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Injectable structural adhesives, methods of using the same, and products formed therewith, are described. The adhesive is introduced through a first opening into an internal cavity formed between two or more components. The adhesive is then permitted or forced to flow through the internal cavity, s

Injectable structural adhesives, methods of using the same, and products formed therewith, are described. The adhesive is introduced through a first opening into an internal cavity formed between two or more components. The adhesive is then permitted or forced to flow through the internal cavity, substantially filling the cavity, until it reaches a second spaced opening. Any air contained within the internal cavity is removed by the flow of the adhesive.

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What is claimed is: 1. A bonded component system, comprising: a first component comprising a gas tank; a second component adjacent to the first component, the second component at least two spaced apertures; wherein an area defining an internal cavity is formed between the first component and the se

What is claimed is: 1. A bonded component system, comprising: a first component comprising a gas tank; a second component adjacent to the first component, the second component at least two spaced apertures; wherein an area defining an internal cavity is formed between the first component and the second component; and an adhesive material disposed within the cavity sufficient to bond the first component to the second component and provide structural support to the bonded component system, wherein a sufficient amount of the adhesive material is introduced into the cavity through either of the apertures such that the adhesive material reaches an area proximate to the other spaced aperture. 2. A bonded component system according to claim 1, wherein the second component is a rollover valve assembly. 3. A bonded component system according to claim 1, wherein the apertures are substantially opposed from one another. 4. A bonded component system according to claim 1, wherein the adhesive material is pumped into the cavity. 5. A bonded component according to claim 1, wherein the adhesive material substantially completely fills the cavity. 6. A bonded component according to claim 1, wherein the adhesive material is comprised of an acrylic-type adhesive material. 7. A bonded component system according to claim 1, wherein a suction source is applied to the other spaced aperture so as to draw at least a portion of the adhesive material towards an area proximate to the other spaced aperture. 8. A bonded component system, comprising: a first component comprising a gas tank; a second component adjacent to the first component, the second component defining at least two substantially spaced and opposed apertures; wherein an area defining an internal cavity is formed between the first component and the second component; and an adhesive material disposed within the cavity sufficient to bond the first component to the second component and provide structural support to the bonded component system, wherein a sufficient amount of the adhesive material is introduced into the cavity through either of the apertures such that the adhesive material reaches an area proximate to the other spaced aperture; and wherein the adhesive material substantially completely fills the cavity. 9. A bonded component system according to claim 8, wherein the second component is a rollover valve assembly. 10. A bonded component system according to claim 8, wherein the adhesive material is pumped into the cavity. 11. A bonded component system according to claim 8, wherein the adhesive material is comprised of an acrylic-type adhesive material. 12. A bonded component system according to claim 8, wherein a suction source is applied to the other spaced aperture so as to draw at least a portion of the adhesive material towards an area proximate to the other spaced aperture. 13. A gas tank system, comprising: a gas tank; a rollover valve assembly adjacent to the gas tank, the rollover valve assembly having at least two substantially spaced and opposed apertures formed on an external surface thereof; wherein an area defining an internal cavity is formed between the gas tank and the rollover assembly; and an adhesive material disposed within the cavity sufficient to bond the gas tank to the rollover valve assembly, wherein the adhesive material substantially completely fills the cavity. 14. A gas tank system according to claim 13, wherein the adhesive material is pumped into the cavity. 15. A gas tank system according to claim 13, wherein the adhesive material is comprised of an acrylic-type adhesive material. 16. A gas tank system according to claim 13, wherein a sufficient amount of the adhesive material is introduced into the cavity such that the adhesive material reaches an area proximate to the other spaced aperture. 17. A gas tank system according to claim 13, wherein a suction source is applied to the other spaced aperture so as to draw at least a portion of the adhesive material towards an area proximate to the other spaced aperture. 18. A gas tank system according to claim 13, wherein a portion of a surface of the gas tank includes a flange member. 19. A gas tank system according to claim 18, wherein the flange is angled. 20. A gas tank system according to claim 13, wherein a portion of an external surface of the gas tank includes a shoulder member. 21. A gas tank system according to claim 20, wherein the shoulder member is angled. 22. A gas tank system according to claim 13, wherein a portion of a surface of the rollover valve assembly includes a wedge-shaped member extending therefrom. 23. A gas tank system according to claim 13, wherein a portion of a surface of the rollover valve assembly includes a lip member extending therefrom. 24. A gas tank system according to claim 13, wherein the lip member is angled. 25. A method for forming a bonded component system, comprising: providing a first component comprising a gas tank; providing a second component adjacent to the first component, the second component defining at least two spaced apertures; wherein an area defining an internal cavity is formed between the first component and the second component; and disposing an adhesive material within the cavity sufficient to bond the first component to the second component and provide structural support to the bonded component system, wherein a sufficient amount of the adhesive material is introduced into the cavity through either of the apertures such that the adhesive material reaches an area proximate to the other spaced aperture. 26. The method according to claim 25, wherein the second component is a rollover valve assembly. 27. The method according to claim 25, wherein the apertures are substantially opposed from one another. 28. The method according to claim 25, wherein the adhesive material is pumped into the cavity. 29. The method according to claim 25, wherein the adhesive material substantially completely fills the cavity. 30. The method according to claim 25, wherein the adhesive material is comprised of an acrylic-type adhesive material. 31. The method according to claim 25, wherein a suction source is applied to the other spaced aperture so as to draw at least a portion of the adhesive material towards an area proximate to the other spaced aperture. 32. A method for forming a bonded component system, comprising: providing a first component; providing a second component adjacent to the first component, the second component defining at least two substantially spaced and opposed apertures; wherein an area defining an internal cavity is formed between the first component and the second component; and disposing an adhesive material within the cavity sufficient to bond the first component to the second component and provide structural support to the bonded component system, wherein a sufficient amount of the adhesive material is introduced into the cavity through either of the apertures such that the adhesive material reaches an area proximate to the other spaced aperture, applying a suction source to the other spaced aperture so as to draw at least a portion of the adhesive material towards an area proximate to the other spaced aperture and; wherein the adhesive material substantially completely fills the cavity. 33. The method according to claim 32, wherein the first component is a gas tank. 34. The method according to claim 32, wherein the second component is a rollover valve assembly. 35. The method according to claim 32, wherein the adhesive material is pumped into the cavity. 36. The method according to claim 32, wherein the adhesive material is comprised of an acrylic-type adhesive material. 37. A method for forming a gas tank system, comprising: providing a gas tank; providing a rollover valve assembly adjacent to the gas tank, the rollover valve assembly having at least two substantially spaced and opposed apertures formed on an external surface thereof; wherein an area defining an internal cavity is formed between the gas tank and the rollover valve assembly; and disposing an adhesive material within the cavity sufficient to bond the gas tank to the rollover valve assembly, wherein the adhesive material is introduced into the cavity through either of the apertures, wherein the adhesive material substantially completely fills the cavity. 38. The method according to claim 37, wherein the adhesive material is pumped into the cavity. 39. The method according to claim 37, wherein the adhesive material is comprised of an acrylic-type adhesive material. 40. The method according to claim 37, wherein a sufficient amount of the adhesive material is introduced into the cavity such that the adhesive material reaches an area proximate to the other spaced aperture. 41. The method according to claim 37, wherein a suction source is applied to the other spaced aperture so as to draw at least a portion of the adhesive material towards an area proximate to the other spaced aperture.