MR mount apparatus using a polymeric sheet decoupler

What is claimed is: 1. A hydraulic mount apparatus comprising: a housing having an upper portion and a lower portion disposed on a center axis and defining a housing chamber; a partition member disposed in said housing chamber dividing said housing chamber into a pumping chamber and a receiving chamber with said pumping chamber being between said upper portion and said partition member and said receiving chamber being between said lower portion and said partition member; a decoupler attached to said partition member separating said pumping chamber and said receiving chamber; and a moving member disposed in said pumping chamber attached to said decoupler; wherein said moving member is a non-elastomeric polymer sheet secured to said decoupler for providing the additional damping force, wherein the hydraulic mount apparatus further includes a cap disposed in said pumping chamber space from said decoupler to secure said moving member between said cap and said decoupler, wherein said cap includes a lower plate disposed axially spaced from said moving member and a protrusion extending annularly outwardly from said lower plate toward said decoupler to engage said moving member and secure said moving member to said decoupler. 2. The hydraulic mount apparatus as set forth in claim 1 wherein said moving member is a die-cut polymer sheet having an outer periphery extending about said center axis. 3. The hydraulic mount apparatus as set forth in claim 2 wherein said cap includes a rib extending annularly outwardly from said lower plate and parallel to said center axis in a direction opposite of said protrusion with said rib having an inner surface facing said center axis and an outer surface opposite of said inner surface defining a pocket disposed in fluid communication with said pumping chamber between said inner surface and said lower plate. 4. The hydraulic mount apparatus as set forth in claim 3 wherein said outer surface of said rib is chamfered adjacent said outer periphery of said moving member to define a conduit extending annularly about said center axis. 5. The hydraulic mount apparatus as set forth in claim 4 further including an O-ring of elastomeric material disposed in said conduit and extending annularly about said center axis and in sealing engagement with said outer surface and said outer periphery of said moving member. 6. The hydraulic mount apparatus as set forth in claim 1 further including a strain gauge sensor disposed in said receiving chamber and attached to said moving member for measuring a load on said moving member in response to the movement of said moving member. 7. The hydraulic mount apparatus as set forth in claim 6 wherein said decoupler includes a compression plate disposed adjacent and spaced from said moving member on a side opposite of said cap for limiting the movement of said moving member. 8. The hydraulic mount apparatus as set forth in claim 7 further including a lead wire electrically connected to said strain gauge sensor and extends through said compression plate and electrically connected to a processor for receiving and analyzing a signal received from said strain gauge sensor. 9. The hydraulic mount apparatus as set forth in claim 8 wherein said compression plate defines a passage extending through said compression plate for receiving said lead wire to allow said lead wire to extend through said decoupler. 10. A decoupler for a hydraulic mount apparatus comprising: a support member disposed on a center axis and extending between a support member upper end and a support member lower end; and a moving member disposed on said center axis and extending radially outwardly from said center axis to said support member upper end and attached to said support member upper end; wherein said moving member is a non-elastomeric polymer sheet secured to said decoupler for providing the additional damping force, wherein the decoupler further includes a cap disposed in said pumping chamber spaced from said decoupler to secure said moving member between said cap and said support member, wherein said cap includes a lower plate disposed axially spaced from said moving member and a protrusion extending annularly outwardly from said lower plate toward said decoupler to engage said moving member and secure said moving member to said decoupler. 11. The decoupler as set forth in claim 10 wherein said moving member is a die-cut polymer sheet having an outer periphery extending about said center axis. 12. The decoupler as set forth in claim 11 wherein said cap includes a rib extending annularly outwardly from said lower plate and parallel to said center axis in a direction opposite of said protrusion with said rib having an inner surface facing said center axis and an outer surface opposite of said inner surface defining a pocket disposed in fluid communication with a pumping chamber between said inner surface and said lower plate. 13. The decoupler as set forth in claim 12 wherein said outer surface of said rib is chamfered adjacent said outer periphery of said moving member to define a conduit extending annularly about said center axis. 14. The decoupler as set forth in claim 13 further including an O-ring of elastomeric material disposed in said conduit and extending annularly about said center axis and in sealing engagement with said outer surface and said outer periphery of said moving member. 15. The decoupler as set forth in claim 10 further including a strain gauge sensor disposed in a receiving chamber and attached to said moving member for measuring a load on said moving member in response to the movement of said moving member. 16. The decoupler as set forth in claim 15 wherein said decoupler includes a compression plate disposed adjacent and spaced from said moving member for limiting the movement of said moving member. 17. The decoupler as set forth in claim 16 further including a lead wire electrically connected to said strain gauge sensor and extends through said compression plate and electrically connected to a processor for receiving and analyzing a signal received from said stain gauge sensor. 18. The decoupler as set forth in claim 17 wherein said compression plate defines a passage extending through said compression plate for receiving said lead wire to allow said lead wire to extend through said decoupler. 19. A hydraulic mount apparatus comprising: a housing having an upper portion and a lower portion disposed on a center axis and defining a housing chamber; a partition member disposed in said housing chamber dividing said housing chamber into a pumping chamber and a receiving chamber with said pumping chamber being between said upper portion and said partition member and said receiving chamber being between said lower portion and said partition member; a decoupler attached to said partition member separating said pumping chamber and said receiving chamber; and a moving member disposed in said pumping chamber attached to said decoupler; wherein said moving member is a non-elastomeric polymer sheet secured to said decoupler for providing the additional damping force, wherein the hydraulic mount apparatus further includes a strain gauge sensor disposed in said receiving chamber and attached to said moving member for measuring a load on said moving member in response to the movement of said moving member.