An experimental and numerical study of forced convection in a microchannel with negligible axial heat conduction (PDF) Experimental and Numerical Study of Micropiles to Based on studies involving physical model, numerical model and/or field studies [4,5,  , it is found that the use of piles/columns can effectively mitigate the settlements
Based on studies involving physical model, numerical model and/or field studies [4,5,  , it is found that the use of piles/columns can effectively mitigate the settlements EXPERIMENTAL AND NUMERICAL INVESTIGATIONS OF experimental and analytical studies were conducted to understand the maximum loads caused by the ground movement on the pipelines, design practices for the assessment of pipes subjected to ground movements are not yet well developed. Efficiency of Coupled ExperimentalNumerical Predictive Based on the comparative studies summarized in the paper, the potential of coupled experimentalnumerical predictive studies was thus emphasized, giving evidence of the feasible prevention (or possible mitigation) of severe troubles due to machine-induced vibrations.
Jan 14, 2020 · This paper presented the results of an experimental study and numerical simulation of the seismic performance of a precast shear wall with rabbet-unbonded horizontal connections. Three specimens with various parameters were tested to failure under cyclic quasi-static loading test. A parameter analysis was performed using an ABAQUS FE simulation. Experimental and Computational Investigation of the Tip Experimental and computational techniques are used to investigate tip clearance flows in a transonic axial compressor rotor at design and part-speed conditions. Laser anemometer data acquired in the endwall region are presented for operating conditions near peak efficiency and near stall at 100 percent design speed and at near peak efficiency Experimental and Numerical Study of Failure Behavior and To verify the rationality of the numerical models, the axial stress-strain curves for 4 numerical models are selected to compare with the corresponding experimental results. Figure 6 shows the curve comparison of the specimens S-0-15-0.4, S-0-30-0.4, S-0-45-0.4, and S-0-60-0.4.
Experimental and Numerical Study of a Fixturing System for Complex Geometry and Low Stiffness Components Andrés A. Gameros, Andrés A. Gameros Rolls-Royce Manufacturing and On-Wing University Technology Centre, The University of Nottingham, C31 Experimental and Numerical Study on Longitudinal Axial May 27, 2018 · Li X., Zhou X., Hong B., Zhu H. (2018) Experimental and Numerical Study on Longitudinal Axial Force and Deformation of Shield Tunnel. In:Zhang D., Huang X. (eds) Proceedings of GeoShanghai 2018 International Conference:Tunnelling and Underground Construction. GSIC 2018. Springer, Singapore. First Online 05 May 2018 Experimental and numerical study of the accretion of Experimental and numerical study of the accretion of chondrule rims. A. Carballido1, R. Hanna2, C. Xiang1, L. S. Matthews 1 , and T. W. Hyde 1 . 1 Center for Astrophysics, Space Physics and Engineering Research, One Bear Place
Experimental measurements by particle image velocimetry are carried out to validate the credibility of the computational approach. We present a study for determining complex flow structures using the case of an anatomically realistic carotid bifurcation model that is reconstructed from medical imaging. Improving the open-hole tension characteristics with Variable angle tow  (also known as variable-axial  and variable-stiffness ) laminates have been extensively investigated for flat laminates [21,22], however less attention has been Materials Free Full-Text Experimental and Numerical An experimental and numerical analysis were performed to study the strength, stiffness and failure modes of the lap joints. The test results showed that the strengthening effect of sticking carbon fiber-reinforced polymer (CFRP) sheets is better than that of sticking CFRP bars or steel bars due to the better bonding conditions; therefore, the
Jun 19, 2019 · The numerical findings presented in this article demonstrate that certain features, such as the amplitude and time of flight, of the solitary waves are affected by the axial stress. The experimental results validated the numerical predictions and warrant the validation of the nondestructive evaluation system against real rails. Numerical Simulation and Experimental Study of the Numerical Simulation and Experimental Study of the Hydrostatic Spindle with Orifice Restrictors He Qiang1, which also guarantees radial and axial stiffness of the spindle. The spindle driven by a synchronous belt is shorter than the motorized spindle in the axial direction, and has better rigidity and vibration resistance. Effect of axial stiffness of NSM FRP reinforcement and An experimental and numerical study was performed to study the effectiveness of axial stiffness and of the type of confinement of near-surface mounted (NSM) fibre reinforced polymer (FRP) reinforcement on the strengthened beam bearing capacities and failure modes.