Sliding parts

1 : A pair of sliding parts comprising sealing faces that relatively slide on each other, wherein: a fluid circulation groove including an inlet section where a fluid comes in from a high pressure fluid side, an outlet section where the fluid goes out to the high pressure fluid side, and a communication section that provides communication between the inlet section and the outlet section is provided in at least one of the sealing faces; the fluid circulation groove is isolated from a low pressure fluid side by a land section; and a section of a bottom wall of the fluid circulation groove is formed in a round bottom shape. 2 : The sliding parts as set forth in claim 1 , wherein: a plurality of the fluid circulation grooves is provided in the circumferential direction of the sealing face and isolated by the land section; and the inlet section and the outlet section are inclined in the directions in which the sections respectively open from the low pressure side toward the high pressure side in a plan view. 3 : The sliding parts as set forth in claim 1 , wherein: a positive pressure generation mechanism including a positive pressure generation groove that is shallower than the fluid circulation groove is provided in a part surrounded by the fluid circulation groove and the high pressure fluid side; and the positive pressure generation mechanism communicates with the inlet section, and is isolated from the outlet section and the high pressure fluid side by the land section. 4 : The sliding parts as set forth in claim 3 , wherein: the positive pressure generation mechanism is formed from a Rayleigh step mechanism. 5 : The sliding parts as set forth in claim 1 , wherein: a spiral groove through which the fluid is discharged to the high pressure fluid side by relative sliding of the sliding parts is provided on the outside of the part surrounded by the fluid circulation groove of one of the sealing faces and the high pressure fluid side; and the spiral groove communicates with the high pressure fluid side, and is isolated from the low pressure fluid side by the land section. 6 : The sliding parts as set forth in claim 1 wherein: a negative pressure generation mechanism including a negative pressure generation groove that is shallower than the fluid circulation groove is provided on the outside of the part surrounded by the fluid circulation groove of one of the sealing faces and the high pressure fluid side; and the negative pressure generation groove communicates with the inlet section, and is isolated from the outlet section and the low pressure fluid side by the land section. 7 : The sliding parts as set forth in claim 6 , wherein: the negative pressure generation mechanism is formed from a reversed Rayleigh step mechanism. 8 : The sliding parts as set forth in claim 1 , wherein: at least a sectional area of the groove in the inlet section or the outlet section is set to be different from a sectional area of the groove in the communication section in such a manner that pressure of the fluid flowing through the fluid circulation groove is lowered in the communication section. 9 : The sliding parts as set forth in claim 8 , wherein: the sectional area of the groove in the inlet section is set to be smaller than the sectional area of the groove in the communication section and the outlet section. 10 : The sliding parts as set forth in claim 8 , wherein: the sectional area of the groove in the outlet section is set to be larger than the sectional area of the groove in the communication section and the inlet section. 11 : The sliding parts as set forth in claim 2 , wherein: a positive pressure generation mechanism including a positive pressure generation groove that is shallower than the fluid circulation groove is provided in a part surrounded by the fluid circulation groove and the high pressure fluid side; and the positive pressure generation mechanism communicates with the inlet section, and is isolated from the outlet section and the high pressure fluid side by the land section. 12 : The sliding parts as set forth in claim 11 , wherein: the positive pressure generation mechanism is formed from a Rayleigh step mechanism. 13 : The sliding parts as set forth in claim 2 , wherein: a spiral groove through which the fluid is discharged to the high pressure fluid side by relative sliding of the sliding parts is provided on the outside of the part surrounded by the fluid circulation groove of one of the sealing faces and the high pressure fluid side; and the spiral groove communicates with the high pressure fluid side, and is isolated from the low pressure fluid side by the land section. 14 : The sliding parts as set forth in claim 2 , wherein: a negative pressure generation mechanism including a negative pressure generation groove that is shallower than the fluid circulation groove is provided on the outside of the part surrounded by the fluid circulation groove of one of the sealing faces and the high pressure fluid side; and the negative pressure generation groove communicates with the inlet section, and is isolated from the outlet section and the low pressure fluid side by the land section. 15 : The sliding parts as set forth in claim 14 , wherein: the negative pressure generation mechanism is formed from a reversed Rayleigh step mechanism. 16 : The sliding parts as set forth in claim 3 , wherein: a spiral groove through which the fluid is discharged to the high pressure fluid side by relative sliding of the sliding parts is provided on the outside of the part surrounded by the fluid circulation groove of one of the sealing faces and the high pressure fluid side; and the spiral groove communicates with the high pressure fluid side, and is isolated from the low pressure fluid side by the land section. 17 : The sliding parts as set forth in claim 3 , wherein: a negative pressure generation mechanism including a negative pressure generation groove that is shallower than the fluid circulation groove is provided on the outside of the part surrounded by the fluid circulation groove of one of the sealing faces and the high pressure fluid side; and the negative pressure generation groove communicates with the inlet section, and is isolated from the outlet section and the low pressure fluid side by the land section. 18 : The sliding parts as set forth in claim 17 , wherein: the negative pressure generation mechanism is formed from a reversed Rayleigh step mechanism. 19 : The sliding parts as set forth in claim 4 , wherein: a spiral groove through which the fluid is discharged to the high pressure fluid side by relative sliding of the sliding parts is provided on the outside of the part surrounded by the fluid circulation groove of one of the sealing faces and the high pressure fluid side; and the spiral groove communicates with the high pressure fluid side, and is isolated from the low pressure fluid side by the land section. 20 : The sliding parts as set forth in claim 4 , wherein: a negative pressure generation mechanism including a negative pressure generation groove that is shallower than the fluid circulation groove is provided on the outside of the part surrounded by the fluid circulation groove of one of the sealing faces and the high pressure fluid side; and the negative pressure generation groove communicates with the inlet section, and is isolated from the outlet section and the low pressure fluid side by the land section.