Introducing the Nanopac, our smallest precision ultrasonic cleaning unit, designed to bring powerful cleaning capabilities to even the most confined spaces. Its compact design allows it to fit seamlessly into various work environments, making it ideal for labs, workshops, or production lines where space is limited. The Nanopac requires no mains or drains, offering convenient and flexible placement options without the need for complex installations. Precision cleaning with ultrasonics and new safe solvents offers numerous benefits, especially in industries that require meticulous cleanliness, such as electronics, aerospace, and medical device manufacturing. Ultrasonic cleaning technology uses high-frequency sound waves to create microscopic bubbles in a cleaning solution. These bubbles implode, creating tiny but powerful scrubbing actions that remove contaminants even from complex, delicate, or hard-to-reach surfaces without causing damage. When combined with advanced, environmentally friendly solvents, ultrasonic cleaning provides an effective, non-toxic, and sustainable way to achieve superior cleanliness. This approach improves product reliability, extends component lifespans, and meets stricter regulatory standards for safety and environmental impact. #Nanopac #UltrasonicCleaning #PrecisionCleaning #CompactDesign #EcoFriendlyCleaning #PortableCleaning #AdvancedCleaningTech #LabEquipment #NoMainsNoDrains #CleanWithSound #SafeCleaning #NextGenCleaning #EffortlessCleaning #HighPrecision
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Exciting news! We have been appointed as Silanna UV’s UK and Ireland distributor for their cutting-edge surface mount and thru-hole LEDs at 235nm and 255nm. We're proud to offer groundbreaking technology that addresses long-standing challenges in UVC LED manufacturing. Traditional methods struggle with high Al content, limiting efficiency and light extraction. Silanna's innovative Short Period Superlattice (SPSL) technology takes a giant leap forward by enabling precise tuning of bandgap and conductivity through layered structures. SPSL, also known as “digital alloy”, not only enhances performance but also unlocks new possibilities in applications such as water- and air-quality, sterilisation and disinfection. Curious to learn more? Check out our latest article for an in-depth dive into SPSL technology and how it powers Silanna UV's remarkable LEDs! #LEDTechnology #SilannaUV #InnovationInLighting #UVC
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Revolutionizing Precision Microdispensing: Introducing the eco-PEN XS 180 by preeflow The eco-PEN XS 180, a groundbreaking microdispenser, ensures reliable and precise handling of the smallest quantities across diverse industries, from electronics manufacturing to medical technology. As a pioneer in precision dispensing equipment, we've engineered the eco-PEN XS 180, currently the world's most precise volumetric microdispenser, to specifically enable our customers to cross the limits of dosing very small quantities. This microdispenser heralds a new era in microdispensing technology, enabling the accurate application of nanoliter and microliter volumes across a wide spectrum of materials. Join us in embracing this technological milestone, redefining precision microdispensing capabilities across industries. Learn more about the eco-PEN XS 180: https://lnkd.in/exbkNMuQ #preeflow #ecoPENXS #Microdispensing #Innovation #Engineering #Technology #Volumetric #Precision #Reliability #Efficiency
eco-PEN XS - High Precision Dispensing of the Smallest Quantities
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💡 A new tip from CRYSOUND: how to conduct acoustic imaging technology to detect vacuum leaks in the manufacturing of composite materials. 💰 During the crucial curing stage, operators perform pressure maintenance tests to ensure top-notch quality. By eliminating air bubbles, guaranteeing full resin impregnation, and boosting product density and performance, these tests are indispensable. Maintaining air tightness is paramount as any vacuum leak could jeopardize material longevity and lead to costly rejections during subsequent processing steps. 🕓 Traditionally, detecting air tightness relied on monitoring pressure changes over time to spot leaks in vacuum bags. This method has two pain points: - Time-consuming - Lack of precision in pinpointing leak locations 🚀 Enter acoustic imaging camera! These cutting-edge tools swiftly identify leaks by scanning vacuum bags and offer precise leak location data, significantly enhancing detection efficiency. Ideal for large-volume composite material production. Visit our website for more information about this device: https://lnkd.in/gibAAp_7. Reach out to us at info@crysound.com for more details or to book a demo through the following link: https://lnkd.in/gzP-Y5X6. #CompositeMaterials #AcousticImaging #TipsFromCRYSOUND #ManufacturingInnovation #CRYSOUND #DemoAvailable #VaccumLeakDetection #GasLeakDetection
