Remaining life estimation method for estimating remaining life of high-chromium steel pipe

The invention claimed is: 1. A remaining life estimation method for estimating remaining life of high-chromium steel pipe through which high-temperature and high-pressure fluid is allowed to flow, the high-chromium steel pipe formed by integrating base members made of high-chromium steel by welding, the method comprising: obtaining a constant indicating a product of a strain rate and a rapture time in Monkman-Grant analysis by multiplying a first coefficient to transform uniaxial rupture ductility into multiaxial rupture ductility, the uniaxial rupture ductility being obtained from a specimen of the high-chromium steel pipe, a second coefficient to amend consumed life of the specimen, and a third coefficient to amend a measurement pressure into an assessment pressure; measuring a strain of an outer surface of the high-chromium steel pipe by measuring a distance between two points on the outer surface of the high-chromium steel pipe, using a sensor mounted to the outer surface of the high-chromium steel pipe on both sides of a welding material sandwiched therebetween; recording strain information by recording, at a plurality of times, the strain information indicating the strain of the outer surface of the high-chromium steel pipe, in association with time information indicating a measurement time; and estimating remaining life of the high-chromium steel pipe, from the constant and a plurality of sets of the strain information and the time information. 2. The remaining life estimation method according to claim 1 , wherein the measuring of the strain comprises: measuring the distance between the two points on the outer surface of the high-chromium steel pipe, using a base joined to the base member on a first side sandwiching the welding material, a reflecting plate joined to a second side, and a laser displacement meter detachably mounted to the base, the laser displacement meter applies a laser beam toward the reflecting plate, and receives reflected light from the reflecting plate. 3. The remaining life estimation method according to claim 1 , wherein the estimating of the remaining life comprises: estimating remaining life of the high-chromium steel pipe from the constant and a plurality of sets of the strain information and the time information, and, when the estimated remaining life corresponds to an end stage of life, calculating remaining life in accordance with an Omega method, using strain and strain-rate data correlating the strain and the strain rate from a plurality of sets of the strain information and the time information. 4. The remaining life estimation method according to claim 2 , wherein the estimating of the remaining life comprises: estimating remaining life of the high-chromium steel pipe from the constant and a plurality of sets of the strain information and the time information, and, when the estimated remaining life corresponds to an end stage of life, calculating remaining life in accordance with an Omega method, using strain and strain-rate data correlating the strain and the strain rate from a plurality of sets of the strain information and the time information.