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Let's see how UniMelt® technology from 6K Inc. will change our world. . 🌏 Let's see how UniMelt® technology from 6K Inc. will change our world, A company that provides plasma technology. The Company specializes in the production of sustainable advanced materials for energy storage and additive manufacturing powders. What is Unimelt? It is a new Technology from 6K Inc. that is used in the production of various materials, such as metals or nano powders, through the use of microwave plasma. This method is modern and efficient, making material production fast and environmentally friendly material production. UniMelt technology can be applied in various industries, including Energy industry: for producing batteries for electric cars and energy storage, where nanopowders made with UniMelt® can improve battery efficiency and capacity. Aviation and space industry: for manufacturing high-precision jet engine and spacecraft components, using metal powders produced by UniMelt® for 3D printing complex parts. Automotive industry: for producing lightweight and durable vehicle parts, improving fuel efficiency, and reducing CO2 emissions. Medical industry: for manufacturing precise and sterile medical instruments, such as implants made from metal powders, where this technology offers the best solutions. Electronics industry: for producing materials for advanced electronic devices, like semiconductors and nanomaterials used in LED lights and solar panels. . 🍇 Did you know? Putting grapes in a microwave can also create plasma! In 2019, Hamza K. Khattak and his team published a research paper titled “Linking plasma formation in grapes to microwave resonances of aqueous dimers” in the Proceedings of the Natural Institute of Science. This study explains how cutting grapes in half, placing them close together in a curved container, and microwaving them can generate sparks where the grapes touch. These sparks are electrons and charged atoms called ions coming together at high temperatures, creating what scientists call plasma. This phenomenon has led to innovative transformations. . At ExpresSo, we are keen on this technology because we see a future where this solution helps make the world more sustainable. We support and drive technologies related to #ClimateTech to reduce environmental impacts and make the world a better place. #ExpresSo #PTTGroup #6KInc #BetterWorld #Sustainability #Innovation #UniMeltTechnology

I’m excited to share that my latest review article, titled "Recent advancements in stereolithography (SLA) and their optimization of process parameters for sustainable manufacturing," has just been published in Elsevier Journal of Hybrid Advances! This journey has been truly rewarding, and I’m very thankful to my supervisor, A N M Amanullah Tomal sir, and my mentor Adib Bin Rashiid sir, for their invaluable guidance and support throughout the process. In this review, we explore key advancements in Stereolithography (SLA) with a focus on sustainable manufacturing: · Process Optimization: Analyze how factors like layer thickness, curing time, print orientation, and laser power impact mechanical properties like tensile strength and surface roughness, enhancing performance and sustainability. · Material Innovations: The review highlights the use of bio-based resins and composite materials to reduce environmental impact while maintaining high quality. · Advanced Optimization Techniques: Discuss how Genetic Algorithms (GA) and Artificial Neural Networks (ANN) can optimize SLA processes for greater precision and efficiency. · Sustainability: Emphasize strategies to make SLA more sustainable, from material choices to energy-efficient methods, offering significant potential for future research. I’m extremely grateful to my co-authors, and to everyone who has supported me along this journey. I hope this paper contributes to advancing the field of additive manufacturing and inspires further research in making these technologies more sustainable. I invite you to read the full article for insights into this exciting field! you can read the full paper here: https://lnkd.in/gK_myi2p #AdditiveManufacturing #SLA #3DPrinting #Sustainability #HybridAdvances #AdvancedManufacturing #Optimization #Research

Many exciting advancements in additive manufacturing are revolutionizing industries! From enhancing the capabilities of metals in medicine to pioneering new frontiers in polymers and composites for aerospace, the future of AM is brighter than ever. Dive into the innovations shaping tomorrow's technologies today! #ManufacturingTechnology #PrecisionManufacturing

