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DTSTART;TZID=UTC:20250213T120000
DTEND;TZID=UTC:20250213T130000
DTSTAMP:20260405T233543
CREATED:20250113T192326Z
LAST-MODIFIED:20250114T141153Z
UID:10000876-1739448000-1739451600@www.inceptra.com
SUMMARY:WEBINAR: Springback and Warpage Compensation
DESCRIPTION: \nLIVE WEBINAR\nJoin us to discover how to address a challenging aspect in the manufacturing process\, ‘springback and warpage compensation‘. By not taking a proactive approach to resolve springback/warp ahead of stamping or injecting molding causes considerable rework later when product changes need to be made as there is no direct correlation between the CAD model and the final product. \nAchieve Right Part Tooling the First Time by using 3DEXPERIENCE® CATIA modeling software\, you can automatically create a tooling model that compensates for part warping or springback in the manufacturing process. It minimizes or eliminates manual finishing\, reduces tooling costs by 50%\, and cuts CAD model rework by 80%. \nWhether you start with an analysis prediction of warp or springback or a scan of a deformed part\, you can generate a compensated tooling model in just one click. \n  \nRegister NOW \n  \nWhen using a scanned part as input\, the process still involves just three additional pre-processing steps. After importing the scan data\, 3DEXPERIENCE CATIA users can quickly filter and repair imperfections or isolate areas for deformation compensation. The Reverse Shape Optimization toolset measures the distance between the scan and design data\, generating an optimized vector field. From there\, it’s just a simple click to create the compensated tooling model. \n  \nTooling Model Compensation – From Analysis Predictions\nMold flow and sheet metal forming analysis tools can provide a ‘displacement vector field’ that directly compensates the CAD model in 3DEXPERIENCE. Starting with the displacement data (X\, Y\, Z\, dX\, dY\, dZ)\, you can morph the CAD model in one click\, adjusting parameters such as deformation scale or even reversing the deformation to create the compensated tooling model. \n \nWhether you start with an analysis prediction of warp or springback or a scan of a deformed part\,you can generate a compensated tooling model in just one click. \n  \nJoin Jason Curtis \, Director of Applications Engineering at GoEngineer\, to learn how\, by automating this process\, manufacturers can drastically reduce time and effort spent on tooling adjustments and ensure more accurate\, efficient production. \n \nSpringback and Warpage CompensationLIVE Webinar Agenda \n  \nFebruary 13th\, 2025 | 12 PM PST/3 PM EST\n  \n\n\n\n\nDuration  (minutes)\nStart (minutes)\nTopics\n\n\n1\n0.00\n Welcome and Introduction\n\n\n30\n1.00\nSolution overview and live demonstrations\n\n\n14\n31.00\nSummary\, takeaways\, and Q&A\n\n\n\n\n  \nRegister NOW \n  \n 
URL:https://www.inceptra.com/event/webinar-springback-and-warpage-compensation/
LOCATION:Available Upon Request|Live Remote Learning
ATTACH;FMTTYPE=image/jpeg:/wp-content/uploads/2025/01/DELMIA_LIVE-Webinar_Closing-the-loop-from-engineering-to-manufacturing-execution.jpg
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BEGIN:VEVENT
DTSTART;TZID=UTC:20250219T100000
DTEND;TZID=UTC:20250219T110000
DTSTAMP:20260405T233543
CREATED:20250115T154420Z
LAST-MODIFIED:20250115T182211Z
UID:10000877-1739959200-1739962800@www.inceptra.com
SUMMARY:WEBINAR: Closing the loop from engineering to manufacturing execution with DELMIA Part 2
DESCRIPTION: \nLIVE WEBINAR\nIn Part 1 of our two-part webinar series (Closing the Loop from Engineering to Manufacturing Execution with DELMIA)\, we explored how virtual models support the creation of manufacturing bills of materials (MBOM)\, process plans\, and work instructions\, allowing engineers to effectively manage changes and reduce risks throughout product development. \n  \n  \nRegister NOW \n  \nIn Part 2\, we will showcase how the same virtual model seamlessly integrates with the Apriso manufacturing operations management (MOM) Platform. This integration includes features such as Production Execution\, Quality\, Warehouse\, Maintenance\, and Time and Labor tracking. Apriso fully utilizes the data model within the 3DExperience Design Platform. This isn’t a custom integration or data mapping