Axial clutch assembly as well as gas spring and gas damper assembly and method including same

The invention claimed is: 1. A gas spring and gas damper assembly comprising: a gas spring assembly having a longitudinal axis and including: a first end member; a second end member spaced longitudinally from said first end member; and, a flexible wall extending circumferentially about said longitudinal axis and being operatively connected between said first and second end members such that a spring chamber is at least partially defined therebetween; and, a gas damper assembly disposed within said spring chamber and operatively connected between said first and second end members, said gas damper assembly including: a first damper element operatively connected to said first end member and including a first side wall and a first end wall that at least partially define a first damping chamber; a second damper element extending longitudinally between a first end and a second end opposite said first end, said second damper element including a second end wall and a second side wall at least partially defining a second damping chamber with at least one of said first and second damping chambers disposed in fluid communication with said spring chamber, said second end wall disposed transverse to said second side wall and at least partially forming a second element piston, said second damper element being oriented such that said second element piston and at least a portion of said second side wall are disposed within said first damping chamber, said second damper element being slidably supported within said first damping chamber such that said second end wall is displaceable relative to said first side wall of said first damper element; a third damper element operatively connected to said second end member and including a damper rod and an element piston assembly disposed along said damper rod in spaced relation to said second end member, said third damper element being oriented such that said element piston assembly and at least a portion of said damper rod are disposed within said second damping chamber, said element piston assembly including an axial clutch that includes at least one piston element disposed along said second side wall of said second damping element; said gas spring and gas damper assembly operable in a first condition in which said at least one piston element of said axial clutch is substantially fixedly engaged with said second side wall of said second damper element such that relative axial movement between said second and third damper elements is substantially inhibited under operating conditions having less than a predetermined differential force threshold between said second and third damper elements thereby generating pressurized gas damping in said first damping chamber due to relative displacement between said first and second damper elements; and, said gas spring and gas damper assembly operable in a second condition in which said at least one piston element of said axial clutch is slidingly engaged with said second side wall of said second damper element such that said second and third damper elements are displaceable relative to one another under operating conditions having equal to or greater than said predetermined differential force threshold between said second and third damper elements. 2. A gas spring and gas damper assembly according to claim 1 , wherein said damper rod extends lengthwise between a first end disposed toward said second end member and a second end disposed in distal relation to said second end member relative to said first end, and said third damper element includes a damper piston wall extending radially-outwardly along said second end of said damper rod, said damper piston wall including opposing first and second sides with at least a portion of said at least one piston element disposed along each of said first and second sides of said damper piston wall. 3. A gas spring and gas damper assembly according to claim 2 , wherein said at least one piston element includes a plurality of piston elements disposed peripherally about said damper piston wall. 4. A gas spring and gas damper assembly according to claim 2 , wherein said at least one piston element is includes an outer surface extending axially therealong and a channel extending at least partially along said at least one piston element in radially inwardly-spaced relation to said outer surface, said channel being at least partially defined by a bottom surface and first and second side surfaces that extend radially inwardly from along said bottom surface, said first and second side surfaces disposed in spaced relation to one another such that said damper piston wall can be at least partially received within said channel. 5. A gas spring and gas damper assembly according to claim 4 , wherein said at least one piston element includes an inner surface extending axially therealong with said channel extending into said at least one piston element from along said inner surface such that first and second wall portions of said at least one piston element are formed along axially-opposing sides of said channel, said at least one piston element including at least one cam recess extending into at least one of said first and second wall portions from along said inner surface. 6. A gas spring and gas damper assembly according to claim 5 , wherein said at least one cam recess includes a first cam recess extending into said first wall portion and a second cam recess extending into said second wall portion. 7. A gas spring and gas damper assembly according to claim 6 , wherein said first cam recess includes a first cam surface disposed at a first angle relative to said first side surface, and said second cam recess includes a second cam surface disposed at a second angle relative to said second side surface, said first and second angles having a value within a range of from approximately 5 degrees to approximately 85 degrees. 8. A gas spring and gas damper assembly according to claim 7 , wherein said first and second angles are approximately equal to one another. 9. A gas spring and gas damper assembly according to claim 2 , wherein said axial clutch includes at least one cam member operatively engaging said at least one piston element. 10. A gas spring and gas damper assembly according to claim 9 , wherein said at least one cam member includes a first cam member disposed along said first side of said damper piston wall and a second cam member disposed along said second side of said damper piston wall, said first and second cam members operatively engaging said at least one piston element and being axially displaceable relative to said damper piston wall such that said axial clutch can be variable between said engaged condition and said disengaged condition. 11. A gas spring and gas damper assembly according to claim 10 , wherein said first cam member includes first and second side surfaces and a first cam member surface disposed at a first angle relative to said first side surface of said first cam member, and said second cam member includes first and second side surfaces and a second cam member surface disposed at a second angle relative to said first side surface of said second cam member, said first and second angles having a value within a range of from approximately 5 degrees to approximately 85 degrees. 12. A gas spring and gas damper assembly according to claim 11 , wherein said first and second angles respectively of said first and second cam members are approximately equal to one another, and approximately equal to said first and second angles respectively of said first and second cam surfaces of said at least one piston element. 13. A gas spring and gas damper assembly accor