RAY TAHIR MUSHTAQ科研成果

综合介绍 General Introduction Nationality: Pakistani Email address: dr.tahir@nwpu.edu.cn  Website: https://orcid.org/0000-0002-1233-4986 Website: https://www.researchgate.net/profile/Ray-Tahir-Mushtaq Address: Xi'an, China (Home)ABOUT Ray Tahir Mushtaq is Postdoctoral scholar Northwestern Polytechnical University (NWPU), Xi'an, China. He completed his PhD Mechanical Engineering from NWPU in December 2023. He has published 15 SCI papers with first author including Q1,Q2 WOS SCI JCR and many collaboration papers as well. He received full Chinese government Scholarship for whole Masters and PhD studies. His area of expertise are Additive manufacturing (3D printing) and Laser Processing (cutting and polishing). He is reviewer of many WOS indexed journals as well.EDUCATION AND TRAINING01/09/2018 – 13/12/2023 Xi’an, ChinaPHD (MECHANICAL ENGINEERING) Northwestern Polytechnical UniversityAddress 710072, Xi’an, China Website https://www.nwpu.edu.cnField of study Engineering, manufacturing and construction Final grade 84 percent01/09/2015 – 30/03/2018 Xi’an, ChinaMS (MECHANICAL ENGINEERING) Northwestern Polytechnical UniversityAddress 710072, Xi’an, China Website https://www.nwpu.edu.cnField of study Materials (glass, paper, plastic and wood) , Manufacturing and processing not further defined01/09/2011 – 30/07/2015 Taxila , PakistanBSC (MECHATRONICS ENGINEERING) University of Engineering and Technology TaxilaWebsite https://www.uettaxila.edu.pk Field of study Engineering, manufacturing and constructionWORK EXPERIENCE22/12/2023 – CURRENT Xi'an, ChinaPOSTDOCTORAL RESEARCHER NORTHWESTERN POLYTECHNICAL UNIVERSITYPUBLICATIONS (FIST AUTHOR/CORRESPONDING AUTHOR)Investigation of the mechanical properties, surface quality, and energy efficiency of a fused filament fabrication for PA6SCI JCR Q1Link doi.org/10.1515/rams-2022-03322023Advancing PLA 3D Printing with Laser Polishing: Improving Mechanical Strength, Sustainability, and Surface QualitySCI JCR Q2Link 10.3390/cryst130406262023Investigation and Optimization of Effects of 3D Printer Process Parameters on Performance ParametersSCI JCR Q2Link 10.3390/ma160933922023A post-processing laser polishing method to improve process performance of 3D printed new Industrial Nylon-6 polymerSCI JCR Q2Link https://doi.org/10.1016/j.jmapro.2023.06.019 2023Parametric Optimization of 3D Printing Process Hybridized with Laser-Polished PETG PolymerSCI JCR Q1Link https://doi.org/https://doi.org/10.1016/j.polymertesting.2023.1081292022Parametric Effects of Fused Filament Fabrication Approach on Surface Roughness of Acrylonitrile Butadiene Styrene and Nylon-6 PolymerSCI JCR Q2Link https://doi.org/10.3390/ma151552062021Additive manufacturing is sustainable technology: citespace based bibliometric investigations of fused deposition modeling approachSCI JCR Q2Link https://www.emerald.com/insight/content/doi/10.1108/RPJ-05-2021-0112/full/html 2020State-Of-The-Art and Trends in CO2 Laser Cutting of Polymeric Materials—A ReviewSCI JCR Q2Link https://doi.org/10.3390/ma131738392023Advancements in 3D-Printed Novel Nylon-6: A Taguchi Method for Surface Quality Sustainability and Mechanical PropertiesSCI-JCR Q2Link 10.3390/machines1109088509/2023Advancements in 3D-Printed Novel Nylon-6: A Taguchi Method for Surface Quality Sustainability and Mechanical PropertiesSCI JCR Q2Link 10.3390/machines11090885 09/2023Neuro-Robotic Synergy: Crafting the Secure Future of Industries in the Post Pandemic EraSCI JCR Q2Link https://doi.org/10.3390/electronics12194137 01/12/2023Parametric Investigation of the Effects of Electrical Discharge Machining on Plain D2 SteelSCI JCR Q2Link https://doi.org/10.3390/met13121964 06/01/2024Maximizing performance and efficiency in 3D printing of polylactic acid biomaterials.......SCI JCR Q1Full title