A study of the effect of acid immersion on some physical properties of ( Epoxy – MgO) composites

Jinan M. H. Jabir

doi:10.30723/ijp.v13i26.295

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Publication Date

Sun Feb 10 2019

Journal Name

Iraqi Journal Of Physics

Volume

13

Issue Number

26

DOI

10.30723/ijp.v13i26.295

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A study of the effect of acid immersion on some physical properties of ( Epoxy – MgO) composites

Polymer composite

Epoxy resin

Dielectric Toughness

Hardness

Immersion.

Jinan M. H. Jabir

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In this study a polymeric composite material was prepared by hand
lay-up technique from epoxy resin as a matrix and magnesium oxide
(MgO) as a reinforcement with different weight fraction (5,10,15,
and 20)% to resin. Then the prepared samples were immersed under
normal condition in H₂So₄(1 M) solution, for periods ranging up to
10 weeks. The result revealed that the diffusion coefficient
decreasing as the concentration of MgO increase. Also we studied
Hardness for the prepared samples before and after immersion. The
result revealed that the hardness values increase as the concentration
of MgO increase, while the hardness for the samples after immersion
in H₂SO₄ decreased as compared to those before immersion. In
addition, the dielectric strength decreasing by increasing the MgO
concentration with time immersion.

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Publication Date

Tue Mar 26 2024

Journal Name

World Electric Vehicle Journal

Fast Finite-Time Composite Controller for Vehicle Steer-by-Wire Systems with Communication Delays

vehicle steer-by-wire (SBW)

fast finite-time composite control (FFTCC)

finite-time extended state observer (FTESO)

scale gain

robustness

time-varying delays

unpredictable exterior road disturbance

Kamal

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The modern steer-by-wire (SBW) systems represent a revolutionary departure from traditional automotive designs, replacing mechanical linkages with electronic control mechanisms. However, the integration of such cutting-edge technologies is not without its challenges, and one critical aspect that demands thorough consideration is the presence of nonlinear dynamics and communication network time delays. Therefore, to handle the tracking error caused by the challenge of time delays and to overcome the parameter uncertainties and external perturbations, a robust fast finite-time composite controller (FFTCC) is proposed for improving the performance and safety of the SBW systems in the present article. By lumping the uncertainties, parameter var

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