Hydraulic damper assembly and a piston for a hydraulic damper assembly

What is claimed is: 1. A hydraulic damper assembly comprising: a housing disposed on a center axis extending between a first end and a second end defining a fluid chamber extending along said center axis for containing a working fluid; a main piston slidably disposed in said fluid chamber dividing said fluid chamber into a first chamber and a second chamber, said first chamber extending between said first end and said main piston and said second chamber extending between said second end and said main piston; a piston rod extending along said center axis and attached to said main piston for moving said main piston between a compression stroke and a rebound stroke; an additional piston, located in said fluid chamber, coupled to said piston rod and axially spaced from said main piston to provide an additional damping force during said compression stroke and said rebound stroke; said additional piston including a main body defining a compression channel and a rebound channel for allowing the working fluid to flow through said additional piston during said compression stroke and said rebound stroke, respectively; a securing member attached to said piston rod for securing said additional piston to said piston rod, said securing member defining an outer groove extending radially inwardly toward said center axis; and a piston ring located in said outer groove between said additional piston and said securing member, wherein said piston ring is radially spaced from said securing member to allow said piston ring to move radially between an expanded position and a compression position, with said expanded position being defined as said piston ring being spaced from said housing and said compressed position being defined as said piston ring being in engagement with said housing to align said additional piston with said housing, wherein the hydraulic damper assembly further includes a rebound retainer disposed between said main body and said securing member, said outer groove being bounded by said rebound retainer and said securing member. 2. The hydraulic damper assembly as set forth in claim 1 , wherein said securing member is a nut and said outer groove is defined on an outer surface of said nut. 3. The hydraulic damper assembly as set forth in claim 1 , wherein said securing member is a bolt having a stem portion for threadedly engaging said piston rod and said outer groove is defined on an outer surface of said bolt. 4. A hydraulic damper assembly comprising: a housing disposed on a center axis extending between a first end and a second end defining a fluid chamber extending along said center axis for containing a working fluid; a main piston slidably disposed in said fluid chamber dividing said fluid chamber into a first chamber and a second chamber, said first chamber extending between said first end and said main piston and said second chamber extending between said second end and said main piston; a piston rod extending along said center axis and attached to said main piston for moving said main piston between a compression stroke and a rebound stroke; an additional piston, located in said fluid chamber, coupled to said piston rod and axially spaced from said main piston to provide an additional damping force during said compression stroke and said rebound stroke; said additional piston including a main body defining a compression channel and a rebound channel for allowing fluid to flow through said additional piston during said compression stroke and said rebound stroke, respectively; said additional piston including a plurality of fingers spaced from one another and extending outwardly from said main body; and at least one retainer axially spaced from said additional piston having a central hole for receiving said plurality of fingers, wherein said central hole is in fluid communication with one of said compression channel and said rebound channel. 5. The hydraulic damper assembly as set forth in claim 4 , wherein said main body includes a top portion and a bottom portion; and wherein said plurality of fingers includes a plurality of first fingers and a plurality of second fingers with said plurality of first fingers extending outwardly from said bottom portion and said plurality of second fingers extending outwardly from said top portion. 6. The hydraulic damper assembly as set forth in claim 5 , wherein said at least one retainer includes a rebound retainer and a compression retainer spaced from one another by said main body, said rebound retainer defining a first central hole and said compression retainer defining a second central hole; and wherein said rebound retainer is configured to receive said plurality of first fingers and said compression retainer is configured to receive said plurality of second fingers. 7. The hydraulic damper assembly as set forth in claim 6 , wherein said first central hole is in fluid communication with one of said compression channel and said rebound channel; and wherein said second central hole is in fluid communication with another one of said compression channel and said rebound channel. 8. The hydraulic damper assembly as set forth in claim 6 , further including a rod tenon attached to said piston rod and disposed adjacent said compression retainer; wherein said rod tenon defines at least one bore extending radially inwardly from said fluid chamber to provide fluid communication between said rebound channel and said fluid chamber; and wherein said compression retainer defines an indentation extending radially outwardly between said fluid chamber and said second central hole to allow fluid communication between said fluid chamber and said compression channel. 9. The hydraulic damper assembly as set forth in claim 4 , wherein said at least one retainer defines a slot extending radially outwardly between said fluid chamber and said central hole to allow fluid communication between said fluid chamber and one of said compression channel and said rebound channel. 10. The hydraulic damper assembly as set forth in claim 9 , wherein said slot is configured to provide fluid communication between said fluid chamber and said compression channel. 11. The hydraulic damper assembly as set forth in claim 9 , wherein said slot is configured to provide fluid communication between said fluid chamber and said rebound channel. 12. The hydraulic damper assembly as set forth in claim 5 , further including a piston ring sandwiched between said top portion and said bottom portion and being radially moveable between an expanded position with said piston ring spaced from said housing and a compressed position with said piston ring engaging said housing. 13. The hydraulic damper assembly as set forth in claim 4 , wherein said additional piston defines a hollow in fluid communication with said compression channel and said rebound channel; and wherein said additional piston includes a valve assembly disposed in said hollow for controlling fluid communication between said fluid chamber and said hollow. 14. An additional piston for displacement in a housing of a hydraulic damper assembly, said additional piston comprising: a main body extending about a center axis defining a compression channel and a rebound channel for allowing a fluid to flow through said additional piston during a compression stroke and a rebound stroke, respectively; said main body including a bottom portion and a top portion engaging one another to establish said main body and define a hollow extending between said bottom portion and said top portion; and a rebound retainer defining a first central hole and a plurality of passages radially sp