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Circular Hollow Section Connections in RFEM 6 🔩 These circular hollow sections, including their associated welds, undergo a thorough analysis utilizing the cutting-edge segmentation method within the steel joint submodel. The best part❓ You have the power to fine-tune and customize the segmentation settings to meet your exact requirements in the Steel Joint configuration. Stay tuned, as we're committed to ongoing advancements in this area. We continue to push the boundaries of what's possible in RFEM! 🌟 More about Steel Joints: https://ow.ly/NPMa50Qhfl1 #DlubalSoftware #SteelConnection #RFEM6 #ConnectionDesign #Connection

Consider a 3:n:3 HDI construction that includes three separate daisy-chained test structures as follows: 1. 3-stack microvia configuration 2. 3-stagger microvia where stagger is pad-to-pad tangency. 3. 3-stagger microvia stagger where microvia-to-microvia pitch is 0.050". Assume 0.006" diameter microvia, 0.012" diameter pad, 0.003" prepregs. Process to Cu-fill microvia the same for stack and stagger configuration, in other words, can be formed on the same panel. Run reflow cycles to failure, 245 C peak temperature. Results: 1. All 3-stack chains fail on reflow cycle 1 or 2 and failure analysis shows Cu fracture in region between the Cu-fill and target pad at layer 3. 2. At least one pad-to-pad stagger chain fails between reflow cycle 3 and before 6. 3. None of the chains with microvias on 0.050" pitch fail tested to 12 reflow cycles even when peak temperature increased to 260 C. What should one take away from this information?

Voids and delaminations can compromise the structural integrity and performance of carbon fiber structures. With our innovative methods and expertise, we have developed a reliable solution to identify and address these issues, ensuring optimal safety and functionality. Our article takes a deep dive into using active thermography to detect voids and delaminations in carbon fiber structures with foam cores. Discover how our infrared inspection methods can uncover hidden flaws with precision. By implementing our active thermography solutions into your inspection processes, you can take proactive measures and perform timely repairs, ultimately extending the lifespan and reliability of their carbon fiber structures. ✅ 📖 Read our article now to gain insights into the latest advancements in the field and enhance your inspection practices. 📚 Read Here: https://lnkd.in/gR_UUe7z #CarbonFiberStructures #VoidDetection #DelaminationDetection #InspectionMethods #AdvancedImaging #StructuralIntegrity #InfraredInspections #IndustryInsights #ActiveThermography

Voids and delaminations can compromise the structural integrity and performance of carbon fiber structures. With our innovative methods and expertise, we have developed a reliable solution to identify and address these issues, ensuring optimal safety and functionality. Our article takes a deep dive into using active thermography to detect voids and delaminations in carbon fiber structures with foam cores. Discover how our infrared inspection methods can uncover hidden flaws with precision. By implementing our active thermography solutions into your inspection processes, you can take proactive measures and perform timely repairs, ultimately extending the lifespan and reliability of their carbon fiber structures. ✅ 📖 Read our article now to gain insights into the latest advancements in the field and enhance your inspection practices. 📚 Read Here: https://lnkd.in/gR_UUe7z #CarbonFiberStructures #VoidDetection #DelaminationDetection #InspectionMethods #AdvancedImaging #StructuralIntegrity #InfraredInspections #IndustryInsights #ActiveThermography

🎬https://lnkd.in/gWZDdCZq 【Micro Complex Internal Pipe Coating System Technology】 This advanced thin film process system technology can coat the inner surfaces of long, thin, and curved pipes with inner diameters of 4mm with very uniform coatings, even on sharp edges and high depth-to-width ratios. Existing systems are constrained by the shape of pipes, but this technology can ensure good coverage and adhesion even in thin and multi-channel pipes. With precise control technology, nanometer-level uniformity without sacrificing hardness and corrosion resistance can be achieved. When used in satellite propulsion systems, it can resist the high-pressure fluid movements in the pipes, improving operational stability by 10 times to prolong the operational life. Leading Innovative Trends #MIRDC

The triplex urd cable is designed for using in secondary distribution circuits. It is used in wet and dry areas and installed in duct or direct burial applications. The maximum operating temperature is not exceeding 90°C. The voltage rating is 600 volts. This urd triplex wire can also be provided pre-pulled into duct as an alternative. It is made of crosslinked polyethylene insulation and concentric stranded or compressed 1350-H19 series aluminum conductor. Cable surface printed with the necessary content, neutral phase identified with triple yellow strips, or black neutral if desired. Two phases and one neutral phase been twisted together (Left Hand Lay) or parallel if so specified.  https://lnkd.in/gg_y3DU2

Wall thickness measurement with the SPR-VA-PU   Wall thickness measurement is a process in which the thickness of a material, typically glas, walls or pipes, is measured. This measurement is crucial for various applications, from the construction industry to manufacturing. Precise wall thickness measurements allow potential problems such as material fatigue, corrosion or uneven material distribution to be detected and rectified at an early stage, ensuring the reliability and safety of products and structures. Thanks to its high flexibility, tensile strength and abrasion resistance, the SPR-VA-PU offers an ideal solution for the protection of sensors or measuring devices used for such wall thickness measurements. https://lnkd.in/djX27U6E