An airfoil of a turbine engine includes pressure and suction sides that extend in a radial direction from a 0% span position at an inner flow path location to a 100% span position at an airfoil tip. The airfoil has a relationship between a tangential stacking offset and a span position that is at le
An airfoil of a turbine engine includes pressure and suction sides that extend in a radial direction from a 0% span position at an inner flow path location to a 100% span position at an airfoil tip. The airfoil has a relationship between a tangential stacking offset and a span position that is at least a third order polynomial curve that includes at least one positive and negative slope. The positive slope leans toward the suction side and the negative slope leans toward the pressure side. An initial slope starting at the 0% span position is either zero or positive. The first critical point is in the range of 5-15% span.
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1. An airfoil of a turbine engine comprising: pressure and suction sides extending in a radial direction from a 0% span position at an inner flow path location to a 100% span position at an airfoil tip, wherein the airfoil has a relationship between a tangential stacking offset and a span position t
1. An airfoil of a turbine engine comprising: pressure and suction sides extending in a radial direction from a 0% span position at an inner flow path location to a 100% span position at an airfoil tip, wherein the airfoil has a relationship between a tangential stacking offset and a span position that is at least a third order polynomial curve that includes at least one positive and negative slope, the positive slope leans toward the suction side and the negative slope leans toward the pressure side, wherein an initial slope starting at the 0% span position is either zero or positive, wherein the first critical point is in the range of 5-15% span. 2. The airfoil according to claim 1, wherein the curve has at least two critical points. 3. The airfoil according to claim 2, wherein the airfoil extends from a root, and a zero tangential stacking offset corresponds to tangential center of the root. 4. The airfoil according to claim 2, wherein the curve has an initial positive slope. 5. The airfoil according to claim 4, wherein the first critical point has an Rd/Yd ratio in a range of 195 to 205. 6. The airfoil according to claim 4, wherein the second critical point is in the range of 35-45% span. 7. The airfoil according to claim 6, wherein the second critical point has an Rd/Yd ratio in a range of 1950 to 2050. 8. The airfoil according to claim 4, wherein the curve does not cross the zero tangential stacking offset. 9. The airfoil according to claim 4, wherein the curve crosses the zero tangential stacking offset once. 10. The airfoil according to claim 9, wherein a critical point in a 35-45% span range has a Rd/Yd ratio in a range of −70 to −74. 11. The airfoil according to claim 2, wherein the curve has an initial zero slope. 12. The airfoil according to claim 11, wherein the first critical point is in the range of 35-45% span. 13. The airfoil according to claim 12, wherein the first critical point has an Rd/Yd ratio in a range of −108 to −116. 14. The airfoil according to claim 11, wherein the second critical point is in the range of 85-95% span. 15. The airfoil according to claim 14, wherein the second critical point has an Rd/Yd ratio in a range of 23 to 26. 16. The airfoil according to claim 11, wherein the curve crosses the zero tangential stacking offset twice. 17. The airfoil according to claim 1, wherein the airfoil is a fan blade for a gas turbine engine. 18. The airfoil according to claim 17, wherein the fan blade is a composite blade. 19. The airfoil according to claim 18, wherein the composite blade is a swept blade. 20. A gas turbine engine comprising: a combustor section arranged between a compressor section and a turbine section;a fan section having an array of twenty-six or fewer fan blades, wherein the fan section has a low fan pressure ratio of less than or equal to about 1.7;a geared architecture coupling the fan section to the turbine section or the compressor section; andwherein the fan blades include a root, and an airfoil having pressure and suction sides extending from the root in a radial direction from a 0% span position at an inner flow path location to a 100% span position at an airfoil tip, wherein the airfoil has a relationship between a tangential stacking offset and a span position that is at least a third order polynomial curve that includes at least one positive and negative slope, the positive slope leans toward the suction side and the negative slope leans toward the pressure side, wherein a zero tangential stacking offset corresponds to tangential center of the root, and the 0% span position is offset from the zero tangential stacking offset, wherein the first critical point is in the range of 5-15% span. 21. The gas turbine engine according to claim 20, wherein the fan section has a fan pressure ratio of from about 1.2 to about 1.7. 22. The gas turbine engine according to claim 20, wherein the fan section has a fan pressure ratio of less than about 1.5. 23. The gas turbine engine according to claim 20, wherein the fan section has a fan pressure ratio of from about 1.4 to about 1.5. 24. The gas turbine engine according to claim 20, wherein the engine has a bypass ratio of greater than 10. 25. The gas turbine engine according to claim 24, wherein the engine has a bypass ratio of between about 10 and about 18. 26. The gas turbine engine according to claim 25, wherein the engine has a bypass ratio of between about 12 and about 16. 27. The gas turbine engine according to claim 20, wherein the engine has a bypass ratio of less than about 9. 28. The gas turbine engine according to claim 27, wherein the engine has a bypass ratio of between about 7 and about 9.
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