بحث بيانات أعضاء هيئة التدريس

الموقع الشخصى

محمود مصطفي السيد عوض الله

الكلية الهندسة - القسم التصميم الميكانيكى والانتاج

الدرجات العلمية

بكالوريوس فى التصميم الميكانيكي والانتاج, -جامعة الزقازيق [2019]

الحالة الوظيفية الحالية :

قائم بالعمل

التدرج الوظيفى الأكاديمى

معيد : 14/4/2020

الأبحاث العلمية

1 - Metal/polymer composite cylinders for crash energy absorption applications (1444).

2 - The influence of induced holes on crashworthy ability of glass reinforced epoxy square tubes (1444).

3 - Energy absorption characteristics of E-glass/epoxy over-wrapped aluminum pipes with induced holes: an experimental research (1443).

4 - Lightweight cost-effective hybrid materials for energy absorption applications (1443).

5 - Crashworthiness performance of thin-walled glass/epoxy square tubes with circular cutouts: An experimental study (1444).

6 - Crashworthiness of Hybrid Pipes with Triggering Mechanism Under Quasi-static Axial Compression (1445).

7 - Fiber Metal Laminates Based on Natural/Synthesis Fiber Composite for Vehicles Industry: an Experimental Comparative Study (1444).

8 - Carbon‐glass reinforced epoxy hybrid composites for crashworthy structural applications (1444).

9 - Collapse behavior and energy absorbing characteristics of 3D-printed tubes with different infill pattern structures: an experimental study (1444).

10 - Lateral crashing response of thin‐walled composite structures filled with carbon nanopowder (1445).

11 - Effect of alumina nano‐particles on collapse behavior and energy absorption of laterally loaded glass/epoxy composite tubes (1445).

12 - Exploring the effect of nanoclay addition on energy absorption capability of laterally loaded glass/epoxy composite tubes (1445).

13 - Fabrication of Glass/Jute Hybrid Composite over Wrapped Aluminum Cylinders: An Advanced Material for Automotive Applications (1444).

14 - Lateral crashing response of thin‐walled composite structures filled with carbon nanopowder (1446).

15 - Exploring the effect of nanoclay addition on energy absorption capability of laterally loaded glass/epoxy composite tubes (1446).

16 - On the Influence of Different Infill Pattern Structures on the Crashworthiness Performance of 3D Printed Tubes Subjected to Lateral Loading Condition (1446).

17 - Assessing the crashworthiness of nanocarbon‐filled glass fiber reinforced epoxy composite tubes under axial loading (1446).

18 - Picking Up the Optimum Triggering Combinations of Crashworthy 3D-Printed Sustainable Structures: An Experimental Study in Al-Kharj Governorate, KSA (1446).

19 - Multi-objective optimization through desirability function analysis on the crashworthiness performance of thermoplastic/thermoset hybrid structures (1446).

20 - Axial Crashworthiness Characterization of Bio-Inspired 3D-Printed Gyroid Structure Tubes: Cutouts Effect (1446).

21 - Optimizing the crashworthy behaviors of hybrid composite structures through Taguchi approach (1445).

22 - Mechanical Characteristics of Sandwich Structures with 3D-Printed Bio-Inspired Gyroid Structure Core and Carbon Fiber-Reinforced Polymer Laminate Face-Sheet (1445).

23 - Hybrid Metal/Composite Structures Under Quasi-static Axial Compression Loads: A Comparative Study (1445).

24 - How Do Silicon Carbide Nanoparticles Affect the Crashworthiness Performance of Glass/Epoxy Composite Tubes? (1445).

25 - Crush analysis of hybrid glass/nano-silica/epoxy composite cylinders under lateral loading conditions (1445).

26 - Experimental optimization of energy absorption in foam‐filled square multicell composite tubes under quasi‐static loading (1447).

27 - Influence of Pre-designed Crack Parameters on Crashworthiness Performance of PETG-CF Square Tubes Under Quasi-static Compression (1447).

28 - Geometric optimization of the crashworthiness performance of 3D-printed PLA-GF tubes with square-to-circular transitions via squircle geometry (1447).

29 - Multi‐criteria decision‐making for optimizing crashworthiness of 3D‐printed PETG‐CF lightweight structures: influence of printing parameters (1447).

30 - Innovative, high‐performance, and cost‐effective hybrid composite materials for crashworthiness applications (1447).

31 - Experimental Investigation of Material Synergy: Influence of 3D Printing Parameters on the Lateral Crash Performance of Cellular Structures Stuffed in Aluminum Tubes (1447).

32 - Energy absorption performance of foam-filled multi-cell circular e-glass/epoxy composite tubes under quasi-static compression testing (1447).

33 - Integrating Bio-inspired Concepts Into Lightweight Sustainable Crashworthy Designs Under Lateral Loading Scenario (1446).

34 - Experimental crashworthiness evaluation of seahorse-inspired PETG-CF square tubes under axial compression loading (1447).

35 - Comparative analysis of metal–thermoplastic hybrid circular structures under quasi-static lateral loading: implications for crashworthiness (1446).

36 - Effect of alumina nano‐particles on collapse behavior and energy absorption of laterally loaded glass/epoxy composite tubes (1446).

37 - Crashworthiness Prediction of Perforated Foam-Filled CFRP Rectangular Tubes Crash Box Using Machine Learning (1447).

38 - Energy absorption performance of 3D-printed windowed structures under quasi-static axial loading condition (1446).

39 - Discovering the impact of printing parameters on the crashworthiness performance of 3D-printed cellular structures (1446).

40 - How do Printing Parameters Influence the Tensile Performance of 3D-Printed Lightweight Structures: A Comprehensive Analysis and Optimization Approach? (1446).

المجالات البحثية

التصميم الميكانيكى والانتاج