Member for hydrocarbon resource collection downhole tool

1 . A downhole tool for hydrocarbon resource recovery, consisting of a shaped body of a polyglycolic acid resin having a weight-average molecular weight of at least 70,000, having an effective thickness which is ½ or more of a critical thickness of surface decomposition, and exhibiting a constant thickness reduction rate in water with respect to time. 2 . A downhole tool according to claim 1 , wherein the shaped body of polyglycolic acid resin has a weight-basis crystallinity of 30-60%. 3 . A downhole tool according to claim 1 , wherein only one of two major surfaces of the shaped body of polyglycolic acid resin is exposed to an aqueous medium forming an operation environment and the effective thickness has been set to at least ½ of the critical thickness of surface decomposition. 4 . A downhole tool according to claim 2 , wherein only one of two major surfaces of the shaped body of polyglycolic acid resin is exposed to an aqueous medium forming an operation environment and the effective thickness has been set to at least ½ of the critical thickness of surface decomposition. 5 . A downhole tool according to claim 3 , wherein the effective thickness has been set to at least ¾ of the critical thickness of surface decomposition. 6 . A downhole tool according to claim 4 , wherein the effective thickness has been set to at least ¾ of the critical thickness of surface decomposition. 7 . A downhole tool according to claim 1 , wherein both of two major surfaces of the shaped body of polyglycolic acid resin are exposed to an aqueous medium forming an operation environment and the effective thickness has been set to at least the critical thickness of surface decomposition. 8 . A downhole tool according to claim 2 , wherein both of two major surfaces of the shaped body of polyglycolic acid resin are exposed to an aqueous medium forming an operation environment and the effective thickness has been set to at least the critical thickness of surface decomposition. 9 . A downhole tool according to claim 1 , wherein an effective thickness has been set to at least 1.5 times of the critical thickness of surface decomposition. 10 . A downhole tool according to claim 2 , wherein an effective thickness has been set to at least 1.5 times of the critical thickness of surface decomposition. 11 . A downhole tool for hydrocarbon resource recovery having a bar-like entire shape, the tool comprising a connecting member comprising a polyglycolic acid resin, and a plurality of components comprising a material other than polyglycolic acid resin and connected by the connecting member, wherein said connecting member comprises a shaped body of a polyglycolic acid resin having a weight-average molecular weight of at least 70,000, having an effective thickness which is ½ or more of a critical thickness of surface decomposition, and exhibiting a constant thickness reduction rate in water with respect to time. 12 . A downhole tool for hydrocarbon resource recovery having a bar-like entire shape, the tool comprising a connecting member comprising a polyglycolic acid resin, and a plurality of components comprising a material other than polyglycolic acid resin and connected by the connecting member, wherein said connecting member comprises a shaped body of a polyglycolic acid resin having a weight-average molecular weight of at least 70,000 and a weight-basis crystallinity of 30-60%, having an effective thickness which is ½ or more of a critical thickness of surface decomposition, and exhibiting a constant thickness reduction rate in water with respect to time. 13 . A downhole tool according to claim 11 , wherein only one of two major surfaces of the connecting member is exposed to an aqueous medium forming an operation environment and the effective thickness has been set to at least ½ of the critical thickness of surface decomposition. 14 . A downhole tool according to claim 12 , wherein only one of two major surfaces of the connecting member is exposed to an aqueous medium forming an operation environment and the effective thickness has been set to at least ½ of the critical thickness of surface decomposition. 15 . A downhole tool according to claim 13 , wherein the effective thickness has been set to at least ¾ of the critical thickness of surface decomposition. 16 . A downhole tool according to claim 14 , wherein the effective thickness has been set to at least ¾ of the critical thickness of surface decomposition. 17 . A downhole tool according to claim 11 , wherein both of two major surfaces of the connecting member are exposed to an aqueous medium forming an operation environment and the effective thickness has been set to at least the critical thickness of surface decomposition. 18 . A downhole tool according to claim 12 , wherein both of two major surfaces of the connecting member are exposed to an aqueous medium forming an operation environment and the effective thickness has been set to at least the critical thickness of surface decomposition. 19 . A downhole tool according to claim 17 , wherein an effective thickness has been set to at least 1.5 times of the critical thickness of surface decomposition. 20 . A downhole tool according to claim 18 , wherein an effective thickness has been set to at least 1.5 times of the critical thickness of surface decomposition. 21 . A downhole tool according to claim 11 , wherein said plurality of components comprise a non-water-degradable material. 22 . A downhole tool according to claim 12 , wherein said plurality of components comprise a non-water-degradable material. 23 . A downhole tool according to claim 1 , wherein the tool is selected from the group consisting of frac plugs, bridge plugs, cement retainers, perforation guns, ball sealers, sealing plugs and packers. 24 . A downhole tool according to claim 1 , wherein the tool is a ball sealer. 25 . A method for formation or repair of a downhole, the method comprising disposing a downhole tool according to claim 1 in a downhole to be formed or repaired, preforming an operation for the formation or repair of the downhole within a service life period of the downhole tool determined by the effective thickness of the shaped body of polyglycolic acid having a linear thickness reduction rate with time, and allowing the downhole tool to decay in an environmental aqueous medium in the downhole after the service life period of the downhole tool. 26 . A method for formation or repair of a downhole according to claim 25 , wherein after the operation, hot steam is injected into the environmental aqueous medium to elevate the temperature of the environmental aqueous medium, thereby accelerating the decay of the downhole tool. 27 . A method for formation or repair of a downhole according to claim 25 , wherein the tool is selected from the group consisting of frac plugs, bridge plugs, cement retainers, perforation guns, ball sealers, sealing plugs and packers.