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Green Concrete Formulations for 3D Printing #worldresearchawards

Description This study explores the modification of construction mixtures incorporating crushed concrete waste (CCW) for advanced 3D printing applications. By optimizing rheological properties, workability, setting time, and mechanical strength, the research aims to enhance printability and structural performance while promoting sustainable construction practices. The integration of recycled concrete materials supports circular economy principles, reduces landfill waste, and lowers the carbon footprint of additive manufacturing in the construction sector.  #3dprinting #additivemanufacturing #recycledconcrete #sustainableconstruction #constructionmaterials #circular economy #greenconcrete #concreteinnovation #materialengineering #ecofriendlymaterials #wastemanagement #structuralperformance #rheology #civilengineering #smartconstruction #carbonreduction #concretetechnology #sustainablematerials #printedstructures #environmentalengineering #ResearchAwards #AcademicAwards #ScienceAwar...
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Lead-Free PVDF/BCZT Nanocomposite Fabrication #worldresearchawards

Description The fabrication and performance evaluation of lead-free PVDF/BCZT nanocomposites focus on developing environmentally friendly piezoelectric and dielectric materials with enhanced electromechanical properties. By integrating barium calcium zirconate titanate (BCZT) nanoparticles into a polyvinylidene fluoride (PVDF) polymer matrix, the composite exhibits improved dielectric constant, polarization behavior, and mechanical flexibility. These nanocomposites demonstrate strong potential for flexible sensors, actuators, and energy harvesting devices, offering a sustainable alternative to traditional lead-based piezoelectric ceramics while maintaining high performance and stability.  #leadfree #pvdf #bczt #nanocomposite #piezoelectric #dielectricmaterials #energyharvesting #functionalmaterials #ferroelectric #polymerscience #ceramicmaterials #sustainablematerials #smartmaterials #materialsengineering #nanotechnology #greenmaterials #flexibleelectronics #actuatortechnology #se...
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Microstructural Refinement in Al-Cu-Li Alloys #worldresearchawards

Description This study focuses on eliminating microsegregation and achieving precise nanoscale dispersoid control in Al-Cu-Li alloys through an optimized double-step homogenization process. By tailoring thermal treatment parameters, the approach enhances elemental distribution uniformity, promotes fine dispersoid precipitation, and improves mechanical performance and microstructural stability. The strategy provides an effective pathway for developing high-strength, lightweight aluminum alloys suitable for advanced aerospace and structural applications.  #alculi #aluminumalloys #microsegregation #homogenization #heatreatment #nanodispersoids #materialsengineering #alloydesign #microstructure #metallurgy #aerospacematerials #thermalprocessing #lightweightmaterials #advancedmaterials #precipitationcontrol #materialsresearch #structuralmaterials #phaseevolution #grainrefinement #engineeringalloys  Event : China Scientist Awards  visit: chinascientist.net Nomination Link: chi...
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Engineered v-sio2@nn nanostructures in PDCPD #worldresearchawards

Description The preparation of v-sio2@nn core–shell structures represents an innovative strategy to enhance the mechanical, thermal, and interfacial properties of pdcpd composites. By engineering vanadium-modified silica nanoparticles with a tailored nano-network shell, improved dispersion and strong interfacial bonding within the polymer matrix are achieved. This core–shell architecture enhances load transfer efficiency, impact resistance, and thermal stability, leading to superior composite performance. The controlled synthesis and surface functionalization of v-sio2@nn nanostructures provide a promising pathway for developing high-performance polymer composites suitable for structural, automotive, and advanced engineering applications.  #pdcpd #coreshell #nanocomposites #polymerengineering #materialsresearch #advancedmaterials #sio2 #nanotechnology #surfacefunctionalization #polymercomposites #mechanicalenhancement #thermalstability #nanofillers #interfacialbonding #materialssc...
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Fuzzy smc for dual-motor ehb #worldresearchawards

Description This study presents a dual-motor electro-hydraulic braking (EHB) system designed using fuzzy sliding mode control (SMC) to enhance braking stability , robustness, and response accuracy. By integrating fuzzy logic with sliding mode control, the system effectively mitigates nonlinearities, parameter uncertainties, and external disturbances inherent in hydraulic braking mechanisms. The dual-motor configuration improves redundancy, response speed, and torque precision, ensuring safer and more reliable vehicle braking performance. The proposed control strategy demonstrates reduced chattering, improved dynamic tracking, and enhanced pressure regulation compared to conventional controllers. This intelligent braking framework offers a promising solution for next-generation electric and hybrid vehicles requiring high-performance, adaptive, and fault-tolerant braking systems.  #electrohydraulicbraking #dualmotorsystem #fuzzyslidingmodecontrol #intelligentcontrol #automotiveengine...
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Microstructural Tailoring of Ag–SnO₂–In₂O₃ Composites #worldresearchawards

Description This study explores the microstructural evolution and electrical conductivity enhancement of ternary Ag–SnO₂–In₂O₃ composites fabricated via hot pressing. The influence of sintering temperature, pressure, and oxide dispersion on densification behavior, grain growth, and interfacial bonding is systematically analyzed. Microstructural characterization reveals improved particle distribution and reduced porosity, contributing to enhanced electrical pathways within the silver matrix. The synergistic interaction between SnO₂ and In₂O₃ phases strengthens structural stability while maintaining high conductivity. The findings provide valuable insights into the development of advanced electrical contact materials with optimized mechanical integrity and superior electrical performance for industrial and power applications.  #materialsengineering #silvercomposites #microstructure #hotpressing #electricalconductivity #oxidecomposites #agbasedmaterials #sno2 #in2o3 #grainboundary #si...
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Bibliometric insights into immediate dentin sealing #worldresearchawards

Description This study presents a comprehensive bibliometric network analysis of global research on immediate dentin sealing (IDS), highlighting publication trends, citation impact, leading countries, institutions, authors, and collaborative networks. By mapping keyword co-occurrence and scientific linkages, the analysis identifies emerging themes, influential studies, and evolving research directions within adhesive and restorative dentistry. The findings provide valuable insights into the growth, knowledge structure, and international scientific interest in IDS, supporting researchers, clinicians, and policymakers in understanding its academic influence and future research potential.  #immediatedentinsealing #bibliometricanalysis #dentalresearch #adhesivedentistry #restorativedentistry #dentalscience #scientometricstudy #researchtrends #citationanalysis #knowledge_mapping #dentalmaterials #globalresearch #clinicaldentistry #evidencebaseddentistry #researchimpact #collaborationne...
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