Dr. Muammel M. Hanon is an Associate Professor at Middle Technical University (MTU), Iraq. He earned his PhD in Mechanical Engineering in 2022 from Szent István University (currently MATE), Hungary. His research focuses on 3D printing, additive manufacturing, wear, friction, laser materials processing, and the tribology of 3D-printed polymers. In 2024, Dr. Hanon was recognized among the Top 2% of scientists worldwide, as per the "Updated science-wide author databases of standardized citation indicators" published by Elsevier/Stanford University.
EDUCATION
Dr. Muammel M. Hanon earned his PhD in Mechanical Engineering in 2022 from Szent István University (currently MATE), Hungary.
RESEARCH, TEACHING, or OTHER INTERESTS
Mechanical Engineering, Industrial and Manufacturing Engineering
58
Scopus Publications
1967
Scholar Citations
22
Scholar h-index
34
Scholar i10-index
Scopus Publications
Mechanical Characterization of Shallow Soils with Varying Clay Content Under Confined Compression Nihal D. Salman, György Pillinger, Muammel M. Hanon Eng, 2026 This study examines the confined compression behavior of soils with varying clay content under controlled boundary conditions. A carefully designed experimental setup was utilized, maintaining constant parameters including the soil thickness-to-plate diameter ratio (H/D), initial bulk density (ρ), and plate diameter (D). This controlled framework enabled the isolated investigation of the effects of clay content on soil compression behavior. A systematic range of soil textures, characterized by increasing clay content, was tested to observe trends and establish relationships between clay content and confined compression response. The evaluation involved the calculation of key parameters relevant to terrain–vehicle systems, such as the load-bearing capacity factor (k) and vertical soil pressure (p). By analyzing the variation in these parameters in relation to clay content, the study aims to clarify how clay proportion and associated soil characteristics, such as plasticity and cohesion, affect load-bearing capacity under confined conditions. Furthermore, the influence of moisture content on the load-bearing capacity factor was investigated within the same boundary conditions, providing additional insight into the interaction between moisture, clay content, and soil strength. The findings of this research will enhance the understanding of soil mechanical behavior under confined compression, with particular relevance to terrain–vehicle interactions and the optimization of off-road mobility.
Surface Tension Dynamics in 3D-Printed Components: Exploring Materials, Manufacturing Technologies and Wetting Behavior Csilla Agócs, Muammel M. Hanon, László Zsidai Acta Polytechnica Hungarica, 2026 This study investigates the complex correlation between surface tension and the existing 3D-printed components, along with their manufacturing technologies to provide potential directions for understanding surface properties in 3D printing.The research focuses on the wetting and surface tensions of different polymeric materials pairs, with different 3D printed materials, such as PLA, bronze powder filled PLA, ABS, gray epoxy resin and white epoxy resin, with diiodomethane and water.The study employs advanced measurement techniques for systematic investigations of surface tension properties.Because of this, Krss DSA30 is the most common surface tension measurement apparatus, specialized in the detection of drop shapes.In this work, the effect of 3D printing technology on surface tension dynamics was explored, using digital light processing (DLP) and fused deposition modeling (FDM) to develop insights into how strength characteristics are governed by the processes used to fabricate materials.The resulting data showed varying levels of surface free energy across a range of materials, suggesting that white and gray epoxy resins may offer superior frictional properties coupled with elevated adhesion.Concisely, this work offers enhancing the functionality and performance of 3D-printed components across diverse applications in different sectors by establishing the foundation for optimized surface tension.
