Affiliation:
1. Výzkumný a Zkušební Ustav Plzeň s.r.o.
2. Výzkumný a zkušební ústav Plzeň s.r.o.
Abstract
As part of the project “Thermostat for universal use in (electro) mobility”, an analysis of three currently used thermostats failed during operation was performed. In all three cases, cracks occurred in the brass outer casings. The cracks were open and fractographical observation was performed. The microstructure of the material was evaluated using both the light and scanning electron microscopy. The local composition of the material was determined by EDS microanalysis. Furthermore, hardness profiles were measured. The cracks were predominantly intergranular with a smaller portion of transgranular cleavage. The microstructure was formed by a mixture of α- and β-phase grains and lead particles. In addition to the stress caused by the overpressure of the molten wax, a higher level of residual stresses caused by deformations can be expected. The failure was caused by the mechanism of stress-corrosion cracking. Metal induced embrittlement or/and corrosion fatigue could interact too.
Publisher
Trans Tech Publications, Ltd.
Subject
Condensed Matter Physics,General Materials Science,Radiation
Reference6 articles.
1. H. Auvinen, T. Järvi, et al, Electromobility Scenarios: Research Findings to Inform Policy, Transportation Research Procedia, 14 (2016).
2. S. H. Blazey, Design and application of thermostats to the cooling system of the internal-combustion engine, Institution of Mechanical Engineers: Automobile Division, 10 (1) (1956) 187-192.
3. A. Mann, T. Germann, M. Ruiter, P. Groche, The challenge of upscalling paraffin wax actuators, Materials and Design, 190 (2020).
4. C. M. Roland, Mechanical behavior of rubber at high strain rates, Rubber chemistry and technology, 79 (2006).
5. P. Polcar, Functional sample of a new generation thermostat, Technical Report VZU-VZ-46/21/021, VZU Plzeň, 2021.