@article{A. Al-Hattab_K. Ajjam_2022, title={NONISOTHERMAL SIMULATION OF ELECTRODEPOSITION}, volume={22}, url={https://iqjfmme.com/index.php/jmme/article/view/586}, DOI={10.32852/iqjfmme.v22i1.586}, abstractNote={<p>The simulation of electrochemical deposition is developed by using a non-isothermal model. <br>The model consists of two parts; the first is a continuum part that simulates the transport of <br>heat and mass and the voltage distributions, and the second is a stochastic noncontinuum part <br>that simulates the bulk diffusion, surface diffusion, and adsorption of the particles. The finite <br>element method is used to solve the differential-algebraic governing equations of the <br>continuum part whereas the Kinetic Monte Carlo method is used to simulate the particle <br>actions in the non-continuum part. The model is applied to the electrodeposition of Zn in <br>ZnSO4 additive-free electrolyte. A comparison is made between the experimental and the <br>simulated results including the surface morphology and the temperature distributions. The <br>results indicated that the simulation model is very promising to be used for such a complicated <br>process.</p>}, number={1}, journal={THE IRAQI JOURNAL FOR MECHANICAL AND MATERIALS ENGINEERING}, author={A. Al-Hattab, Tahseen and K. Ajjam, Sata}, year={2022}, month={Apr.}, pages={68–84} }