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♻️ RECYCLE of CT SCANNER ! The lifespan of a CT scanner typically ranges up to 10 years, depending on factors such as: 🏥 USAGE: The volume of daily scans performed. 🔧 MAINTENANCE: The quality and frequency of preventive and corrective services. 💻 TECHNOLOGICAL OBSOLESCENCE: Advances in technology can render equipment functionally outdated before its physical life ends. Hospitals often replace CT scanners every 7 to 10 years to keep up with technological improvements and maintain operational efficiency. 🛠 MOST VALUABLE COMPONENTS 🌟 X-RAY TUBE: The core of the system, responsible for generating X-rays. LIFESPAN: 1 to 3 years, depending on usage. Replacement costs range from $100,000 to $200,000 USD. 📡 DETECTORS: Convert X-rays into digital signals. Highly sophisticated and often tailored to specific models. A major contributor to the scanner's overall cost. 🖥 COMPUTATION SYSTEM: Includes hardware and software for image processing and 3D reconstructions. 🎯 GANTRY (ROTATING RING): Mechanical structure supporting and moving the X-ray tube and detectors. ⚠️ MOST DANGEROUS COMPONENTS ⚡ X-RAY TUBE: Contains toxic materials like tungsten and beryllium oxide, which are hazardous if inhaled or ingested. Emits ionizing radiation, potentially dangerous without proper shielding and protocols. 🔋 HIGH-VOLTAGE SOURCES: Capable of causing severe electrical shocks in case of failure or improper handling. ☢️ RESIDUAL RADIOACTIVE MATERIALS (in older models): Some older detectors include radioactive materials like americium-241. ❄️ COOLING SYSTEM: Uses refrigerants that may be toxic or flammable, depending on the model. ♻️ DEACTIVATION AND DISPOSAL GUIDELINES 🌍 ENVIRONMENTALLY RESPONSIBLE DISPOSAL: Toxic or radioactive components must be discarded per environmental regulations. 🔄 COMPONENT RECYCLING: X-ray tubes and detectors contain rare and valuable materials that can be recovered. 🚨 RADIATION CONTROL: Ensure no residual ionizing radiation remains in parts before disposal. #hospital #innovation #technology #recycle #recycling #reciclagem Vedat #ge #xray
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♻️ RECYCLE of CT SCANNER ! The lifespan of a CT scanner typically ranges up to 10 years, depending on factors such as: 🏥 USAGE: The volume of daily scans performed. 🔧 MAINTENANCE: The quality and frequency of preventive and corrective services. 💻 TECHNOLOGICAL OBSOLESCENCE: Advances in technology can render equipment functionally outdated before its physical life ends. Hospitals often replace CT scanners every 7 to 10 years to keep up with technological improvements and maintain operational efficiency. 🛠 MOST VALUABLE COMPONENTS 🌟 X-RAY TUBE: The core of the system, responsible for generating X-rays. LIFESPAN: 1 to 3 years, depending on usage. Replacement costs range from $100,000 to $200,000 USD. 📡 DETECTORS: Convert X-rays into digital signals. Highly sophisticated and often tailored to specific models. A major contributor to the scanner's overall cost. 🖥 COMPUTATION SYSTEM: Includes hardware and software for image processing and 3D reconstructions. 🎯 GANTRY (ROTATING RING): Mechanical structure supporting and moving the X-ray tube and detectors. ⚠️ MOST DANGEROUS COMPONENTS ⚡ X-RAY TUBE: Contains toxic materials like tungsten and beryllium oxide, which are hazardous if inhaled or ingested. Emits ionizing radiation, potentially dangerous without proper shielding and protocols. 🔋 HIGH-VOLTAGE SOURCES: Capable of causing severe electrical shocks in case of failure or improper handling. ☢️ RESIDUAL RADIOACTIVE MATERIALS (in older models): Some older detectors include radioactive materials like americium-241. ❄️ COOLING SYSTEM: Uses refrigerants that may be toxic or flammable, depending on the model. ♻️ DEACTIVATION AND DISPOSAL GUIDELINES 🌍 ENVIRONMENTALLY RESPONSIBLE DISPOSAL: Toxic or radioactive components must be discarded per environmental regulations. 🔄 COMPONENT RECYCLING: X-ray tubes and detectors contain rare and valuable materials that can be recovered. 🚨 RADIATION CONTROL: Ensure no residual ionizing radiation remains in parts before disposal. #hospital #innovation #technology #recycle #recycling #reciclagem Vedat #ge #xray
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Advancing Industrial Precision with XENO 3 Laser Marking Technologies In this video, Mehmet discusses the innovative capabilities of the XENO 3 laser system. Laser marking offers an exceptional solution, capable of delivering precise, durable markings on a diverse range of materials. Benefits of Laser Marking: #Precision: Capable of focusing intense energy into small spaces for exact markings. #Flexibility: Suitable for various materials, including metals and plastics, even in difficult-to-access areas. #Speed: Utilises strongly focused light for rapid marking without mechanical resistance. #Noncontact #Process: Uses heat energy for marking, preventing physical stress on components. #Durability: Resistant to environmental factors such as acids, alkalis, UV radiation, and abrasion. Industry Applications: #Medtech: Complies with "Unique Device Identification" standards for surgical instruments. #Aerospace: Applies traceable Datamatrix codes on critical turbine components. #Electronics: Marks PCBs and components for quality assurance. #Automotive: Provides detailed traceability for components with critical production data. The XENO 3 laser system is designed for efficiency and adaptability in both single item and batch operations, proving essential for modern manufacturing environments. Adopting the XENO 3 can significantly enhance marking standards and operational efficiency across various industries. #LaserMarking, #ManufacturingTechnology, #PrecisionEngineering, #IndustrialAutomation, #Medtech, #AerospaceEngineering, #ElectronicsManufacturing, #AutomotiveIndustry, #QualityControl, #InnovationInManufacturing, #Traceability, #SustainableManufacturing, #AdvancedManufacturing, #IndustrialEquipment, #TechAdvancement