Enhancement of Wear Resistance in 3D-Printed PLA and CF-PLA/Epoxy Composites via Taguchi Design and ANOVA Salwa A. Abed, Ahmed M. Kadhim Al-Khafaji, Muammel M. Hanon Tribology in Industry, 2025 Due to the increasing importance of engineering plastics in diverse engineering fields, demand for these materials has grown alongside technological progress, driving the development of tailored properties for specific applications. This study evaluates the wear behavior of three polymer groups manufactured using additive manufacturing (Material Extrusion, MEX): polylactic acid and carbon fiber-reinforced polylactic acid, both fabricated by the deposition technique and reinforcement with epoxy resin. High-precision three-dimensional models were fabricated for each composite polymer to improve accuracy and performance. Samples were prepared as hollow cylinders with deposition thicknesses defined by diameter reduction ratios (wt.%) of 10%, 20%, and 40%, aiming to investigate the effect of epoxy reinforcement on wear behavior.Both wt.% and applied load during testing were considered as key factors influencing composite performance. Wear properties were assessed using a pin-on-disc device, following a systematic approach to examine the relationship between these parameters and the tribological behavior of the materials. Data analysis was conducted with MINITAB 19, employing the Taguchi method for experimental design and evaluation. Results demonstrated that the adopted design methodology enhanced adhesive wear resistance in all composites. Furthermore, the wt.% had a greater influence on wear performance than the applied load within the scope of this study.
IMPROVING THE PRODUCTION PROCESS OF SILICON NANOPARTICLE AND QUARTZ MICROLENS Muaath J. Mahmoud, Bassam G. Rasheed, Muammel M. Hanon Acta Polytechnica, 2025 This study presents a comprehensive investigation into advanced laser micro/nano machining techniques, utilising three distinct laser sources: a Q-switched Nd:YAG laser, a fibre laser, and a CO2 laser. Notably, the creation of remarkably stable silicon nanoparticles was achieved, opening up promising avenues for new applications. The potential of quartz sheets was exploited to produce spherical microlens arrays, thereby demonstrating the precision of optical element engineering. The distribution of surface and subsurface temperatures for both silicon and quartz materials during laser processing was determined through an in-depth thermal analysis facilitated by COMSOL software. Notably, peak temperatures of 5 700 K and 2 630 K were achieved for silicon and quartz, respectively, highlighting the effectiveness of the laser methodologies employed. Numerical optimisations were conducted using Design of Experiments (DOE) software to enhance silicon nanoparticle production, yielding nanoparticles with a remarkable stability parameter of 33.5 mV. Furthermore, notable outcomes were achieved in the production of quartz microlenses with a numerical aperture of 0.494 and a surface roughness of 4.5 nm. The controllable and precise nature of the laser micro/nano machining techniques enables applications in optoelectronics and advanced biological imaging. The exceptional properties of the engineered silicon nanoparticles and microlens arrays demonstrate their potential across various scientific and technological domains.
Kinematic and vibration analysis of a single-cylinder engine: Effects of connecting rod length, fuel type, and engine speed Hayder M. Mnati, Maroua Hammami, Olfa Ksentini, Mohamed S. Abbes, Mohamed Haddar, Muammel M. Hanon International Review of Applied Sciences and Engineering, 2025 This paper emphasizes the role of fuel substitution in mitigating vibrations and enhancing the performance and reliability of internal combustion engines (ICEs). Using MATLAB for modal analysis, the study investigates natural frequencies and identifies potential resonance issues within critical engine components. The primary focus is on analyzing a four-stroke single-cylinder engine under various speeds and measuring the effects of fuel type on engine performance and efficiency. A comparative assessment evaluated vibration levels between natural gas and petrol by measuring engine vibrations across a range of speeds and analyzing the impact of varying dimensions of internal moving components on performance parameters. Results indicate minimal differences between the engines at lower speeds (1,500–2,000 rpm), while significant increases in vibrations were observed at higher speeds (2,500–3,000 rpm) for the gas engine, highlighting potential mechanical instability. At higher speeds, vibrations peak at the top of the engine, reaching 200 m s−2 with petrol and 240 m s−2 with natural gas. The experimental setup, including accelerometer modules and control systems, enabled real-time vibration monitoring. Numerical results showed that the longest connecting rod (197 mm) yielded the highest displacement, velocity, and acceleration metrics. These findings underscore the advantages of using natural gas as a fuel, including its availability, cost-effectiveness, and environmentally friendly nature, as it produces significantly lower harmful emissions compared to petrol. Additionally, the study offers insights into vibration-damping mechanisms and the influence of modifications to internal moving parts, such as crankshaft diameter and connecting rod length, on engine performance and stability.
