The Department of Materials Engineering at the University of Technology awarded a doctorate degree to the student, Tamara Raad Kadhim , Department of Materials Engineering / University of Technology for her thesis titled

“Preparation and Characterization of Internal Bone Plate Fixation Made From Polymeric Bio Composites”

The discussion took place in the postgraduate hall located in Building B within the department on Thursday, 2/11/2023 at nine o'clock in the morning, and the discussion committee consisted of ladies and Gentlemen

Prof. Dr. Jumaa Salman Jiyad, President

Prof. Dr. Wafa Mahdi Saleh, member

Asst.prof.Dr. Jamal Jalal Daoud, member

Asst.prof.Dr.. Mayada Shanan Abd, member

Asst.prof.Dr.. Hassanein Ibrahim Khalaf, member

Prof. Dr. Jawad Kazem Aliwi, supervisor.

Prof. Dr. Qahtan Adnan Hamad, supervisor

In addition, the thesis was scientifically evaluated by Prof. Dr. Khaled Murshid Awaid/Al-Mustansiriya University/College of Engineering/Department of Materials Engineering, and Prof. Dr. Auham Muhammad Hamid/University of Technology/Department of Applied Sciences, and linguistically by Asst.Prof.Dr. Laith Waddah Ismail/University of Technology/Department of Materials Engineering

After the examination committee recorded its comments on the thesis, which covered both explanation and correction, the student's defense of her thesis, and the conclusion of the discussion, the committee convened to evaluate the thesis. They decided to award the student a doctorate degree with a pass grade

Abstract:

The aim of this work was to fabricate two new types of ultrafiltration membranes (PVDF/MAXphase Ti3ALC2 and PVDF/TiO2-Ti3C2 MXene) and it was implemented by using the in situ modulation technique within phase inversion. In general, TiO2-Ti3C2 was incorporated into wood to reduce hydrophobicity and surface roughness. The distinctive properties invented by MXene were required, such as increased water permeability, effective dye rejection and anti-detection properties, so they proved it as an improved film and sealant material, and they achieved N5 The highest porosity and maximum flows of 538 h2L/m and 467.8 h2L/m (marine submarine and dye solution (EBT) on the toilet, where the hydrophilic N5 showed the highest affinity for Eriochrome black T (EBT) and flow recovery of 100%, which was vastly superior to the other film tested for it.