Talks and Poster Presentations (with Proceedings-Entry):
F. Rauscher, A. Seifert:
"Excessive Creep Strain Design Check with Simulations based on Material Properties from Material Standards";
Talk: 5th International Creep & Fracture Conference,
Great Britain;
2021-10-19
- 2021-10-20; in: "5th International Creep & Fracture Conference",
High Temperature Mechanical Testing Committee (ECCC),
Great Britain
(2021),
ISBN: 978-1-7399925-0-7;
Paper ID 053,
1 pages.
English abstract:
The possibility of doing the Excessive Creep Strain Design Check (ECS-DC) according to EN 13445-3 Annex B [1] based on simulations was investigated. As a constitutive law for creep, Nortonīs law and, as an alternative, a hyperbolic sine law were considered. Creep strain limits given in material standards are the basis for the parameters of these creep laws. A check for reversal creep ensures that repeated primary creep does not occur.
The application of this method on a nozzle in a spherical shell shows the calculation of the parameters of the constitutive law and possibilities of damage determination. At first, the geometry is analysed at constant temperature and with uniform material. Afterwards the example was generalised by introducing different materials for the shell, the weld, the reinforcement, and the nozzle. In Addition, temperature variations were introduced.
The focus of the paper is the conservative creep damage determination for design calculations. Therefore, the use of safety factors is included, and appropriate values are discussed.
German abstract:
The possibility of doing the Excessive Creep Strain Design Check (ECS-DC) according to EN 13445-3 Annex B [1] based on simulations was investigated. As a constitutive law for creep, Nortonīs law and, as an alternative, a hyperbolic sine law were considered. Creep strain limits given in material standards are the basis for the parameters of these creep laws. A check for reversal creep ensures that repeated primary creep does not occur.
The application of this method on a nozzle in a spherical shell shows the calculation of the parameters of the constitutive law and possibilities of damage determination. At first, the geometry is analysed at constant temperature and with uniform material. Afterwards the example was generalised by introducing different materials for the shell, the weld, the reinforcement, and the nozzle. In Addition, temperature variations were introduced.
The focus of the paper is the conservative creep damage determination for design calculations. Therefore, the use of safety factors is included, and appropriate values are discussed.
Keywords:
Creep design; EN13445; Design by Analysis; Direct Method; Pressure Vessel; Nozzle; reference stress; Excessive Creep Strain Design Check
Created from the Publication Database of the Vienna University of Technology.