Investigating the impact of process parameters on the thermomechanical properties of three-dimensional (3D) printed polymer-nanoclay composites Sheymaa Alazzawi, Noor Hassan Ali, Suha K. Shihab, Muammel M. Hanon International Journal of Thermofluids, 2025 The additive manufacturing of polymer-nanoclay composite systems has been of great interest in developing material systems that are lightweight, tough, and thermally stable. However, attaining maximum thermomechanical properties in three-dimensional (3D) printed composite is challenging given the complex interactions between processing parameters and material structure. This work meets the challenge by investigating the novel use of montmorillonite nanoclay in a plant-based photopolymer resin for Digital Light Processing (DLP) -based three-dimensional (3D) printing applications. The objectives of this work were to improve the thermal conductivity, tensile strength, flexural strength, and impact resistance of the composite, and optimize key processing parameters such as nanoclay concentration, printing orientation, and layer thickness using Response Surface Methodology (RSM). The results of this work indicate that a nanoclay concentration of 0.4496 wt.%, a printing orientation of 61.18°, and a thickness of 0.03 mm produce the maximum thermomechanical properties of the composite. The optimal composite exhibited excellent properties, recording a tensile strength of 48.93 MPa, a flexural strength of 63.31 MPa, a thermal conductivity of 0.3296 W/m·K, and a maximum impact energy of 0.3275 J. The results of this work mark a great milestone in the field given the great potential of using environmentally friendly, plant-based composite systems in high-performance applications such as functional prototypes, medical models, and complex industrial components. The work not only presents a strategic approach to improving 3D-printed polymer-nanoclay composite material systems but also enhances our in-depth knowledge of process-structure-property relationships in additive manufacturing processes.
Mechanical characterization of 3D-Printed carbon fiber-reinforced polymer composites and pure polymers: Tensile and compressive behavior analysis Rawabe Fatima Faidallah, Muammel M. Hanon, Zoltán Szakál, István Oldal International Review of Applied Sciences and Engineering, 2025 Fused deposition modeling (FDM) 3D printing is widely utilized for producing thermoplastic components with functional purposes. However, the inherent mechanical limitations of pure thermoplastic materials necessitate enhancements in their mechanical characteristics when employed in certain applications. One strategy for addressing this challenge involves the incorporation of reinforcement materials, such as carbon fiber (CF), within the thermoplastic matrix. This approach leads to the creation of carbon fiber-reinforced polymer composites (CFRPs) suitable for engineering applications. The utilization of CFRPs in 3D printing amalgamates the benefits of additive manufacturing, including customization, cost-effectiveness, reduced waste, swift prototyping, and accelerated production, with the remarkable specific strength of carbon fiber. This study encompasses tensile and compressive testing of distinct material compositions: recycled polylactic acid (rPLA), PLA enriched with 10 wt.% carbon fiber, pristine polyethylene terephthalate glycol (PETG), and PETG bolstered with 10 wt.% carbon fiber. Tensile tests adhere to the ASTM D3039 standard for specimens of rectangular shape, while the ASTM D695 standard governs the compressive testing procedures. Additionally, an inquiry into the influence of the primary 3D printing build orientation parameter on the tensile and compressive strengths of diverse materials was conducted. The outcomes reveal that rPLA exhibits superior mechanical properties in both tensile and compressive tests, irrespective of flat or on-edge build orientations. In the context of tensile strength analysis, it is noteworthy that rPLA demonstrated a superior performance, surpassing CFPLA by 30% in flat orientation and exhibiting a remarkable 39.2% advantage in on-edge orientation. Moreover, PLA reinforced with carbon fiber exhibits superior tensile and compressive properties compared to its PETG counterpart. A comparative analysis between CFPLA and CF-PETG indicates that CF-PLA demonstrates higher tensile strengths, with increases of 26.6 and 27.6% for flat and on-edge orientations, respectively. In the context of compressive strength analysis, rPLA surpassed CFPLA, PETG, and CF-PETG by 23.7, 53, and 67%, respectively. Intriguingly, the findings indicate that the incorporation of 10 wt.% carbon fiber diminishes the tensile and compressive properties in comparison to pure PETG.
