41–50 von 51 Ergebnissen
|

    Effect of aircraft tire wear on water spray and water displacement drag

    Ge, Chenhui / Liu, Peiqing / Qu, Qiulin et al. | Elsevier | 2024
    Schlagwörter: Water displacement drag

    Behavioral and technology implications of electromobility on household travel emissions

    Srinivasa Raghavan, Seshadri / Tal, Gil | Elsevier | 2021
    Schlagwörter: Gasoline displacement

    Evaluation of link-track performances using DEM

    Asaf, Z. / Rubinstein, D. / Shmulevich, I. | Elsevier | 2004
    Schlagwörter: Shear displacement

    Boundary-layer viscous correction method for hypersonic forebody/inlet integration

    Ding, Feng / Liu, Jun / Huang, Wei et al. | Elsevier | 2021
    Schlagwörter: Boundary-layer displacement thickness (BLDT)

    Re-examined principles of thrust generation by a track on soft ground

    Grečenko, Alexandr | Elsevier | 2006
    Schlagwörter: Soil displacement

    Reconstruction of road defects and road roughness classification using Artificial Neural Networks simulation and vehicle dynamic responses: Application to experimental data

    Ngwangwa, H.M. / Heyns, P.S. / Breytenbach, H.G.A. et al. | Elsevier | 2014
    Schlagwörter: Displacement spectral density

    Effects of reduced inflation pressure and vehicle loading on off-road traction and soil stress and deformation state

    Pytka, Jarosław / Dąbrowski, Jarosław / Zając, Maciej et al. | Elsevier | 2005
    Schlagwörter: Soil displacement

    Influences of pre-crash braking induced dummy – Forward displacements on dummy behaviour during EuroNCAP frontal crashtest

    Woitsch, Gernot / Sinz, Wolfgang | Elsevier | 2013
    Schlagwörter: Dummy forward displacement

    Radiation testing of a commercial 6-axis MEMS inertial navigation unit at ENEA Frascati proton linear accelerator

    Bazzano, G. / Ampollini, A. / Cardelli, F. et al. | Elsevier | 2020
    Schlagwörter: Displacement Damage

    Modelling and experimental identification of spring-damping properties of the off-road vehicle rubber tracks, rubber belts, and rubber-bushed tracks subjected to flexural vibrations

    Chołodowski, Jakub | Elsevier | 2023
    Schlagwörter: coefficients of the equation Eq. (12) that describes the angular displacement of the node connecting the torsion spring and damper of the i-th Maxwell-element of the joint model shown in Fig. 10b resulting from a sinusiodally varying angular displacement applied to the entire Maxwell-element, [rad] , the total reaction moment induced in a real track or belt subjected to a sinusoidally varying deflection angle, the total reaction moment induced in the joint model shown in Fig. 10b due to a sinusoidally varying angular displacement of the entire joint, or the reaction moment measured using the test stand in Fig. 12 or predicted with the track model in Fig. 10, [Nm] , the reaction moment induced in a single Maxwell-element of the joint model shown in Fig. 10b due to a sinusiodally varying angular displacement applied to the entire Maxwell-element, [Nm] , the amplitude of the sinusoidally varying angular displacement in the joint of the track or belt model shown in Fig. 10, [rad, °] , the amplitude of the reaction moment resulting from a sinusoidally varying angular displacement in the model joint shown in Fig. 10b, [Nm] , the angular displacement in the entire joint of the track or belt model shown in Fig. 10, [rad] , the angular displacement of the node that connects the spring and damper of the Maxwell-element of the joint model shown in Fig. 10b, [rad] , the phase shift between the sinusoidally varying angular displacement and the reaction moment induced in the model joint shown in Fig. 10b, [rad]