric film that also includes at least 12% by weight conductive filler, the conductive filler of the layer including a synthetic graphite having a range of 70 to 270 mesh; placing the synthetic material between a first panel and a second panel of the automotive vehicle, both the first panel and the second panel having an outwardly facing surface and an inwardly facing surface; contacting the outwardly facing surface of the first panel with a first electrode and contacting the outwardly facing surface of the second panel with a second electrode such that at least a portion of the synthetic material is displaced; inducing an electrical current to flow between the first and second electrodes for forming a weld connecting the first panel to the second panel wherein the electrical current that flows between the electrodes is at least 90% of an amount of current that would flow through the panels without the synthetic material therebetween, and wherein the weld is at least 90% of the size of a weld formed by flowing current through the same members without the synthetic material but with a same amount of electrical power or voltage delivered to the electrodes and wherein the synthetic material allows substantially full current flow between electrodes within 3 cycles or less of the current to the electrodes; and activating the base material wherein the base material is a thermally activated material that cross-links upon activation wherein the synthetic material exhibits a post activation lap shear strength of greater than about 1500 psi. 17. A method as in claim 1 wherein the synthetic material exhibits a lap shear strength of at least 1000 psi after activation. 18. A method as in claim 1 wherein the synthetic material provides sealing or structural adhesion to the member and, the synthetic material either expands to a volume that is 500% it unexpanded volume to assist in providing sealing or the synthetic material exhibits a lap shear strength of at least 1500 psi to assist in providing structural adhesion.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (45)
Brandys, Frank A.; Irwin, Michael J.; Tarbutton, Kent S., Ambient-temperature-stable, one-part curable epoxy adhesive.
Gray, Ralph C.; Van Buskirk, Ellor James; Pawlik, Michael J.; Nugent, Jr., Richard M.; Jones, Dennis W.; Coldren, Kathleen M.; Perrine, Steven D.; Jones, James E., Weldable coating of phosphated epoxy polymer, curing agent and electroconductive pigment.
Barrett L. Donald (Cleveland Heights OH) Hahn Dale R. (Union Lake MI) Pelloski Peter E. (Ferndale MI) Ziegler Richard W. (Troy MI), Welding corrosion inhibiting coating.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.