Hassan Ramadan Faraj Zaid


Permanent Lecturer

Qualification: Bachelor

Academic rank: Assistant professor

Specialization: هندسة معادن

- Faculty of Engineering

Publications
Identifying the Effect of Gas Tungsten Arc Welding Parameters on the Quality of 304L Stainless Steel Weldments Using Taguchi Method
Conference paper

An attempt has been made to evaluate the effect of welding parameters on the weld penetration, weld bead width and heat effective zone of Tungsten Inert Gas (TIG) welded 2 mm 304L stainless steel joints. The welding parameters including arc current, welding travel speed and gas flow rate were used to achieve the optimum joint. Taguchi technique has been implemented to optimize the welding parameters. Orthogonal array L9 (Three factors with three levels 3x3) was used to study the effect of arc current, welding travel speed and gas flow rate on the quality of 304 stainless steel welds. Signal to a noise ratio (SNR) and the analysis of variance (ANOVA) are also used to determine the main effects of different welding parameters on the weld bead width (WB), weld penetration (WP) and heat affected zone (HAZ). Results showed that welding current has significant effect, whereas gas flow rate showed no effect on the quality of 304Lwelded joints. Welding current of 185A, welding speed of 135mm/min and gas flow rate of 15lit/min have been selected as the best process parameter of weld bead width and weld penetration at level three of experiment seven. However, the optimum process parameter for heat affected zone are level one experimental three at165 A, 235 mm/min, 15 lit/min of welding arc current ,travel speed and gas feeding rate, respectively.

Jamal Mohamed Abdullah Khalil, Hasan Abdalla Mohamed Elhaji, Hassan Ramadan Faraj Zaid, (09-2022), 1st Libyan International Conference of Applied Science and Engineering: المجلة الدولية للعلوم والتقنية,

Evaluation of Microstructure and Hardness of AISI D2 Steel by Time Quenching in Comparison with Water and Oil Quenching
Journal Article

Due to an account of its excellent hardness and wear behavior, AISI D2 is used widely in producing of blanking and cold-forming dies, Punches, Shafts, Studs, and Bolts. Increasing toughness at a fixed high level of hardness is growing requirement for this kind of applications. Improving microstructure characteristics, especially carbides distribution by specific heat treatment, is an appropriate way to meet such requirement. The effect of quenching media on microstructure and hardness of pre-heated and austentized (at 980oC) AISI-D2 tool steel has been studied, and hardness and carbides morphology have been investigated. Three different medias, water, oil and water/oil (time quenching) have been used, then all samples were followed by the same tempering 350oC/1 hour. It has been found that the optimal carbides distribution and optimum hardness have been resulted from a time quenching method.

Hassan Ramadan Faraj Zaid, Hassan Ramadan Faraj Zaid, (12-2021), جامعة مصراته: IJEIT ON ENGINEERING AND INFORMATION TECHNOLOGY, 8 (1), 25-28

دور الهندسة العكسية في تعزيز ونجاح المشاريع الريادية في ليبيا
مقال في مؤتمر علمي

تواجه الاعمال الرائدة على مستوى الشركات والافراد مشكلة إمتلاك الفكرة الاساسية لتصنيع منتًج مُعين او ما يسمى نموذج No How” " الذي يهدف أساسا الى تحديد مواصفات المنتًج النهائي بإستخدام أسلوب الهندسة العكسية.

إن من أهم التحديات التي تواجه رائد الاعمال هو كيفية تفادي المخاطرة وإدارة المشروع بشكل سليم بعيدا عن شبح الخسارة وعدم اللجوء الى شراء ال No How  لذا سيكون من المهم جدا إيجاد مخرج بتتبع سيرة المنتج بداية من تركيبه الكيميائي وصولا الى طريقة عمله مرورا بكل العمليات التقنية والانتاجية التي تضمن تقديم منتجات ذات جودة عالية .

تستعرض هذا الورقة نموذج ال No How  المبني أساسا على مفاهيم الهندسة العكسية والتي من شأنها أن تساعد رائد الاعمال لتقديم مشروع ريادي من خلال نقل التقنية وإجراء مجموعة من الاختبارات والتحاليل المعملية حتى يصل المُنتَج الى مراحله الاخيرة في الاختبارات الحقيقية التي تؤكد صلاحية المنتَج لاداء وظيفته بما يتماشى مع الموصفات العالمية.

وقد تم تطبيق النموذج المقترح لصناعة موس قطع قضبان حديد التسليح وفق مفاهيم وأُسس الهندسة العكسية كحالة دراسية قام بها طلبة قسم هندسة علوم المواد والمعادن بكلية الهندسة ، جامعة غريان تأكيدا لأهمية دور المؤسسات التعليمية في خدمة المجتمع وفتح المجال امام بعض المشاريع الريادية ودعم السوق الليبي بمنتجات تتوافق مع المواصفات العالمية.


حسن رمضان فرج زائد، (11-2021)، المؤتمر العلمي الاول لريادة الاعمال: جامعة غريان، 82-86

SOLUBILITY AND PRECIPITATION OF Nb IN AN ANNEALED Fe-30Mn STEEL
Journal Article

The metallurgical influence of niobium (Nb) on an annealed high manganese (Mn) steel is still an active issue of discussion between automobile companies and steel manufacturers. Some controversy exists in the literature concerning the influence of Nb solubility on microstructure and thereby on mechanical properties. The influence of Nb-solubility on microstructure of Fe30Mn alloy steel was investigated experimentally and by computational materials modeling. Nb was added in 0.05, 0.1, 0.2, 0.4, 0.6 and 1% additions and the alloy samples were annealed at 1200oC for 2, 5, 10, 30 and 60 minutes. The microstructure was investigated using an optical microscope, TEM and SEM-EDX and precipitates were chemically tested. Niobium solubility in Fe30Mn austenite was theoretically studied based on Gladman assumptions and was also examined by Thermo-Calc analysis. The result of this work is a comparison between the microstructure analysis and theoretical studies, and it has been found that Nb was soluble in Fe30Mn austenite phase and has had a solute drag effect where Nb(C,N) and NbN precipitates were seen and the effect was pinning effect 


حسن رمضان فرج زائد, (03-2020), Journal of Engineering Research: University of Tripoli, 29 (29), 11-20

Properties enhancement of Al-Zn-Mg alloy by retrogression and re-aging heat treatment
Journal Article

The higher strength 7xxx aluminum alloys exhibited low resistance to stress corrosion cracking (SCC) when aged to the peak hardness (T6 temper). The overaged alloys (T7 temper) developed to enhance the SCC with loss in the strength of the alloy. Recently, retrogression and re-aging (RRA) heat treatments are used for improving the SCC behavior for alloys in T6 tempers such as 7075, 7475 and 8090. In this study, an application of retrogression and re-aging heat treatment processes are carried out to enhance toughness properties of the 7079-T651 aluminum alloy, while maintaining the higher strength of T651-temper. The results of charpy impact energy and electrical conductivity tests show a significantly increases in absorbed energy and electrical conductivity values, when the alloys are exposed to various retrogression temperatures (190, 200, 210°C) and times (20, 40, 60 minutes), and then re-aged at 160°C for 18 hours.

Hassan Ramadan Faraj Zaid, (10-2011), Belgrade-Serbia: Journal Of Mining and Metallurgy, 47 (1), 31-35

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