Assessment of Sinkage Behavior in Sandy Loam Soil Using the Bekker Equation Nihal D. Salman, György Pillinger, Muammel M. Hanon Iop Conference Series Earth and Environmental Science, 2025 Accurately predicting soil pressure-sinkage behavior is crucial for agricultural engineers assessing soil compaction caused by farm vehicles and for construction engineers evaluating the effectiveness of soil compactors. To model the pressure-sinkage behavior of sandy loam soil, multiple plate penetration tests were performed using two circular plates. Based on the observed pressure-sinkage relationship, soil stiffness constants c, kc, kφ , and n were derived according to Bekker’s pressure-sinkage model. Tests were conducted with soils of three different densities and two soil thickness levels. The results demonstrated a progressive increase in pressure with sinkage as the soil beneath the plate deformed. Analysis revealed that the equivalent sinkage parameter k eq varied significantly across plates and densities. To evaluate the effectiveness of Bekker’s model in predicting soil pressure-sinkage behavior, multiplate penetration tests were conducted on agricultural soil. The soil stiffness constants were determined from six pressure-sinkage tests using two circular plates across varying soil thickness and bulk density levels. The findings showed that the highest value of the sinkage exponent (n av = 1.098) occurred when the bulk density of the soil was 1.16 g/cm3, attributed to the significant soil deformation under loading conditions.
Using Artificial Neural Networks to Forecasting Carbon Dioxide Emissions in Iraq Shaymaa Mohammed Ahmed, Gheada Ibrahim Sheab, Arshad Hameed Hasan, Muammel M. Hanon International Journal on Informatics Visualization, 2025 This paper explores the application of ANN (artificial neural networks) to forecast CO2 emissions in Iraq until 2028. ANNs are able to model non-linear dynamics of time series data which eventually leads to accurate forecasts without any statistical assumption about the features of a dataset. The authors developed a simple single-input feedforward ANN model with the yearly CO2 emission data from 1991 to 2023 as the input to project the future emissions using the year. Levenberg-Marquardt algorithm was used for the network training. The model performed well on the training, validation, and testing datasets with minimal error rates and R-squared values of 1, which implied that the regression demonstrated a good fit between targets and outputs. The performance of ANNs in forecasting was evaluated. The mean squared error (MSE=0.1325) and root mean squared error (RMSE = 0.3641) values were low, highly predictive of small forecasting errors. R2 is quite high (0.946), indicating the model could explain as much as 94.6% of the variances in the actual data. The mean absolute percentage error equalled 8.01%, which signifies a good forecast with less than 10% error. The forecast of 2028 shows per capita emissions reaching 3.649 tons, which may be affected by population growth, economic development, or infrastructure changes that will be put into place. Despite renewables, efficiency, and emissions control or policies the growth curve can be replaced. This model serves as a data-driven instrument for future Iraqi CO2 emissions forecasting in order to develop climate change mitigation policies which are not time series statistical assumptions. It could also be extended to other greenhouse gases and countries, which is possible. This paper shows that ANNs can predict emissions that are accurate and reliable for decision-making which helps to reduce the country's carbon footprint and climate change.
