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    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

    Computational modeling of polygonal cracks

    Shamina, A.A. / Shamin, A.Y. / Udalov, A.S. et al. | Elsevier | 2024
    Schlagwörter: Discontinuous displacement method

    Static and kinematic PPP-AR performance of low-cost GNSS receiver in monitoring displacements

    Ogutcu, Sermet / Alcay, Salih / Duman, Huseyin et al. | Elsevier | 2023
    Schlagwörter: Displacement

    Are low-income residents disproportionately moving away from transit?

    Allen, Jeff / Higgins, Christopher D. / Silver, Daniel et al. | Elsevier | 2023
    Schlagwörter: Displacement

    An integrated slot allocation model for time-space-dimensional noise reduction

    Feng, Huilin / Hu, Rong / Zhang, Junfeng et al. | Elsevier | 2023
    Schlagwörter: Schedule displacement

    Social cost of airline delays: Assessment by the use of revenue management data

    Lesgourgues, Augustin / Malavolti, Estelle | Elsevier | 2023
    Schlagwörter: Schedule displacement

    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]

    Can public transport improve accessibility for the poor over the long term? Empirical evidence in Paris, 1968–2010

    Viguié, Vincent / Liotta, Charlotte / Pfeiffer, Basile et al. | Elsevier | 2022
    Schlagwörter: Population displacement

    PPP-derived tropospheric ZWD augmentation from local CORS network tested on bridge monitoring points

    Tang, Xu / Liu, Zhizhao / Wyn Roberts, Gethin et al. | Elsevier | 2022
    Schlagwörter: Bridge Displacement Monitoring

    Evaluation of SNR-based GNSS-reflectometry altimetric precision by a height displacement tool

    Selbesoglu, Mahmut Oguz / Karabulut, Mustafa Fahri / Aykut, Nedim Onur et al. | Elsevier | 2022
    Schlagwörter: Displacement