Flow path member

What is claimed is: 1. A flow path member, comprising: a substrate containing non-oxide ceramics, and comprising an outer surface; a flow path in the substrate, the flow path including an inlet and an outlet; and a first oxide layer disposed on the outer surface, wherein the substrate further comprises a lid body, a bottom plate located opposite to the lid body, and an intermediate plate located between the lid body and the bottom plate; the flow path is defined by a space surrounded by the lid body, the bottom plate, and the intermediate plate; the inlet and the outlet are provided as openings in the intermediate plate; and the first oxide layer is disposed on the outer surface including the lid body. 2. The flow path member according to claim 1 , further comprising a second oxide layer disposed on an inner surface of the substrate, the inner surface constituting the flow path. 3. The flow path member according to claim 2 , wherein the first oxide layer is thicker than the second oxide layer. 4. The flow path member according to claim 2 , wherein the second oxide layer is thicker than the first oxide layer. 5. The flow path member according to claim 2 , wherein C 2 /C 1 is not less than 2 and not more than 10 where C 1 denotes a concentration of oxygen of the first oxide layer at a depth of 50 nm from a first surface of the first oxide layer toward the substrate, and C 2 denotes a concentration of oxygen of the second oxide layer at a depth of 50 nm from a second surface of the second oxide layer toward the substrate. 6. The flow path member according to claim 2 , wherein the flow path comprises: a discharge path connected to the outlet; and a flow passage between the discharge path and the inlet, and the second oxide layer is thicker in the flow passage than in the discharge path. 7. The flow path member according to claim 1 , wherein the non-oxide ceramics comprises silicon carbide ceramics.