Influence of Heat Treatments and Their Different Parameters on Improving the Mechanical Wear Resistance of Ductile Iron under Dry Sliding Conditions for Sustainable and Long-term Engineering Solutions Ahmad A. Khalaf, Muammel M. Hanon, Muthanna A. Abbas, Safaa M. Hassoni, Abdullah Jabar Hussain Iop Conference Series Earth and Environmental Science, 2025 This study investigates the effect of various heat treatment processes such as full annealing, normalizing, isothermal treatment (austempering), and quenching on wear resistance and friction coefficient. These treatments produced different microstructures, which were then analyzed to understand their influence on the sliding wear properties of ductile iron. The wear rate was measured using the pinon-disc method under dry sliding conditions, applying a vertical load over varying sliding durations while maintaining constant disc hardness and rotational speed. Results indicated that martensitic structures provided the highest wear resistance (lower wear rate of 1.8x10−8 g/cm), followed by bainitic structures (wear rate of 3.97x10−8 g/cm), with ferritic and pearlitic structures showing the least resistance (higher wear rate of 5.5x10−8 g/cm). The wear rate increased as the applied load increased, and the Vickers hardness values of samples quenched in a salt bath (600 Kgf/mm2) exceeded those quenched in oil (520 Kgf/mm2). Controlling the type and conditions of heat treatment in ductile iron can significantly enhance wear properties, friction coefficient, and hardness due to the metal’s responsive microstructural transformations.
Mechanical Characterization of Shallow Soils with Varying Clay Content Under Confined Compression ND Salman, G Pillinger, MM Hanon Eng 7 (4), 150 , 2026 2026
Surface Tension Dynamics in 3D-Printed Components: Exploring Materials, Manufacturing Technologies and Wetting Behavior C Agócs, MM Hanon, L Zsidai Acta Polytechnica Hungarica 23 (2) , 2026 2026
Enhancement of Wear Resistance in 3D-Printed PLA and CF-PLA/Epoxy Composites via Taguchi Design and ANOVA SA Abed, AMK Al-Khafaji, MM Hanon Tribology in Industry 47 (4), 640-648 , 2025 2025 Citations: 1
Improving the production process of silicon nanoparticle and quartz microlens MJ Mahmoud, BG Rasheed, MM Hanon Acta Polytechnica 65 (4), 406-419 , 2025 2025 Citations: 1
Kinematic and vibration analysis of a single-cylinder engine: Effects of connecting rod length, fuel type, and engine speed HM Mnati, M Hammami, O Ksentini, MS Abbes, M Haddar, MM Hanon International Review of Applied Sciences and Engineering 16 (2), 331-345 , 2025 2025 Citations: 1
Performance analysis of a novel design of an engine piston for a single cylinder HM Mnati, M Hammami, LJ Haeeb, O Ksentini, N Feki, MS Abbes, ... Open Engineering 15 (1), 20250120 , 2025 2025
Assessment of Sinkage Behavior in Sandy Loam Soil Using the Bekker Equation ND Salman, G Pillinger, MM Hanon IOP Conference Series: Earth and Environmental Science 1507 (1), 012080 , 2025 2025 Citations: 1
Combating Climate Change with Solar Power: An Examination of Photovoltaic Performance in Diyala Governorate, Iraq AT Mohammad, FA Hatem, SM Hassoni, MM Hanon, AM Abed IOP Conference Series: Earth and Environmental Science 1507 (1), 012002 , 2025 2025 Citations: 1
Influence of Heat Treatments and Their Different Parameters on Improving the Mechanical Wear Resistance of Ductile Iron under Dry Sliding Conditions for Sustainable and Long … AA Khalaf, MM Hanon, MA Abbas, SM Hassoni, AJ Hussain IOP Conference Series: Earth and Environmental Science 1507 (1), 012071 , 2025 2025