process—3DExperience® and Apriso were designed to work together with a shared data model for closed-loop operations. \n  \n \nTransform your EBOM into MBOM\, Process Plans\, and Work Instructions through ourDigital Manufacturing Framework\, and seamlessly execute them on the plant floor using Apriso MOM. \n  \n \nApriso offers full Manufacturing Operations Management capabilities\, which effectivelyleverage the 3DExperience Data Model to drive plant floor operations and ensure seamless execution. \n  \nJoin Niranjan Kalele\, Director of MES/APS Engineering at GoEngineer\, as he showcases the seamless integration of the virtual model with our Apriso Manufacturing Operations Management (MOM) Platform. \n \nClosing the loop from engineering tomanufacturing execution with DELMIA Part 2LIVE Webinar Agenda\n  \nFebruary 19th\, 2025 | 10 AM PST/1 PM EST\n  \n\n\n\n\nDuration  (minutes)\nStart (minutes)\nTopics\n\n\n3:00\n0.00\n Introduction\n\n\n5:00\n3.00\nRecap of Manufacturing Engineering\n\n\n20:00\n8.00\nShop Floor Execution\n\n\n5:00\n28.00\nDashboards and Reports\n\n\n2:00\n33:00\nSummary and Takeaways\n\n\n\n\n  \nRegister NOW \n  \n 
URL:https://www.inceptra.com/event/webinar-closing-the-loop-from-engineering-to-manufacturing-execution-with-delmia-part-2/
LOCATION:Available Upon Request|Live Remote Learning
ATTACH;FMTTYPE=image/jpeg:/wp-content/uploads/2025/01/DELMIA_LIVE-Webinar_Closing-the-loop-from-engineering-to-manufacturing-execution.jpg
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BEGIN:VEVENT
DTSTART;TZID=UTC:20250227T100000
DTEND;TZID=UTC:20250227T110000
DTSTAMP:20260405T233543
CREATED:20240807T144808Z
LAST-MODIFIED:20250122T154855Z
UID:10000012-1740650400-1740654000@www.inceptra.com
SUMMARY:WEBINAR: Accelerating Complex Medical Device Design with Systems Engineering
DESCRIPTION:LIVE WEBINAR\nInceptra and Dassault Systemes present – Accelerating Complex Medical Device Design with Systems Engineering\nA Model Based Systems Engineering (MBSE) approach can help designers develop agile product portfolios and processes that can respond to unmet patient’s needs. The market for wearable medical devices\, including wearable injectors\, is one of the fastest growing sectors in the medical device industry. \nHowever\, the technology used in many wearable medical devices is complex and requires different engineering disciplines to contribute to the design of the product (i.e. mechanical\, electrical\, software\, electronic). There is intense competition in the medical device industry. This is pushing designers to develop agile product portfolios and processes that can respond to unmet patient’s needs.   \n  \n   \nRegister NOW \n  \nModel Based Systems Engineering Approach\nIn this webinar\, we explain a method based on an MBSE approach. MBSE aligns design\, engineering\, and manufacturing teams to create robust and efficient products.  This method allows for designing\, evaluating and validating the product from requirements through design\, manufacturing and services. Simulation models not only help to generate a virtual twin of the product\, but can also be helpful through service\, troubleshooting and calibration of the equipment. \nOur presenter\, Dr. Behnam Afsharpoya\, serves as a Senior Solution Consultant at Dassault Systèmes. Specifically\, he supports systems engineering\, dynamic systems\, control\, and process simulation tools. Additionally\, with over 20 years of experience in aerospace\, biomedical\, automotive\, and oil and gas industries\, he’s also a post-doctoral research assistant and adjunct professor.   \n \nAccelerating Complex Medical Device Design with Systems Engineering LIVE Webinar Agenda\n  \nFebruary 27th\, 2025 | 10 AM PST/1 PM EST\n  \n\n\n\n\nDuration  (minutes)\nStart (minutes)\nTopics\n\n\n3.30\n0.00\n Introduction\n\n\n8.30\n3.30\nSystems Engineering Approach\n\n\n14.00\n12.00\nConcepts and Demos\n\n\n2.00\n26.00\nSummary and takeaways\n\n\n\n\n  \nRegister NOW \n 
URL:https://www.inceptra.com/event/webinar-accelerating-complex-medical-device-design-with-systems-engineering/
LOCATION:Available Upon Request|Live Remote Learning
ATTACH;FMTTYPE=image/jpeg:/wp-content/uploads/2024/09/Live-Webinar_Accelerating-Complex-Medical-Device-Design-with-Systems-Engineering_pgbanner-1.jpg
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