Air spring with damping characteristics for heavy-duty vehicles

What is claimed is: 1. A method for converting a non-damping air spring into an air spring with damping characteristics for a suspension assembly of a heavy-duty vehicle, comprising the following steps: a) providing a non-damping air spring including a bellows and a piston, said bellows configured to be attached to said piston to form a bellows chamber and further configured to be attached to a main member of said heavy-duty vehicle, the piston having an open bottom and being free of a piston chamber, said piston being configured to be attached to said suspension assembly of said heavy-duty vehicle, b) said non-damping air spring being converted to a damping air spring by: i) forming at least one opening between said bellows chamber and said piston; ii) sealingly closing said open bottom of said piston by attaching a disc to the open bottom, whereby the piston and said disc define a piston chamber, wherein airflow between the bellows chamber and the piston chamber provides damping to the suspension assembly of said heavy-duty vehicle. 2. The method for converting a non-damping air spring into an air spring with damping characteristics for a suspension assembly of a heavy-duty vehicle of claim 1 , said piston further comprising a flared portion and a piston sidewall, said disc being generally circular-shaped, further comprising a continuous raised lip, wherein said continuous raised lip is formed on a disc top surface along a periphery of said disc, with said continuous raised lip disposed generally between said flared portion and said piston sidewall for reinforcing said attachment of said disc to said piston. 3. The method for converting a non-damping air spring into an air spring with damping characteristics for a suspension assembly of a heavy-duty vehicle of claim 1 , said disc further comprising a groove formed in a top surface of said disc disposed circumferentially around said disc, and configured to mate with a lower surface of said piston for reinforcing said attachment of said disc to said piston. 4. The method for converting a non-damping air spring into an air spring with damping characteristics for a suspension assembly of a heavy-duty vehicle of claim 3 , an O-ring being disposed in said groove for reinforcing said attachment of said disc to said piston. 5. The method for converting a non-damping air spring into an air spring with damping characteristics for a suspension assembly of a heavy-duty vehicle of claim 1 , said piston further comprising a piston sidewall, and a central hub, said disc being generally cup-shaped, further comprising a base, a vertical sidewall, and a central portion, wherein said base mates with a lower surface of said piston sidewall, said vertical sidewall mates with said piston, and said central portion mates with said central hub for reinforcing said attachment of said disc to said piston. 6. The method for converting a non-damping air spring into an air spring with damping characteristics for a suspension assembly of a heavy-duty vehicle of claim 1 , said bellows chamber including a volume of from about 305 in. 3 to about 3000 in. 3 . 7. The method for converting a non-damping air spring into an air spring with damping characteristics for a suspension assembly of a heavy-duty vehicle of claim 1 , The air spring with damping characteristics for a suspension assembly of a heavy-duty vehicle of claim 1 , said piston chamber including a volume of from about 105 in. 3 to about 550 in. 3 . 8. The method for converting a non-damping air spring into an air spring with damping characteristics for a suspension assembly of a heavy-duty vehicle of claim 1 , said at least one opening including a cross sectional area of from about 0.009 in. 2 to about 0.13 in. 2 . 9. The method for converting a non-damping air spring into an air spring with damping characteristics for a suspension assembly of a heavy-duty vehicle of claim 1 , wherein a ratio of a cross sectional area of said at least one opening measured in in. 2 to a volume of said piston chamber measured in in. 3 to a volume of said bellows chamber measured in in. 3 is in a range of ratios of from about 1:403:2346 to about 1:61,111:333,333. 10. The method for converting a non-damping air spring into an air spring with damping characteristics for a suspension assembly of a heavy-duty vehicle of claim 1 , said at least one opening comprising: a threaded rod, said threaded rod formed with an opening through a length of the threaded rod, said threaded rod disposed between and in fluid communication with said bellows chamber and said piston chamber. 11. The method for converting a non-damping air spring into an air spring with damping characteristics for a suspension assembly of a heavy-duty vehicle of claim 10 , said air spring further comprising a conduit attached to and in fluid communication with said threaded rod opening, said conduit providing fluid communication between said threaded rod opening and said piston chamber. 12. The method for converting a non-damping air spring into an air spring with damping characteristics for a suspension assembly of a heavy-duty vehicle of claim 1 , said attachment of said disc to said open bottom of said piston comprises an adhesive bond or a friction weld.