Patent ID: 7469739

Claim:
A turbine blade: the blade formed by forming a ceramic core with at least one support element extending between adjacent solid portions spaced apart by a corresponding hollow section, the at least one support element having a shape optimized to prevent the core from fracturing during a casting process and to minimize operating mechanical stress in the area of the metal part formed by the support element; making a wax die to define external geometry of the cast part; injecting wax into the wax die to form a wax pattern of the cast part; inserting the ceramic core into the wax pattern; injecting ceramic slurry into the wax pattern to form a mold shell; drying the mold shell; removing the wax from the mold; heating the mold to a predetermined temperature to increase the strength of the ceramic mold; cooling the mold to a predetermined temperature; preheating the mold to melting temperature of the casting material; pouring molten casting material into the mold; cooling the mold in a controlled environment; removing the casting mold shell from the cast part; leeching the core from the cast part; inspecting the part with N-ray to verify that the entire core has been removed; etching the surface of the cast part; laue'ding and inspecting the grain structure of the cast part; inspecting the surface of the cast part with fluorescent penetrate; inspecting internal features of the cast part with X-ray; finish machining the external features of the cast part; inspecting the external dimensions of the cast part; flow testing the internal passages of the cast part; providing an airfoil having solid portions with at least one through aperture formed therein by a casting core, said airfoil having internal cooling passages, with separating walls defined between said cooling passages, and said at least one aperture extending from one cooling passage, through a separating wall to another cooling passage, the at least one aperture having a shape optimized to minimize operating mechanical stress in a localized area around the aperture, said shape of said at least one aperture including a cross-sectional shape having a thickness at a central location that is greater than a thickness at either side of said cross-sectional shape; and said cross section having a first radius, a second radius, a third radius, a fourth radius, and a fifth radius, each radius defined by a center point and a circumferential arc, a first distance defining a length between the center point of the first radius and the center point of the second radius, and a second distance defining a length between the center point of the second radius and the center point of the third radius, and with said first, second, third, fourth, and fifth radii being utilized to form said shape of said at least one aperture, with said second radii at least partially forming said central location, and said first and third radii being utilized to form said sides of said cross-sectional shape.