Abstract: A coating film has a lamination unit including a first layer and at least one of a second layer and a third layer. The first layer is a nitride or the like of a first material represented by (Cr1-a-b-cAla[Ni1-dZrd]bXc). X is at least one element selected from Ti, Nb, Si, B, W, and V. a, b, c, and d represent atomic concentrations. The second layer is a nitride or the like of the second material represented by (AlcCr1-e-fZf). Z is at least one element selected from Si, Y, and B. e and f represent atomic concentrations. The third layer is a nitride or the like of the third material represented by (AlgCr1-g).
Abstract: A three-dimensional additive manufacturing device appropriately detects a manufacturing abnormality. The three-dimensional additive manufacturing device includes a powder supply unit that supplies powder, a light irradiation unit that irradiates the powder with a light beam to melt and harden the powder to manufacture a layered structure, an imaging unit that captures an image of a manufacturing site including a molten pool formed of a molten powder, a result acquisition unit that acquires a determination result as to whether manufacturing of the layered structure is abnormal by inputting the image to a learning model, and an information output unit that outputs information based on the determination result. The learning model is obtained by machine-learning a correspondence relationship between an image of the manufacturing site at the time of abnormality and an abnormality type of the image, and is used for determining whether the manufacturing of the layered structure is abnormal.
Abstract: A three-dimensional additive manufacturing device manufactures a layered structure by supplying powder for manufacturing the layered structure while changing the positional relationship between a discharge port from which the powder is discharged and the layered structure. The three-dimensional additive manufacturing device includes: a powder supply unit that supplies powder from the discharge port toward the layered structure; a light irradiation unit that irradiates the powder with a light beam to melt and harden the powder to thereby manufacture the layered structure; an imaging unit that captures an image of the manufacturing site where the layered structure is being manufactured; a distance detector that detects a distance from the manufacturing site to the powder supply unit on the basis of the image; and a feedback controller that adjusts a moving speed of the powder supply unit relative to the layered structure on the basis of a detection result of the distance.