Performance-variable bushings as well as gas spring and damper assemblies including same

The invention claimed is: 1. A performance-variable bushing assembly dimensioned for securement between an end member of an associated gas spring assembly and a damper element of an associated damper assembly, said bushing assembly comprising: an inner support element including an element wall with an outside surface and inside surface at least partially defining a passage through said inner support element, said element wall including a flange wall portion extending outwardly from along said outside surface toward an outer peripheral edge; an outer support element spaced radially outward and coextensive with at least a portion of said inner support element; an elastomeric connecting element extending between and operatively connecting said inner and outer support elements such that a substantially fluid-tight seal is formed therebetween, said elastomeric connecting element at least partially formed from one of an electrorheological elastomeric material and a magnetorheological elastomeric material; and, a variation-inducing element operatively associated with at least said elastomeric connecting element and selectively operable to vary values of one or more physical properties within predetermined ranges of values corresponding to said one or more physical properties. 2. A performance-variable bushing assembly according to claim 1 , wherein said elastomeric connecting element is configured for use under a pre-load force applied by pressurized gas within a spring chamber of said associated gas spring assembly. 3. A performance-variable bushing assembly according to claim 1 , wherein said elastomeric connecting element is at least partially formed from an electrorheological elastomeric material, and said variation-inducing element is operative to generate and apply an electric field to said elastomeric connecting element. 4. A performance-variable bushing assembly according to claim 1 , wherein said elastomeric connecting element is at least partially formed from a magnetorheological elastomeric material, and said variation-inducing element is operative to generate and apply a magnetic field to said elastomeric connecting element. 5. A performance-variable bushing assembly according to claim 1 , wherein said elastomeric connecting element is permanently attached to said inner support element and said outer support element such that a substantially fluid-tight seal is formed therebetween. 6. A performance-variable bushing assembly according to claim 1 , wherein said variation-inducing element is substantially-entirely embedded within said elastomeric connecting element. 7. A gas spring and damper assembly comprising: a gas spring assembly including: a first end member; a second end member that is disposed in spaced relation to said first end member such that a longitudinal axis extends therebetween; and, flexible spring member extending peripherally about said axis and including a flexible wall extending longitudinally between opposing first and second ends, said first end operatively attached to said first end member such that a substantially fluid-tight seal is formed therebetween, said second end operatively attached to said second end member such that a substantially fluid-tight seal is formed therebetween, said flexible spring member and said first and second end members at least partially defining a spring chamber of said gas spring assembly; a damper assembly operatively connected with said gas spring assembly, said damper assembly including: a damper housing; and, a damper rod assembly operatively connected with said damper housing such that said damper can generate reciprocal damping motion between said damper housing and said damper rod assembly and thereby dissipate kinetic energy acting on said gas spring and damper assembly; and, a performance-variable bushing assembly operatively connected between said damper rod assembly and said first end member of said gas spring assembly such that forces acting on one of said damper rod assembly and said first end member are communicated through said performance-variable bushing assembly to the other of said damper rod assembly and said first end member, said performance-variable bushing assembly being at least partially formed from one of an electrorheological elastomeric material and a magnetorheological elastomeric material that includes one or more physical properties that are variable under said influence of a corresponding one of an electric field and a magnetic field. 8. A gas spring and damper assembly according to claim 7 , wherein said performance-variable bushing assembly is disposed in fluid communication with said spring chamber such that pre-load forces due to gas pressure within said spring chamber act on said performance-variable bushing. 9. A gas spring and damper assembly according to claim 7 , wherein said performance-variable bushing assembly includes: an inner support element including an element wall with an outside surface and inside surface at least partially defining a passage through said inner support element, said element wall including a flange wall portion extending outwardly from along said outside surface toward an outer peripheral edge; an outer support element spaced radially outward and coextensive with at least a portion of said inner support element; an elastomeric connecting element extending between and operatively connecting said inner and outer support elements such that a substantially fluid-tight seal is formed therebetween, said elastomeric connecting element at least partially formed from one of said electrorheological elastomeric material and a magnetorheological elastomeric material; and, a variation-inducing element operatively associated with at least said elastomeric connecting element and selectively operable to vary values of one or more physical properties within predetermined ranges of values corresponding to said one or more physical properties. 10. A suspension system comprising: a pressurized gas system; and, at least one gas spring and damper assembly according to claim 7 with said spring chamber of said at least one gas spring and damper assembly disposed in fluid communication with said pressurized gas system such that pressurized gas can be transferred into and out of said spring chamber. 11. A suspension system according to claim 10 further comprising a control system including a controller communicatively coupled with one or more components of said pressurized gas system and configured for selective operation thereof. 12. A suspension system according to claim 10 further comprising: one or more variation-inducing elements cooperatively associated with said performance-variable bushing; and, a control system including a controller communicatively coupled with said one or more variation-inducing elements and configured for selective operation thereof to vary values of one or more physical properties of said one of said electrorheological elastomeric material and said magnetorheological elastomeric material within predetermined ranges of values corresponding to said one or more physical properties. 13. A suspension system according to claim 12 further comprising a height sensor operatively associated with said at least one gas spring and damper assembly and communicatively coupled with said controller, and wherein said controller includes a height-determining module operative to process data, information, signals and/or communications from said height sensor relating to distances associated with said at least one gas spring and damper assembly. 14. A suspension system according to claim 12 further comprising