Golf club having damping treatments for improved impact acoustics and ball speed

The invention claimed is: 1. A golf club head comprising: a sole portion; a topline; a toe portion; a heel portion; a back portion; a striking face having a thickness (t) between 1.2-1.9 mm and an effective stiffness (S), wherein the effective stiffness S is defined as S = E face ⁢ t A ,  wherein E face is an elastic modulus of the material of the striking face and A is an impact area of the striking face; a cavity defined by the sole portion, the topline, the toe portion, the heel portion, the back portion, and the striking face; a viscoelastic polymer substantially filling the cavity and in contact with a rear surface of the striking face, wherein an elastic modulus (E), in megapascals (MPa), of the viscoelastic polymer is less than or equal to 40 MPa and the elastic modulus (E) has a relationship to the effective stiffness (S) of the striking face, in gigapascals per meter (GPa/m), defined by Ê≤−1.16Ŝ+258.33 and Ê≥−0.33Ŝ+63.33, wherein Ê is a unitless value equal to E/1 MPa and Ŝ is a unitless value equal to S/1 GPa/m; and wherein the golf club head displays a coefficient of restitution above 0.80, and wherein the golf club head is configured to produce, upon a strike of a golf ball, a sound having a plurality of modes including a mode between 2 kHz and 4 kHz, wherein a sound power of the mode between 2 kHz and 4 kHz is more than double the sound power of any other mode. 2. The golf club head of claim 1 , wherein the thickness (t) is an average thickness of the striking face. 3. The golf club head of claim 1 , wherein the thickness (t) is the maximum thickness of the striking face. 4. The golf club head of claim 1 , wherein the polymer comprises at least one of butyl rubbers, butyl rubber ionomers, polyurethanes, polyureas, silicones, acrylate, methacrylates, foamed polymers, epoxies, styrene block copolymers, polybutadiene, nitrile rubber, thermoplastic vulcanizates, or thermoplastic elastomers. 5. The golf club head of claim 1 , wherein the viscoelastic polymer has a tangent of delta peak temperature (T tan δ ) between −70 degrees Celsius and −20 degrees Celsius at 1 Hz. 6. The golf club head of claim 5 , wherein the tangent of delta peak temperature (T tan δ ) satisfies the following inequalities T Fox −15≤T tan δ ≤T Fox +15 and T GT −15≤T tan δ ≤T GT +15, wherein T Fox is predicted glass transition temperature in Celsius from a Fox Equation, and T GT is a predicted glass transition temperature in Celsius from a Gordon-Taylor Equation. 7. A golf club head comprising: a body and a striking face forming a hollow cavity, the striking face having a thickness (t) between 1.7-2.2 mm and an effective stiffness (S), wherein the effective stiffness S is defined as S = E face ⁢ t A ,  wherein E face is an elastic modulus of the material of the striking face and A is an impact area of the striking face; and a viscoelastic polymer substantially filling the cavity and in contact with a rear surface of the striking face, wherein an elastic modulus (E), in megapascals (MPa), of the viscoelastic polymer is less than or equal to 40 MPa and the an elastic modulus (E) has a relationship to the effective stiffness (S) of the striking face, in gigapascals per meter (GPa/m), defined by Ê≤−1.16Ŝ+258.33 and Ê≥−0.33Ŝ+63.33, wherein Ê is a unitless value equal to E/1 MPa and Ŝ is a unitless value equal to S/1 GPa/m; and wherein the golf club head displays a coefficient of restitution above 0.80, and wherein the golf club head is configured to produce, upon a strike of a golf ball, a sound having a plurality of modes including a mode between 2 kHz and 4 kHz, wherein a sound power of the mode between 2 kHz and 4 kHz is more than double the sound power of any other mode. 8. The golf club head of claim 7 , wherein the thickness (t) is an average thickness of the striking face. 9. The golf club head of claim 7 , wherein the thickness (t) is the maximum thickness of the striking face. 10. The golf club head of claim 7 , wherein the viscoelastic polymer comprises at least one of butyl rubbers, butyl rubber ionomers, polyurethanes, polyureas, silicones, acrylate, methacrylates, foamed polymers, epoxies, styrene block copolymers, polybutadiene, nitrile rubber, thermoplastic vulcanizates, or thermoplastic elastomers. 11. The golf club head of claim 7 , wherein the viscoelastic polymer has a tangent of delta peak temperature (T tan δ ) between −70 degrees Celsius and −20 degrees Celsius at 1 Hz. 12. The golf club head of claim 11 , wherein the tangent of delta peak temperature (T tan δ ) satisfies the following inequalities T Fox −15≤T tan δ ≤T Fox +15 and T GT −15≤T tan δ ≤T GT +15, wherein T Fox is predicted glass transition temperature in Celsius from a Fox Equation, and T GT is a predicted glass transition temperature in Celsius from a Gordon-Taylor Equation. 13. A golf club head comprising: a sole portion; a topline; a toe portion; a heel portion; a back portion; a striking face having a thickness (t) between 1.2-1.9 mm and an effective stiffness (S), wherein the effective stiffness S is defined as S = E face ⁢ t A ,  wherein E face is an elastic modulus of the material of the striking face and A is an impact area of the striking face; a cavity defined by the sole portion, the topline, the toe portion, the heel portion, the back portion, and the striking face; a viscoelastic polymer substantially filling the cavity and in contact with a rear surface of the striking face, wherein an elastic modulus (E), in megapascals (MPa), of the viscoelastic polymer is less than or equal to 40 MPa, and the elastic modulus (E) has a relationship to the effective stiffness (S) of the striking face, in gigapascals per meter (GPa/m), defined by Ê≥−0.33Ŝ+63.33, wherein Ê is a unitless value equal to E/1 MPa and Ŝ is a unitless value equal to S/1 GPa/m; and wherein the golf club head displays a coefficient of restitution above 0.80, and wherein the golf club head is configured to produce, upon a strike of a golf ball, a sound having a plurality of modes including a mode between 2 kHz and 4 kHz, wherein a sound power of the mode between 2 kHz and 4 kHz is more than double the sound power of any other mode. 14. The golf club head of claim 13 , wherein the thickness (t) is an average thickness of the striking face. 15. The golf club head of claim 13 , wherein the th