Synonyme wurden verwendet für: area cross sectional area
Suche ohne Synonyme: keywords:( A cross sectional area)

1–15 von 15 Ergebnissen
|

    Analytical technique for satellite projected cross-sectional area calculation

    Ben-Yaacov, Ohad / Edlerman, Eviatar / Gurfil, Pini | Elsevier | 2015
    Schlagwörter: Cross-sectional area

    A statistical human rib cage geometry model accounting for variations by age, sex, stature and body mass index

    Shi, Xiangnan / Cao, Libo / Reed, Matthew P. et al. | Tema Archiv | 2014
    Schlagwörter: Querschnittsfläche , cross-sectional geometry

    The optimization of rough surface supersonic nozzles

    Vlassov, D. / Vargas, J.V.C. / Ordonez, J.C. | Elsevier | 2007
    Schlagwörter: Nozzle outlet cross sectional area

    Evaluating the safety impacts of the number and arrangement of lanes on freeway exit ramps

    Chen, Hongyun / Liu, Pan / Lu, Jian John et al. | Elsevier | 2009
    Schlagwörter: Freeway diverge area , Cross-sectional comparison

    Soil Properties after Plowing with Vertical and Horizontal Axis Rotavator

    Freier Zugriff
    M. Azadbakht / B. Azadbakht / R. Janzade Galogah et al. | BASE | 2014
    Schlagwörter: cross-sectional area

    Zur systematischen Bewertung integrativer Leichtbau-Strukturkonzepte für biegebelastete Crashträger

    Kellner, Philipp | Tema Archiv | 2013
    Schlagwörter: Querschnittsfläche , A-Säule

    The use of a novel cleaning closed suction system reduces the volume of secretions within the endotracheal tube as assessed by micro-computed tomography: a randomized clinical trial

    Freier Zugriff
    COPPADORO, ANDREA / BELLANI, GIACOMO / BRONCO, ALFIO et al. | BASE | 2015
    Schlagwörter: Cross-sectional area

    Ultimate compressive strength of plate elements with pit corrosion wastage

    Paik, J K / Lee, J M / Ko, M J | SAGE Publications | 2003
    Schlagwörter: smallest cross-sectional area

    Gas dynamics analysis of an air pocket in the metal-stamping process

    Hwang, S-J / Park, W-G / Kim, C et al. | SAGE Publications | 2008
    Schlagwörter: cross-sectional area for the target pressure

    Research and Exploration on Cross-Border Transportation Support Development in Metropolitan Areas

    Liu, Yuejun / Yuan, Chunyi / Liu, Junjun et al. | Springer Verlag | 2024
    Schlagwörter: Metropolitan area , Cross border transportation , A

    Multiphysics analysis of busbars with various arrangements under short-circuit condition

    Freier Zugriff
    Kadkhodaei, Gholamreza / Sheshyekani, Keyhan / Hamzeh, Mohsen et al. | IET | 2016
    Schlagwörter: conductor cross-sectional area effects

    Limited effect of fly-wheel and spinal mobilization exercise countermeasures on lumbar spine deconditioning during 90d bed-rest in the Toulouse LTBR study

    Belavý, Daniel L. / Ohshima, Hiroshi / Bareille, Marie-Pierre et al. | Elsevier | 2011
    Schlagwörter: cross-sectional area

    Preliminary Study of Marine Aircraft Landing Systems

    W. E. Sears / R. P. Zimmer / E. R. Flynt et al. | NTIS | 1973
    Schlagwörter: Radar cross sections , A-4 aircraft , A-4e aircraft , Marine remote area and approach landing system , Mraals(Marine remote area and approach landi)

    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: Ai, B i , 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] , a constant and a coefficient involved in the general solution of Eq. (11) (see Appendix A) , the stress in the Coulomb material model or a Coulomb rheological element, [MPa] , D, DA, DB , determinants derived to solve the system of equations Eq. (A.13) , the modulus of elasticity of the Hooke material model or a Hookean rheological element, [MPa] , flexural rigidity of a continuous beam member, [Nmm2] , errAp, errB p, error functions analysed to estimate the spring-damping parameters of the model shown in Fig. 10 for a real track or belt (see Section 3.3) , the error exhibited by the model shown in Fig. 10 in predicting the amplitude of the reaction moment induced in a real rubber track due to cyclic bending , the error exhibited by the model shown in Fig. 10 in predicting the phase shift between the sinusoidally varying deflection angle and reaction moment induced in a real rubber track , the bending frequency applied to a track or belt in the p-th of n cyclic bending tests, [Hz] , thickness of a single aluminium bar discussed in Sections 4.4 and 5.1, [mm] , the area moment of inertia of the cross-section of a beam, [mm4] , k n , k 0 through k 9, stiffness of the torsion spring representing the elastic properties of a real track or belt in the model shown in Fig. 10, [Nm/rad] , stiffness of a torsion spring implemented in a discrete beam model, [Nm/rad] , length of a single section of a discrete model of a one-dimensional mechanical structure, [mm] , the moment that acts on the node connecting the torsion spring and damper of the i-th Maxwell-element of the joint model shown in Fig. 10b due to a non-zero deflection rate of the torsion damper, [Nm] , 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 reaction moment induced in the spring-element of the joint model shown in Fig. 10b due to a sinusoidally varying deflection of the spring, [Nm] , the number of: springs or dampers of the model joint shown in Fig. 10b, spring or damping elements of a rheological model, or experiments in a test series , the iterator that indicates an individual experiment within the series of n cyclic bending tests on a real track or belt , linear velocity of a vehicle, [m/s] , width of a single aluminium bar discussed in Sections 4.4 and 5.1, [mm] , the amplitude of the deflection angle exerted on a real track or belt during a cyclic bending test at the angular frequency ωp, [rad, °] , the amplitude of the reaction moment resulting from a sinusoidally varying angular displacement in the model joint shown in Fig. 10b, [Nm] , the amplitude of the reaction moment induced in a real track or belt during the cyclic bending test at the angular frequency ωp and the deflection angle amplitude Xωp, [Nm] , the amplitude of the reaction moment predicted by the model shown in Fig. 10 for a track or belt under cyclic bending at the angular frequency ωp and the deflection angle amplitude Xωp, [Nm] , slope of a linear function, [-] , the viscosity of the Newton material model or a Newtonian rheological element, [MPa·s] , stress induced in a solid or liquid material, [MPa] , the phase shift between the sinusoidally varying deflection angle and the reaction moment induced in a real track or belt under cyclic bending at the angular frequency ωp, [rad] , the phase shift between the deflection angle and the reaction moment predicted by the discrete model shown in Fig. 10 for a real track or belt under cyclic bending at the angular frequency ωp, [rad] , the angular frequency of excitation applied to a real track or belt in the p-th (of n) cyclic bending test, [rad/s]

    Piston Resonance in the Orifice Pulse Tube

    Boer, P.C.T. / Duval, J.-M. / Charles, I. et al. | Springer Verlag | 2003
    Schlagwörter: A cross sectional area , S surface area