Diamond tooling has evolved drastically over the decades, marking its place as a cornerstone in precision manufacturing. Starting with natural diamonds, the journey progressed to the synthesis of artificial diamonds and advanced single-crystal solutions. Each step represented a leap in performance, efficiency, and precision, benefiting industries ranging from aerospace to electro-optics. Today, diamond tools are indispensable, offering unmatched hardness, durability, and accuracy in cutting-edge applications. They allow manufacturers to meet ever-tightening tolerances while extending tool life and reducing operational costs. As we look toward the future, diamond tooling is poised to drive the next phase of innovation in ultra-precision machining, paving the way for new possibilities in emerging industries like quantum computing and advanced optics. In brief here’s how diamonds as tools have evolved:  - Past: Early use of natural diamonds in handcrafting and basic cutting applications. - Present: Integration of synthetic diamonds and CVD technology for ultra-precision manufacturing across multiple industries. - Future: New advances in nanotechnology, 3D printing, and quantum computing will expand diamond tooling’s reach into unexplored territory.    As we reflect on the evolution of diamond tooling, it’s clear that the journey is far from over. Hardten continues to embrace this evolution, driving innovation while maintaining the highest precision standards. Our mission is to lead the industry into the future, ensuring that the possibilities of tomorrow are shaped with tools designed today. #nanotechnology #cuttingtools #technews #innovation #engineering

ATLANT 3D is excited to announce our official entry into the Middle Eastern market through a strategic partnership with Future Dimensions in Saudi Arabia! 🇸🇦 This collaboration will bring our cutting-edge atomic-scale 3D printing technology to the region, enabling local industries to push the boundaries of innovation in microelectronics, photonics, MEMS, quantum technologies, energy, AI, and scientific and industrial R&D. With Future Dimensions as our distributor, we are set to empower Saudi Vision 2030 by providing access to the most advanced manufacturing solutions on the market. Moreover, this partnership will pave the way for establishing an advanced micro and nanofabrication manufacturing ecosystem in Saudi Arabia, driving new economic opportunities and solidifying the region's role as a technological leader. Together, we are driving #Innovation, advancing #MicroManufacturing, and paving the way for the next generation of #AdvancedMaterials and #Technology in Saudi Arabia. Discover how we are redefining the future of advanced manufacturing, Atom by Atom. Read the full press release: https://lnkd.in/ddgYpnEb #3DPrinting #Engineering #AdditiveManufacturing #NanofabricatorLite #AdvancedManufacturing #AtomicPrecision #Microelectronics #SemiconductorIndustry #DALP #DirectAtomicLayerProcessing #Photonics #ATLANT3D #lithography #coatings #thinfilms #deposition #coatingstechnology #coatingsolutions #ALDep #PVD #CVD #sputtering #plasma #coatingsindustry #mems #ai #rnd #photonics #optics

Flexible nanoimprint lithography enables efficient fabrication of biomimetic microstructures The common projection lithography methods are very sensitive to the shape of the substrate, so the accuracy of microstructure definition may be reduced when the substrate has large warps or irregular shapes. Researchers from Wuhan University propose a flexible nanoimprint lithography technique that enables high-throughput and high-quality processing of bionic microstructures on curved surfaces. https://lnkd.in/gX5-BcNY hashtag #nanotechnology hashtag #biotechnology hashtag #lithography hashtag #materials hashtag #3dprinting hashtag #electronics hashtag #technology hashtag #engineering

As demand for lightweight and durable materials continues to rise, Titanium ore emerges as a crucial commodity due to its exceptional strength-to-weight ratio and corrosion resistance properties. Industries such as aerospace, automotive, medical, and construction are increasingly turning to Titanium ore for manufacturing high-performance components and structures. 𝗠𝗼𝗿𝗲 𝗶𝗻𝘀𝗶𝗴𝗵𝘁𝘀 https://lnkd.in/dp8RdGK9 One of the key aspects contributing to the growth of the Titanium ore market is its expanding use in additive manufacturing, commonly known as 3D printing. Check out our latest article demystifying the 𝗧𝗶𝘁𝗮𝗻𝗶𝘂𝗺 𝗠𝗮𝗿𝗸𝗲𝘁 𝗗𝘆𝗻𝗮𝗺𝗶𝗰𝘀 covering in-depth analytics for savvy investors https://lnkd.in/detkQsBQ #Titanium #Titaniummarket #factmr #Chemicalandmaterials