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This is why #NIMBLETRACK is so robust and stable. SCANTECH (HANGZHOU) CO., LTD. have looked at every element of their incredible tech and asked themselves ‘where can we innovate and where can we improve?’ For this reason, we believe this technology will become the new standard in #portable #3dscanning solutions. #qualitycontrol #reverseengineering #laserscanning
Introducing SCANTECH's latest #innovation: Carbon Fiber Frame Integrated Molding Technology (CFFIM). 💪 This groundbreaking advancement revolutionizes stability, ensuring unparalleled performance. With enhanced structural integrity, the NimbleTrack #3Dscanner delivers superior impact resistance and continuous operation, all while reducing maintenance costs. Operators can now work with confidence, knowing they have a reliable and "touchable" #instrument at their fingertips. Experience nimble and effortless #3Dscanning with NimbleTrack! https://lnkd.in/gk2Rcp57 #scantech #nimbletrack #carbonfiber #metrology #3dmeasurement
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Introducing the Z307 compact universal laboratory centrifuge! With a broad range of applications in clinical, research, and industrial labs, the Z307 comes equipped with various accessories. From rotors for microplates to high-speed fixed angle rotors for microtubes and centrifuge tubes up to 50ml – it's got it all! The swing-out rotors can handle common tubes like blood collection tubes, 15/50ml tubes, and even 200ml tubes. This versatility makes the Z307 an essential tool in both research and clinical hospital laboratories. Check out the specifications: Maintenance-free induction drive Microprocessor with a large LCD display Lid lock Automatic RFID rotor identification system with over-speed protection Active imbalance identification and cutoff Imbalance-tolerant drive Various rotors and accessories Manufactured according to international safety regulations (IEC 61010) Audible signal at the end of each run Easy rotor exchange Noise level under 63 dBA at max. speed Improved ventilation system to keep samples cool Stainless steel chamber Distinct control panel Enjoy the simplicity of one-handed touch-operation, easy programming with gloves on, and a splash-proof digital display. The Z307 also features permanent indication of preset and actual values, speed selection in both rpm and g-force, and 10 acceleration and deceleration rates. Plus, it allows pre-selection of running time from 10s to 99h 59min or continuous operation. Store up to 99 runs, including rotor type, and use the quick key for short runs. The diagnostic program and color visual representation of the operating state make it user-friendly and efficient. Get ready for a new level of centrifuge performance! #LabTech #Z307Centrifuge #ResearchTools Benchmark Scientific #algenome #cgenomix
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Today’s symposium featured groundbreaking presentations on quality control technologies and sustainable machine design, highlighting advancements in spectral imaging, optical inspection and energy-efficient coating systems. #AlexanderKabardiadi-Virkovski introduced the EU project HyperImage, showcasing how hyperspectral cameras are revolutionizing quality control. Designed for diverse applications—from semiconductors to medical imaging—the platform combines modular designs, tunable optics and cloud-based analysis to improve accuracy, efficiency and sustainability across industries. Johannes Schuler presented Keyence's optical measurement systems, emphasizing the role of non-contact surface inspection technologies in fuel cell and battery production. The newly launched inline solutions enhance product safety and longevity, while also being cost- and space-efficient. Andrea Glawe focused on designing and retrofitting coating and laminating machines to reduce energy consumption and CO2 emissions. Highlighting customer collaboration, she presented innovative methods for calculating machine footprints and optimizing machine performance to support sustainable production goals. The event underscored the convergence of innovation and sustainability in driving efficiency, reliability and environmental responsibility across industries. Coatema Coating Machinery GmbH #RenewableEnergy #Sustainability
International Coating Symposium at Coatema in Dormagen
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Scanning Sensor Offers Small Field of View For Electronics Industry - homogeneous line thickness enables precise scanning of the smallest structures. https://lnkd.in/eRN2Y2KW #laserscanning #laserscanner #electronicsindustry #manufacturingtechnology #pointcoud 3dinspection #3dmeasurement #metrologynews #atautomation #automationtechnology
Scanning Sensor Offers Small Field of View For Electronics Industry
https://metrology.news
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