of paper:Maximizing performance and efficiency in 3D printing of polylactic acid biomaterials: Unveiling of microstructural morphology, and implications of process parameters and modeling of the mechanical strength, surface roughness, print time, and print energy for fused filament fabricated (FFF) biopartsLink 10.1016/j.ijbiomac.2024.129201COAUTHORED PUBLICATIONSThe design and evaluation of bionic porous bone scaffolds in fluid flow characteristics andmechanical properties– 2022SCI JCR Q1Preparation, characterization, and curing kinetics of elevated and cryogenic temperature-resistantepoxy resin composites– 2022SCI JCR Q1Additive manufacturing for biomedical applications: a review on classification, energy consumption, and its appreciable role since COVID-19 pandemic– 2022 ESCIApplications of additive manufacturing (AM) in sustainable energy generation and battle against COVID-19 pandemic: The knowledge evolution of 3D printing– 2021SCI JCR Q1Additively manufactured nano-mechanical energy harvesting systems: advancements, potential applications, challenges and future perspectives– 2021SCI JCR Q1Impact of post-heat-treatment on the surface-roughness, residual stresses, and micromorphology characteristics of plasma-sprayed pure hydroxyapatite and 7%-Aloxite reinforced hydroxyapatite coatings deposited on titanium alloy-based biomedical implants– 2022SCI JCR Q1A Sustainable and Biodegradable Building Block: Review on Mechanical Properties of Bamboo Fibre Reinforced PLA Polymer Composites and Their Emerging Applications– 2022SCI JCR Q2Improving Energy Performance in Flexographic Printing Process through Lean and AI Techniques: A Case Study– 2023SCI JCR Q2Automatic Sorting, Counting and Bottle Filling Robotic Station – 2017 Scopus indexed journalManufacturability study in Laser powder bed fusion of biomedical Ti alloys for Orthopaedic implants: An investigation of mechanical properties, process induced porosity, and surface roughness– 2023SCI JCR Q2Exploring the Potential of Big Data Analytics in Urban Epidemiology Control: A Comprehensive Study Using CiteSpace– 2023Scopus indexed journalConcrete Deterioration Detection in Sewers using Machine Learning Algorithms: An Experiment- Based Study– 2023ESCI JournalPotential assessment in laser powder bed fusion of bionic porous Ti scaffolds concerning compressive behavior, porosity, and surface roughness– 2023SCI JCR Q2Preparation and characterization of elevated and cryogenic temperature-resistant regolith-based epoxy resin composites– 2023SCI JCR Q1A novel method to detect cyber-attacks in IoT/IIoT devices on the modbus protocol using deeplearning– 2023SCI JCR Q2Analyzing the bibliometric progress of sustainable monitoring and analysis of sports training loads – 2023SCI JCR Q2Exploring wide-parametric range for tool electrode selection based on surface characterization and machining rate employing powder-mixed electric discharge machining process for Ti6Al4V ELI– 2023SCI JCR Q2Reviewer for journals:Reviewer in "Lasers in Manufacturing and Materials Processing" journalReviewer in "International Journal of Automotive and Mechanical Engineering" journalReviewer in "Transformacao" journalReviewer in "Advance Materials and manufacturing Technology"CURRENTReviewer in "Cogent Social Sciences"Reviewer in "The International Journal of Advanced Manufacturing Technology" Reviewer in "Frontiers in Mechanical Engineering" journalReviewer in "Machines" journalReviewer in "Electronics" journalReviewer in "Applied sciences"Reviewer in "Computer methods in biomechanics and biomedical engineering" Reviewer in "Eng"Reviewer in "International journal of biological macromolecules"Reviewer in "Magnetochemistry"Reviewer in "Materials"Reviewer in "Sustainability" 个人相册

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