Flow meter with rotor assembly

What is claimed is: 1. A flow meter for determining a flow rate of a fluid, comprising: a housing comprising a flow bore; a rotor assembly rotatable by the flow of fluid within the flow bore and comprising a thermally diffused metallic material, wherein the thermally diffused metallic material comprises a metallic material and a diffusion substance; and a sensor unit configured to generate a signal indicative of a rotational rate of the rotor assembly. 2. The flow meter of claim 1 , wherein the rotor assembly comprises a rotor shaft comprising the thermally diffused metallic material. 3. The flow meter of claim 2 , wherein the rotor assembly comprises a rotor shaft and a rotor comprising rotor blades, the rotor being at least partially located in the flow bore. 4. The flow meter of claim 3 , wherein the rotor blades comprise turbine blades. 5. The flow meter of claim 3 , wherein the rotor is fixedly coupled to the rotor shaft by machine pressing. 6. The flow meter of claim 1 , wherein the rotor assembly comprises a rotor shaft and rotor blades integral with the rotor shaft, the rotor blades being at least partially located in the flow bore. 7. The flow meter of claim 6 , wherein the integral rotor blades comprise turbine blades. 8. The flow meter of claim 6 , wherein the rotor shaft and the integral rotor blades are formed by additive manufacturing. 9. The flow meter of claim 1 , wherein the thermally diffused metallic material comprises a hardened surface, hardened by changing a molecular structure of the surface through thermal chemical diffusion of the diffusion substance. 10. The flow meter of claim 1 , wherein the thermally diffused metallic material comprises a steel alloy. 11. The flow meter of claim 1 , wherein the thermally diffused metallic material is configured to resist erosion, corrosion, and cracking. 12. The flow meter of claim 1 , wherein the fluid comprises a hydrocarbon fluid. 13. A rotor assembly for rotating in a flow bore in a flow meter housing, the assembly comprising a rotor shaft comprising a thermally diffused metallic material and rotatable by the flow of fluid in the flow meter housing, wherein the thermally diffused metallic material comprises a metallic material and a diffusion substance. 14. The rotor assembly of claim 13 , further comprising a rotor comprising rotor blades. 15. The rotor assembly of claim 14 , wherein the rotor blades are integral with the rotor shaft. 16. The rotor assembly of claim 15 , wherein the rotor shaft and the integral rotor blades are formed by additive manufacturing. 17. A method for determining a flow rate of a fluid, comprising: flowing a fluid through a flow bore of a housing; rotating a rotor assembly with the fluid flowing through the flow bore, wherein the rotor assembly comprises a thermally diffused metallic material, wherein the thermally diffused metallic material comprises a metallic material and a diffusion substance; detecting a rotational rate of the rotating rotor; generating a signal indicative of the rotational rate of the rotor; and determining the flow rate of the fluid using the signal. 18. The method of claim 17 , wherein the rotating comprises rotating a shaft comprising the thermally diffused metallic material. 19. The method of claim 17 , wherein the rotating comprises rotating a shaft and rotor blades integral with the rotor shaft, the rotor blades being at least partially in the flow bore. 20. The flow meter of claim 1 , wherein the thermally diffused metallic material has a hardness of about 10 to about 40, on the Rockwell C scale, greater than the hardness of the metallic material. 21. The rotor assembly of claim 13 , wherein the thermally diffused metallic material has a hardness of about 10 to about 40, on the Rockwell C scale, greater than the hardness of the metallic material. 22. The method of claim 17 , wherein the thermally diffused metallic material has a hardness of about 10 to about 40, on the Rockwell C scale, greater than the hardness of the metallic material.