Asymmetric spoke design for torsional vibration dampers

What is claimed is: 1. A torsional vibration damper comprising: a hub having a plurality of spokes radially spaced apart from each other a preselected distance defining voids therebetween and each extending from an outer radial surface of a central member to an inner radial surface of a peripheral rim, each of the plurality of spokes comprising: an asymmetrical thickness in an angular direction, as evidenced by a cross-section view transverse to a radial length of each of the plurality of spokes; wherein for each of the plurality of spokes, the asymmetrical thickness increases from a leading face to a trailing face and has a greatest thickness more proximate the trailing face; and an inertia member concentric about the hub with an elastomeric member operatively positioned therebetween. 2. The torsional vibration damper of claim 1 , wherein, for each of the plurality of spokes, the asymmetrical thickness increases from the leading face to the trailing face as a linear function, as a hyperbolic function, or as a parabolic function mirrored on opposing radial faces. 3. The torsional vibration damper of claim 1 , wherein, for each of the plurality of spokes, the asymmetrical thickness increases from the leading face to the trailing face as a first linear function changing to a second linear function that is different than the first linear function mirrored on opposing radial faces. 4. The torsional vibration damper of claim 1 , wherein, for each of the plurality of spokes, the asymmetrical thickness increases from the leading face to the trailing face as a nonlinear function changing to a linear function mirrored on opposing radial faces or as a linear function changing to a nonlinear function on opposing radial faces. 5. The torsional vibration damper of claim 1 , wherein the hub comprises gray cast iron. 6. An engine system comprising: a torsional vibration damper of claim 1 mounted to a shaft for rotation therewith. 7. A front end accessory drive system comprising: a torsional vibration damper of claim 1 mounted to a crankshaft for rotation therewith. 8. A torsional vibration damper comprising: a hub having a plurality of spokes radially spaced apart and extending from an outer radial surface of a central member to an inner radial surface of a peripheral rim, each of the plurality of spokes comprising: an asymmetrical thickness in an angular direction, as evidenced by a cross-section view transverse to a radial length of each of the plurality of spokes; wherein for each of the plurality of spokes, the asymmetrical thickness increases from a leading face to a trailing face and has a greatest thickness more proximate the trailing face; and an inertia member concentric about the hub with an elastomeric member operatively positioned therebetween; wherein, for each of the plurality of spokes, the asymmetrical thickness increases from the leading face to the trailing face as a linear function, as a hyperbolic function, or as a parabolic function mirrored on opposing radial faces. 9. A torsional vibration damper comprising: a hub having a plurality of spokes radially spaced apart and extending from an outer radial surface of a central member to an inner radial surface of a peripheral rim, each of the plurality of spokes comprising: an asymmetrical thickness in an angular direction, as evidenced by a cross-section view transverse to a radial length of each of the plurality of spokes; wherein for each of the plurality of spokes, the asymmetrical thickness increases from a leading face to a trailing face and has a greatest thickness more proximate the trailing face; and an inertia member concentric about the hub with an elastomeric member operatively positioned therebetween; wherein, for each of the plurality of spokes, the asymmetrical thickness increases from the leading face to the trailing face as a first linear function changing to a second linear function that is different than the first linear function mirrored on opposing radial faces.