Ingenieurwissenschaften und zugeordnete Tätigkeiten
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- Additive Manufacturing (93)
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Computational Advances
(2014)
The influence of two different weld imperfections (gap/crack) on the fatigue behaviour of spot welded joints was tested
Surface cracks havenoinfluenceon thefatiguelife
Samples with cracks in the electrode indentation /HAZ where tested
Stiffness curves are not significantly influenced by surface cracks
3D FE-Simulation demonstrate no changes of stress due to surface imperfections
Drop-out of molten material was avoided by EM pressure
Compensation of the hydrostatic pressure of up to 20 mm thick
aluminum and stainless steel (experiment and FEM)
Mitigation of the weld bead dynamics
Significant changes in the velocity distributions in the weld pool
Weld pool geometry shape changes due to Hartmann effect
Significant porosity reduction
Surface quality improvements
Drop-out of molten material was avoided by EM pressure
Compensation of the hydrostatic pressure of up to 20 mm thick
aluminum and stainless steel (experiment and FEM)
Mitigation of the weld bead dynamics
Significant changes in the velocity distributions in the weld pool
Weld pool geometry shape changes due to Hartmann effect
Significant porosity reduction
Surface quality improvements
Epoxy/Carbon nanotube (CNT) composites are interesting materials that could be used in a wide variety of applications. In this study, CNT contents of 0.25, 0.5, 1 and 2 wt% were used for reinforcing epoxy. A nanoindentation device and a temperature regulating system were developed in order to investigate the effect of CNTs on the time-dependent properties of epoxy using relaxations and creep tests on the nano scale. The relaxation tests showed a significant shift for the relaxation spectrum towards shorter times with introducing a low CNT content of 0.25 wt%. Additionally, creep tests showed that both the holding time at a constant load and the unloading velocity have a major effect on the contact stiffness. However, there was no effect for the CNTs on the creep behavior with contents lower than 1 wt%, which was related to the presence of a percolation threshold around this value.
The load partition in Mg-Y-Zn system is studied by means of synchrotron diffraction. in-situ tensile tests disclose LPSO phases were for the first time proved to behave as an efficient reinforcement in Mg-Y-Zn alloys, therefore they could be treated as “short-fibre composite” for the modeling of mechanical behaviour.
The radiation-induced degradation of PMMA is known to be inhibited by low-molecular-weight substances, mainly of aromatic structure. In the case of linear and angular condensated aromatic compounds a protection of 80 % was attained. The efficiency is proportional to the concentration up to beginning saturation. Its dependence from resonance energy and from the first excited singulet state allows the conclusion that the additives act by means of excitation transfer and radical scavenging. The yield of chain-scissions is noticed to be constant up to high doses. This suggests that the additives are not destroyed by reason of the considerable radiation resistance of aromatic compounds. The fact that the mixtures are more intensively coloured than the pure polymer in spite of lower degradation is in contradiction to this assumption. This colouration, not noticed at the pure additives at corresponding doses, is a sign of a significant decomposition of the additives combined with the protection of the polymer against degradation. The object of our investigation was to study this connection in detail with special regard to energy transfer.