Ambient-hydrogen-level assessment method and white-structure-damage-likelihood prediction method

The invention claimed is: 1. A hydrogen environment severity assessment method for assessing, among operating conditions for a rolling device including two rolling members coming into rolling contact with each other and having at least one of the two rolling members being a steel rolling member, hydrogen environment severity, the hydrogen environment severity being an index representing magnitude of influence exerted by hydrogen, the method comprising: a measurement step of measuring the amount of room temperature non-diffusible hydrogen contained in a rolling fatigue region, the rolling fatigue region being a region where rolling fatigue has been produced by rolling contact, within the steel rolling member of the rolling device operated under the operating conditions; and an assessment step of assessing the hydrogen environment severity, based on a measurement result in the measurement step, wherein in the assessment step, the method calculates an increase rate of the amount of room temperature non-diffusible hydrogen contained in a rolling fatigue region of the steel rolling member during operation of the rolling device, based on the amount of the room temperature non-diffusible hydrogen measured in the measurement step and assesses the hydrogen environment severity, based on the calculation result, in the measurement step, the method causes room temperature diffusible hydrogen to be discharged from the steel rolling member by maintaining temperature of the steel rolling member at 100° C. or lower and subsequently measure the amount of room temperature non-diffusible hydrogen contained in the rolling fatigue region wherein the method prepares a rolling device of a same type as a rolling device the hydrogen environment severity of which is to be assessed as a rolling device for database generation, operates the rolling device for database generation under each of a plurality of operating conditions in each of which at least one of the magnitude and the number of repetitions of stress exerted on a rolling fatigue region of a steel rolling member due to rolling contact, temperature during operation, and a hydrogen environment of the rolling device for database generation during operation is different from the other conditions, measures the amount of room temperature non-diffusible hydrogen contained in the rolling fatigue region of the steel rolling member of the rolling device for database generation and calculates an increase rate of the amount of room temperature non-diffusible hydrogen contained in the rolling fatigue region of the steel rolling member of the rolling device for database generation every time the operation is finished, and generates a database in which the calculation results classified for each of the plurality of operating conditions are stored in advance, the method acquires or estimates the calculation result in a case where all of the magnitude and the number of repetitions of stress exerted on a rolling fatigue region of a steel rolling member due to rolling contact and temperature during operation are same as operating conditions of a rolling device the hydrogen environment severity of which is to be assessed, from the database, in the assessment step, the method compares a calculation result of an increase rate of the amount of room temperature non-diffusible hydrogen calculated with respect to the rolling device the hydrogen environment severity of which is to be assessed with the calculation result acquired or estimated from the database, and based on a hydrogen environment of a rolling device for database generation the calculation result of which coincides with a calculation result with respect to the rolling device the hydrogen environment severity of which is to be assessed, the method assesses hydrogen environment severity of the rolling device the hydrogen environment severity of which is to be assessed. 2. A white structure damage likelihood prediction method for, using the hydrogen environment severity assessment method according to claim 1 , predicting likelihood that white structure damage occurs to the steel rolling member during operation of a rolling device, wherein the method prepares a rolling device of a same type as a rolling device for which likelihood that white structure damage occurs is to be predicted as a rolling device for database generation, operates the rolling device for database generation under each of a plurality of operating conditions in each of which at least one of the magnitude and the number of repetitions of stress exerted on a rolling fatigue region of a steel rolling member due to rolling contact, temperature during operation, and a hydrogen environment of the rolling device for database generation during operation is different from the other conditions, measures the amount of room temperature non-diffusible hydrogen contained in the rolling fatigue region of the steel rolling member of the rolling device for database generation and calculates an increase rate of the amount of room temperature non-diffusible hydrogen contained in the rolling fatigue region of the steel rolling member of the rolling device for database generation and simultaneously confirms whether or not white structure damage has occurred to the steel rolling member of the rolling device for database generation every time the operation is finished, and generates a database in which the calculation results and confirmation results classified for each of the plurality of operating conditions are stored in advance, the method acquires or estimates the calculation result and the confirmation result in a case where all of the magnitude and the number of repetitions of stress exerted on a rolling fatigue region of a steel rolling member due to rolling contact and temperature during operation are same as operating conditions of a rolling device for which likelihood that the white structure damage occurs is to be predicted, from the database and, using the acquired or estimated calculation result and confirmation result, calculates an increase rate of the amount of room temperature non-diffusible hydrogen serving as a critical value at which the white structure damage begins to occur, and in the assessment step, by comparing an increase rate of the amount of room temperature non-diffusible hydrogen calculated with respect to a rolling device for which likelihood that the white structure damage occurs is to be predicted with the critical value, the method predicts likelihood that white structure damage occurs to the steel rolling member during operation of a rolling device for which likelihood that the white structure damage occurs is to be predicted. 3. A hydrogen environment severity assessment method for assessing, among operating conditions for a rolling device including two rolling members coming into rolling contact with each other and having at least one of the two rolling members being a steel rolling member, hydrogen environment severity, the hydrogen environment severity being an index representing magnitude of influence exerted by hydrogen, the method comprising: a measurement step of measuring an amount of room temperature non-diffusible hydrogen contained in a rolling fatigue region, the rolling fatigue region being a region where rolling fatigue has been produced by rolling contact, within the steel rolling member of the rolling device operated under the operating conditions; and an assessment step of assessing the hydrogen environment severity, based on a measurement result in the measurement step, wherein in the assessment step, the method calculates an increase rate of the amount of room temperature non-diffusible hydrogen contained in the rolling fatigue region of the steel rolling member during operation of the rolling device, based on the amount of the room temperature non-diffusible hydrogen measured in the measurement s