Investigating the impact of process parameters on the thermomechanical properties of three-dimensional (3D) printed polymer-nanoclay composites S Alazzawi, NH Ali, SK Shihab, MM Hanon International Journal of Thermofluids 27, 101168 , 2025 2025 Citations: 4
Mechanical characterization of 3D-Printed carbon fiber-reinforced polymer composites and pure polymers: Tensile and compressive behavior analysis RF Faidallah, MM Hanon, Z Szakál, I Oldal International Review of Applied Sciences and Engineering 16 (1), 22-31 , 2025 2025 Citations: 34
Experimental investigation on the transverse crushing performance of 3D printed polymer composite filled aluminium tubes AP Kumar, MDB Kumar, PSR Sreekanth, SK Sahu, Q Ma, MM Hanon, ... Journal of the Mechanical Behavior of Materials 34 (1), 20250091 , 2025 2025
Compressive and bending properties of 3D-printed wood/PLA composites with Re-entrant honeycomb core RF Faidallah, AM Abd-El Nabi, MM Hanon, Z Szakál, I Oldal Results in Engineering 24, 103023 , 2024 2024 Citations: 22
Investigation of the impact of product thickness and strain on cold forging processes SA Nazal, MA Nasser, MM Hanon, HA Ameen Acta Polytechnica 64 (5), 420-429 , 2024 2024
Development of fiber-reinforced polymer composites for additive manufacturing and multi-material structures in sustainable applications RF Faidallah, MM Hanon, ND Salman, Y Ibrahim, MN Babu, TS Gaaz, ... Processes 12 (10), 2217 , 2024 2024 Citations: 13
Evaluation of the influence of technological parameters of selected 3D printing technologies on tribological properties T Kozior, MM Hanon, P Zmarzły, D Gogolewski, M Rudnik, W Szot 3D Printing and Additive Manufacturing 11 (4), 1567-1580 , 2024 2024 Citations: 13
Threshold investigation of shell thickness for enhanced mechanical and tribological performance in 3D-printed curved sandwich structures J Dobos, MM Hanon, RZ Keresztes, I Oldal Journal of the Brazilian Society of Mechanical Sciences and Engineering 46 … , 2024 2024 Citations: 6
Optimization of laser micro/nano processing of silicon and quartz MJ Mahmoud, BG Rasheed, MM Hanon International Journal of Nanoelectronics and Materials (IJNeaM) 17 (June … , 2024 2024 Citations: 1
Effect of infill pattern of polylactide acid (PLA) 3D-printed integral sandwich panels under ballistic impact loading Q Ma, MRM Rejab, Y Song, X Zhang, MM Hanon, MH Abdullah, ... Materials Today Communications 38, 107626 , 2024 2024 Citations: 39
Review of sustainable 3D printing criteria using FDM technology and their settings impact on mechanical properties of additively manufactured elements ND Salman, RF Faidallah, MM Hanon, QR Al-amir Engineering Techniques „Technical and Scientific Solutions for Sustainable … , 2024 2024
MOST CITED SCHOLAR PUBLICATIONS
Accuracy investigation of 3D printed PLA with various process parameters and different colors MM Hanon, L Zsidai, Q Ma Materials Today: Proceedings 42, 3089-3096 , 2021 2021 Citations: 190
Experimental and theoretical investigation of the drilling of alumina ceramic using Nd: YAG pulsed laser MM Hanon, E Akman, BG Oztoprak, M Gunes, ZA Taha, KI Hajim, E Kacar, ... Optics & Laser Technology 44 (4), 913-922 , 2012 2012 Citations: 180
Influence of the 3D printing process settings on tensile strength of PLA and HT-PLA MM Hanon, R Marczis, L Zsidai Periodica Polytechnica Mechanical Engineering 65 (1), 38-46 , 2021 2021 Citations: 150
Effect of print orientation and bronze existence on tribological and mechanical properties of 3D-printed bronze/PLA composite MM Hanon, Y Alshammas, L Zsidai The International Journal of Advanced Manufacturing Technology 108 (1), 553-570 , 2020 2020 Citations: 149
