Vibration type actuator for relatively moving vibrating body and contact body, electronic device, and method for inspecting friction material

What is claimed is: 1. A vibration type actuator comprising: a vibrating body including an electro-mechanical energy conversion element and an elastic body; and a contact body configured to come into contact with the vibrating body, wherein the vibration type actuator has a structure in which at least one of a friction portion of the contact body coming into contact with the vibrating body and a friction portion of the vibrating body coming into contact with the contact body has a metallic portion including a pore that is impregnated with a resin containing a fluorescent material. 2. The vibration type actuator according to claim 1 , wherein the metallic portion is a sintered stainless steel body of which a surface porosity of the friction portion is 5 to 20%. 3. The vibration type actuator according to claim 2 , wherein the sintered stainless steel body is made of a martensitic stainless steel. 4. The vibration type actuator according to claim 1 , wherein one of the at least one of the friction portion of the contact body and the at least one of the friction portion of the vibrating body has an inclined face inclined on a side of an outer circumference of the contact body at a predetermined angle with respect to a frictional sliding face thereof with the other of friction portions, and the inclined face has a pore at a surface thereof. 5. The vibration type actuator according to claim 1 , wherein the resin contains ceramic powder. 6. The vibration type actuator according to claim 1 , wherein the fluorescent material is a fluorescent dye or a fluorescent pigment. 7. An electronic device having a vibration type actuator, and a component driven by the vibration type actuator, the vibrating type actuator comprising: a vibrating body including an electro-mechanical energy conversion element and an elastic body; and a contact body configured to come into contact with the vibrating body, wherein the vibration type actuator has a structure in which at least one of a friction portion of the contact body coming into contact with the vibrating body and a friction portion of the vibrating body coming into contact with the contact body has a metallic portion including a pore that is impregnated with a resin containing a fluorescent material. 8. A method for inspecting a friction material in which a metallic sintered body is impregnated with a resin containing a florescent material, in a vibration type actuator including a vibrating body and a contact body, the metallic sintered body being used for at least one of a friction portion of the contact body coming into contact with the vibrating body and a friction portion of the vibrating body coming into contact with the contact body, wherein a depth or a rate of impregnation of the friction material with the resin is measured by observing the friction material by a fluorescence microscope. 9. The method for inspecting the friction material according to claim 8 , wherein the depth of impregnation with the resin is measured by observing a face forming a predetermined angle with a frictional sliding face of the friction material, or a surface of the sintered body corresponding to a portion from one end of the face to an outer circumference of the sintered body from the outside by the fluorescence microscope.