The Honorable President of the University of Technology, Prof. Dr. Ahmed Mohamed Hassan Al-Ghabban, gave a letter of thanks and appreciation to each of the Assistant. Profeccer Dr. Khaled Khudair Abbas and Technical Director. Alaa Ibrahim Mohammed and senior engineer. Saad Karim Hassan and engineer. Ali Amer Hamid Abdul Ghani and senior engineer. Hussein Fadel Hadi and Deputy. Chief Engineers. Dalia Riyadh Abdullah, who is affiliated with the Department of Materials Engineering, for their efforts, dedication and sincerity in the maintenance and rehabilitation of three laboratory equipment in the department, according to letter No. 3751 dated 06/16/2022.

The Department of Materials Engineering at the University of Technology awarded a master’s degree to the student Israa Haider Tarish, Department of Materials Engineering/ University of Technology, for her tagged thesis:
"Erosion Resistance of High Strength Copper Alloys"
The discussion took place in the Graduate Studies Hall in Building C in the department on Wednesday, 22/6/2021 at nine in the morning, and the discussion committee consisted of Ladies and Gentlemen:

1. Prof. Dr Jassim Mohammed Salman, President
2. Asst.Prof.Dr. Nevin Gamal Abdel Qader is a member
3. Asst.Prof.Dr. Jamal Jalal Dawood a member
4. Prof.Dr Ali Hussein Attiwi is an honorable member

The thesis scientifically evaluated by a professor. DrAli Abbar Khalif/ University of Technology/ Department of Production and Metallurgy Engineering, and Prof. Dr Ali Hobi Halim/ University of Babylon/ College of Materials Engineering, and linguistically by Asst. Prof.Dr  Mayada Shanan Abd/ University of Technology/ Department of Materials Engineering.
After the discussion committee showed their observations on the thesis, which were about explanation and correction and the student’s defense of her thesis and after the end  of the discussion , the committee decided to evaluate the thesis, and decided to grant the student a master’s degree with a full grade.

Abstract:
The aim of the project is to improve the erosion resistance of copper-beryllium alloy and Studing the effect of treatment on erosion properties, hardness, and microstructure including methods that are cryogenic treatment, plasma nitriding coating, and other heat treatments such as annealing, solution treatment, and aging. The nitriding showed an improvement in erosion resistance and hardness. Finally, it can be concluded that the better treatment processes that enhance the erosion wear resistance of Be-Cu alloy are the solution treatment followed by aging (1hour) and then nitriding (10 hours).

Based on the principle of cooperation between Iraqi universities and the keenness of the Materials Engineering Department / University of Technology to strengthen the bonds of academic cooperation between departments with common scientific specializations, a memorandum of scientific cooperation was signed with Al-Isra'a University College on Monday, 05/30/2022, where the memorandum was signed by the Assistant Professor Dr. Hussein Alaa Jaber, Head of the Materials Engineering Department, and Prof. Dr. Abdul Razzaq Jaber Al-Majidi, Dean of Isra'a University College... This agreement will provide an opportunity for teaching staff and students to benefit and achieve sharing in the scientific and practical capabilities and expertise available between the two parties, which in turn will work to strengthen the educational process in the service of our dear country.

The Department of Materials Engineering at the University of Technology awarded a master’s degree to the student Iman Hussein Radhiwi, Department of Materials Engineering / University of Technology for her  thesis. Titled
“An Ecofriendly MXene (Ti3AlC2) Modified ZnO Heterostructured Nanophotocatalyst For Rapid Removal Real Pharmaceuticals Wastewater Under Simulated Solar Light”
Where the discussion took place in the Graduate Studies Hall in Building B in the department on Thursday, 26/5/2021 at nine in the morning, and the discussion committee consisted of Messrs.
1. Asst.prof.Dr. Laith Waddah Ismail,  chairman
2. Asst.prof.Dr  Mahmoud Khazal Hammadi Member
3. Lect. Dr. Basma Hashem Mohammed Member
4. Prof. Dr . Ahmed Mohamed Hassan Al-Ghabban is a Supervising Member
5.Asst.prof.Dr. Khaled Khudair Abbas is a Supervising Member
As well as a scientific evaluation of the thesis by a professor. Dr. Ammar Emad Kazem/ University of Babylon/ College of Materials Engineering, and Prof. Dr. Qusai Fadel Abdel Hamid/ University of Technology/ Department of Chemical Engineering, and linguistically by Asst. Prof.Dr. Mayada Shanan Abd/ University of Technology/ Department of Materials Engineering
After the discussion committee recorded its observations on the thesis, which were divided between explanation and correction and the student’s defense of her message and the discussion ended, the committee decided to evaluate the thesis, and decided to grant the student a master’s degree with a Pass grade.

Abstract
The MXene was employed to enhance the ZnO nanoparticles and for the synthesized heterostructured photocatalyst to photodegrade harmful pharmaceuticals under simulated sunlight. The MXene was hydrothermally prepared from a MAX phase (Ti3AlC2) by utilizing NH4HF2 as an etchant, followed by chemical synthesis of a ZnO/TiO2 MXene photocatalyst. XRD, FTIR, FESEM, UV-vis DRS, TEM, and BET analysis were used to analyze the prepared photocatalysts. The results showed that ZnO-TiO2 MXene had excellent performance in the elimination of the ceftriaxone sodium and carbamazepine compounds, with an evaluated efficiency of 99.4% and 99.6%.