By the grace of Allah Almighty, I am humbled to share our research breakthrough! Our paper titled "Optimizing Bottleneck Flow and Enhancing Throughput in Prosthodontic Services Using Additive Manufacturing with Discrete Event Simulation and Central Composite Design" has been published by MDPI's Engineering Proceedings. This research was also presented at the 4th International Conference on Advances in Mechanical Engineering (ICAME-24), held at CUST in Islamabad, Pakistan, on August 8, 2024. Research Highlights: In this study, we focused on addressing critical bottlenecks in prosthodontic services. By leveraging Additive Manufacturing (AM), Discrete Event Simulation (DES), and Central Composite Design (CCD), we achieved significant improvements: 1# 30% enhancement in throughput 2# 25% reduction in manufacturing lead time 3# 15% increase in service efficiency These advancements are poised to make a meaningful impact on production speed within dental laboratories. #Special Thanks: I would like to express my sincere gratitude to my co-authors for their invaluable contributions: Sana Shehzadi: Your expertise in technical writing, data analytical skills and simulation modeling was instrumental in shaping our findings. Your diligence and precision greatly enhanced the quality of our work. Umair Shahid: Thank you so much Dr. Sab, for your insightful supports and directional guidance with several reviews, which added immense value and ensured the integrity of our research. #Mentor #Leader #BestResearchScholar #BestEntrepreneur Ghufran Shakeel: Your exceptional skills in data collection and vector design were vital in clearly presenting our results. Raja Asim Mustafa: I appreciate your dedication to data collection and formatting, which played a crucial role in the project's successful completion. Additionally, I would like to extend my gratitude to the organizers of ICAME-24, as well as MDPI and CUST, for providing a platform to present our work and facilitating this publication. Thank you to all the individuals who provided guidance and support while I was navigating through challenges, helping me find gems in the dark. Please share your thoughts on it! #Research #AdditiveManufacturing #SimulationModeling #Prosthodontics #ProcessOptimization #MDPI #ICAME2024 #IndustrialEngineering #HealthcareInnovation #Engineering #DataScience #3DPrinting #Healthcare #OperationsManagement #SupplyChain #Manufacturing #Innovation #Simulation #DigitalTwin #EngineeringResearch #Industry40 #HealthTech #ProductionOptimization #DesignOfExperiments #DataAnalysis #SimulationTechniques #EngineeringDesign #DataDriven #Automation #ProcessImprovement #Efficiency #ResearchCommunity #FutureOfManufacturing #STEM #Leadership #Innovation #Management #DigitalTransformation #Marketing #CareerDevelopment #Entrepreneurship #ArtificialIntelligence #FutureOfWork #Sustainability #Business #Technology #Networking #CareerGrowth #PersonalBranding #Startups #Sales

🚀 Exciting news from Johns Hopkins! They've developed a cutting-edge technique to spot defects during the process of powder bed fusion in nanoseconds using high-speed sensors and thermal flow analysis. "With the high-speed sensor up and running, the researchers developed a control framework that could communicate between the sensor and the laser and tell the laser to shut off when the melt pool got too hot and was likely to create a defect — all within 10 to 20 millionths of a second." This means real-time detection and correction of keyhole, leading to higher quality and reliability in 3D-printed parts. For the industry, this innovation promises smarter production, enhanced research opportunities, and wider applications—from aerospace to healthcare. The future of manufacturing just got a lot brighter! 🌟 #AdditiveManufacturing #3DPrinting #Innovation #ManufacturingExcellence #JohnsHopkins #ProcessMonitoring Read more here: https://lnkd.in/eh6pQfyM

With the grace of Allah Almighty, I am immensely grateful that our #research on "Optimizing Bottleneck Flow in Prosthodontic Services" has been successfully #published and presented at #ICAME-24. A #special thanks to my incredible team for their unwavering support and contributions! 😊 Ghulam Ameer Mukhtar, Engr., Researcher Sana Shehzadi Umair Shahid #UETTaxila #Research #AdditiveManufacturing #SimulationModeling #Prosthodontics #ProcessOptimization #MDPI #ICAME2024 #IndustrialEngineering #HealthcareInnovation #Engineering #DataScience #3DPrinting #Healthcare #OperationsManagement #SupplyChain #Manufacturing #Innovation #Simulation #DigitalTwin #EngineeringResearch #Industry40 #HealthTech #ProductionOptimization #DesignOfExperiments #DataAnalysis #SimulationTechniques #EngineeringDesign #DataDriven #Automation #ProcessImprovement #Efficiency #ResearchCommunity #FutureOfManufacturing #STEM #DigitalTransformation #CareerDevelopment #Sustainability #CareerGrowth #PersonalBranding #Robot #OpenCV #UAVs #HIT #Smartmanufacturing #raspberrypi #MIT #Entrepreneurship #Autonomousrobots , #Scholarships #Autonomousvehicles #sales, #technology #AI #Business #Leadership #Technology #Career #networking #FutureOfWork #HR #innovation #management #digitalmarketing #creativity #startups #marketing #Palestine #Gaza #Rafah #Boycott