The influence of 3D printing process parameters on the mechanical performance of PLA polymer and its correlation with hardness MM Hanon, J Dobos, L Zsidai Procedia Manufacturing 54, 244-249 , 2021 2021 Citations: 148
Comprehending the role of process parameters and filament color on the structure and tribological performance of 3D printed PLA MM Hanon, L Zsidai Journal of materials research and technology 15, 647-660 , 2021 2021 Citations: 96
Anisotropy evaluation of different raster directions, spatial orientations, and fill percentage of 3D printed PETG tensile test specimens MM Hanon, R Marczis, L Zsidai Key engineering materials 821, 167-173 , 2019 2019 Citations: 95
Determination of kinetic parameters for the thermal decomposition of parthenium hysterophorus A Dhaundiyal, SB Singh, MM Hanon, R Rawat Environmental and Climate Technologies 22 (1), 5-21 , 2018 2018 Citations: 83
Tribology behaviour investigation of 3D printed polymers MM Hanon, M Kovács, L Zsidai International Review of Applied Sciences and Engineering 10 (2), 173-181 , 2019 2019 Citations: 68
Tribological characteristics of digital light processing (DLP) 3D printed graphene/resin composite: Influence of graphene presence and process settings MM Hanon, A Ghaly, L Zsidai, S Klebert Materials & Design 218, 110718 , 2022 2022 Citations: 67
Investigations of the mechanical properties of DLP 3D printed graphene/resin composites MM Hanon, A Ghaly, L Zsidai, Z Szakál, I Szabó, L Kátai Acta Polytech. Hung 18 (8), 143-161 , 2021 2021 Citations: 67
Impact of 3D-printing structure on the tribological properties of polymers MM Hanon, R Marczis, L Zsidai Industrial Lubrication and Tribology 72 (6), 811-818 , 2020 2020 Citations: 62
Laser welding of copper with stellite 6 powder and investigation using LIBS technique BG Oztoprak, E Akman, MM Hanon, M Günes, S Gümüs, E Kacar, ... Optics & Laser Technology 45, 748-755 , 2013 2013 Citations: 46
Effect of infill density and pattern on the specific load capacity of FDM 3D-printed PLA multi-layer sandwich J Dobos, MM Hanon, I Oldal Journal of Polymer Engineering 42 (2) , 2021 2021 Citations: 42
Effect of infill pattern of polylactide acid (PLA) 3D-printed integral sandwich panels under ballistic impact loading Q Ma, MRM Rejab, Y Song, X Zhang, MM Hanon, MH Abdullah, ... Materials Today Communications 38, 107626 , 2024 2024 Citations: 39
Effect of different standard geometry shapes on the tensile properties of 3D-printed polymer RF Faidallah, MM Hanon, V Vashist, A Habib, Z Szakál, I Oldal Polymers 15 (14), 3029 , 2023 2023 Citations: 37
Study of the mechanical characteristics of sandwich structures FDM 3D-printed RF Faidallah, MM Hanon, Z Szakal, I Oldal Acta Polytechnica Hungarica 20 (6), 7-26 , 2023 2023 Citations: 36
Mechanical characterization of 3D-Printed carbon fiber-reinforced polymer composites and pure polymers: Tensile and compressive behavior analysis RF Faidallah, MM Hanon, Z Szakál, I Oldal International Review of Applied Sciences and Engineering 16 (1), 22-31 , 2025 2025 Citations: 34
Calculation of kinetic parameters of the thermal decomposition of residual waste of coniferous species: Cedrus Deodara A Dhaundiyal, MM Hanon Acta Technologica Agriculturae 21 (2), 75-80 , 2018 2018 Citations: 34
Sliding surface structure comparison of 3D printed polymers using FDM and DLP technologies MM Hanon, L Zsidai The International Conference of the Carpathian Euro-Region Specialists in … , 2020 2020 Citations: 33
