Turbine blade assembly including multiple ceramic matrix composite components

What is claimed is: 1. A turbine blade having an airfoil portion, the turbine blade comprising: a first ceramic matrix composite (CMC) component having a first outer surface that is non-planar; a second ceramic matrix composite (CMC) component having a second outer surface that is non-planar, the second CMC component positioned adjacent the first CMC component such that the first outer surface and the second outer surface at least partially define the airfoil portion; a ceramic bead at least partially positioned at an interface between the first outer surface and the second outer surface, the ceramic bead, the first CMC component, and the second CMC component defining a single contiguous component and the bead fixedly attaching the first CMC component and the second CMC component to one another, the bead including a bead outer surface that extends outward beyond the first outer surface and the second outer surface; and an overlayer deposited onto the airfoil portion, the overlayer bonded to the first outer surface, the second outer surface, and the bead outer surface. 2. The turbine blade of claim 1 , wherein the first outer surface and the second outer surface each define a leading edge, a trailing edge, a pressure side and a suction side that cooperate to define a continuous airfoil shape. 3. The turbine blade of claim 1 , wherein each of the first CMC component and the second CMC component includes a bottom surface and a top surface spaced apart from the bottom surface, the first outer surface extending between the bottom surface and the top surface of the first CMC component and the second outer surface extending between the bottom surface and the top surface of the second CMC component. 4. The turbine blade of claim 3 , wherein the bottom surface of the second CMC component is juxtaposed adjacent the top surface of the first CMC component to define the interface, and wherein an outer edge of the bottom surface of the second CMC component and an outer edge of the top surface of the first CMC component cooperate to define a seam. 5. The turbine blade of claim 4 , wherein the ceramic bead is formed using a laser and extends continuously along the seam. 6. The turbine blade of claim 3 , wherein the first CMC component and the second CMC component each define an aperture that extends from the bottom surface to the top surface, the turbine blade further comprising a metallic core that extends through the aperture of the first CMC component and the second CMC component. 7. The turbine blade of claim 1 , further comprising an adhesive positioned between the first CMC component and the second CMC component to at least partially bond the first CMC component to the second CMC component. 8. The turbine blade of claim 1 , wherein the overlayer is a thermal barrier coating that is sprayed onto the first outer surface, the second outer surface, and the bead outer surface. 9. A turbine blade having an airfoil portion, the turbine blade comprising: a plurality of ceramic matrix composite (CMC) components each having a bottom surface, a top surface spaced apart from the bottom surface, and an outer closed surface that extends between the bottom surface and the top surface, the outer closed surface being non-planar, one of the bottom surface and the top surface of each CMC plurality of CMC components positioned adjacent the other of the bottom surface and the top surface of an adjacent CMC component of the plurality of CMC components such that the outer closed surfaces cooperate to define the airfoil portion; a plurality of seams, each seam defined at an interface between two adjacent CMC components and extending around an edge of the outer closed surface of one of the two adjacent CMC components to define a closed loop; a plurality of ceramic beads each positioned at and extending completely around one of the plurality of seams, each bead fixedly attaching the two adjacent CMC components that define the respective seam to one another, each bead including a bead outer surface that extends outward beyond the outer closed surface of one of the two adjacent CMC components that define the respective seam; and an overlayer deposited onto the airfoil portion, the overlayer bonded to the outer closed surfaces of the plurality of CMC components and the bead outer surface. 10. The turbine blade of claim 9 , wherein the overlayer is a thermal barrier coating that is sprayed onto the outer closed surface of each of the plurality of CMC components and to the bead outer surface of each of the plurality of ceramic beads. 11. The turbine blade of claim 9 , wherein each outer closed surface defines a leading edge, a trailing edge, a pressure side and a suction side that cooperate to define a continuous airfoil shape, and wherein each CMC component includes an aperture that extends from the bottom surface to the top surface. 12. The turbine blade of claim 11 , further comprising a metallic core sized to fit within the aperture, and wherein a first CMC component of the plurality of CMC components is positioned with the metallic core passing through the aperture and extending beyond the top surface. 13. The turbine blade of claim 12 , wherein a second CMC component of the plurality of CMC components includes a second bottom surface that is juxtaposed adjacent the top surface of the first CMC component, and wherein the metallic core passes through the aperture in the second CMC component and extends beyond a second top surface of the second CMC component, the top surface of the first CMC component and the second bottom surface of the second CMC component cooperating to define the interface. 14. The turbine blade of claim 9 , wherein each ceramic bead is formed using a laser and a supply of powdered material. 15. The turbine blade of claim 9 , further comprising an adhesive positioned between adjacent CMC components to at least partially bond adjacent CMC components to one another. 16. The turbine blade of claim 12 , wherein each CMC component defines a second aperture that extends from the bottom surface to the top surface, the turbine blade further comprising a second metallic core that extends through the second apertures of each CMC component. 17. A method of manufacturing a turbine blade having an airfoil portion, the method comprising: forming a plurality of CMC components, each CMC component including an outer surface that defines a portion of the airfoil portion, the outer surface being non-planar; positioning a first of the plurality of CMC components adjacent a second of the plurality of CMC components; applying a ceramic bead between the first of the plurality of CMC components and the second of the plurality of CMC components, the ceramic bead fixedly attaching the first of the plurality of CMC components and the second of the plurality of CMC components such that their outer surfaces cooperate to define a partial airfoil, and wherein the ceramic bead includes a bead outer surface that extends outward of the outer surfaces; positioning a free CMC component of the plurality of CMC components adjacent the partial airfoil; forming an additional ceramic bead between the free CMC component and the partial airfoil to fixedly attach the free CMC component to the partial airfoil, the additional ceramic bead including an additional bead outer surface that extends outward of the outer surface of the partial airfoil; repeating the positioning a free CMC component and the forming an additional ceramic bead steps until the partial airfoil fully defines the airfoil portion; and applying an overlay to the airfoil