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X-WR-CALNAME:Dhio Research and Engineering Private Limited
X-ORIGINAL-URL:https://www.dhioresearch.com
X-WR-CALDESC:Events for Dhio Research and Engineering Private Limited
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TZOFFSETFROM:+0000
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DTSTART:20260101T000000
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BEGIN:VEVENT
DTSTART;TZID=UTC:20260702T103000
DTEND;TZID=UTC:20260703T173000
DTSTAMP:20260623T235522
CREATED:20260609T174910Z
LAST-MODIFIED:20260609T174910Z
UID:6804-1782988200-1783099800@www.dhioresearch.com
SUMMARY:Two Days Hands On Workshop on Heat Treatment Simulation using DANTE® FEA
DESCRIPTION:Workshop Overview\nHeat treatment simulation has become an essential tool for optimizing manufacturing processes\, reducing product\ndevelopment cycles\, and minimizing costly trial-and-error experimentation. This intensive 16-hour workshop provides\ncomprehensive practical training on DANTE FEA\, enabling participants to simulate carburizing\, quenching\, tempering\,\ninduction hardening\, and other heat treatment processes. \nParticipants will learn how to predict:\n– Phase transformations\n– Hardness distribution\n– Carbon diffusion\n– Residual stresses\n– Distortion and dimensional changes\n– Heat treatment process optimization \nthrough real-world industrial examples. \nTopics Covered\nDay 1: Fundamentals and Core Heat Treatment Simulations\n  \nModule 1: Introduction to Heat Treatment and DANTE FEA (2 Hours)\nTheory\n– Fundamentals of heat treatment\n– Metallurgical transformations in steels\n– TTT and CCT diagrams\n– Carbon diffusion mechanisms\n– Distortion and residual stress formation\n– Overview of DANTE simulation methodology \nHands-On Exercise\n– So􀈦ware interface overview\n– Model setup workflow\n– Geometry import\n– Material assignment\n– Mesh generation \nModule 2: Material Modeling and Process Definition (2 Hours) \nTheory\n– DANTE material database\n– Transformation kinetics\n– Thermal and mechanical properties\n– Carbon-dependent material behavior \nHands-On Exercise\n– Material data assignment\n– Process parameter definition\n– Thermal boundary conditions\n– Initial conditions setup \nModule 3: Carburizing and Carbon Diffusion Analysis (2 Hours)\nTheory\n– Gas carburizing principles\n– Carbon potential control\n– Case hardening mechanisms \nHands-On Exercise\n– Setup carburizing cycle\n– Carbon diffusion simulation\n– Carbon concentration mapping\n– Effective case depth evaluation \nResults Analysis\n– Carbon distribution plots\n– Surface carbon concentration\n– Case depth prediction’ \nModule 4: Quenching and Phase Transformation Simulation (2 Hours) \nTheory\n– Quenching mechanisms\n– Cooling rate effects\n– Martensitic transformation\n– Transformation-induced plasticity \nHands-On Exercise\n– Quench process setup\n– Cooling boundary conditions\n– Phase transformation simulation\n– Results Analysis\n– Temperature history\n– Phase fraction evolution\n– Martensite distribution \nDay 2 : Advanced Applications and Industrial Case Studies\nModule 5: Residual Stress and Distortion Prediction(2 Hours)\nTheory\n– Sources of distortion\n– Stress development during quenching\n– Dimensional stability \nHands-On Exercise\n– Stress analysis setup\n– Distortion evaluation\n– Shape comparison \nResults Analysis\n– Residual stress contours\n– Distortion plots\n– Critical regions identification \nModule 6: Tempering and Hardness Prediction (2 Hours)\nTheory\n– Tempering mechanisms\n– Hardness evolution\n– Mechanical property prediction \nHands-On Exercise\n– Tempering cycle setup\n– Hardness prediction\n– Mechanical property assessment \nResults Analysis\n– Hardness maps\n– Hardness-depth profiles\n– Property variation evaluation \nModule 7: Advanced Heat Treatment Applications (2 Hours)\nTheory and Demonstration\n– Induction hardening\n– Nitriding\n– Through hardening\n– Multi-stage heat treatment processes \nHands-On Exercise\n– Participants will configure an advanced heat treatment process and evaluate results \nModule 8: Industrial Case Study and Mini Project (2 Hours)\n– Complete Industrial Workflow\n– Automotive Transmission Gear Heat Treatment and other components \nParticipants will:\n– Import geometry\n– Generate mesh\n– Define carburizing cycle\n– Perform quenching simulation\n– Evaluate hardness\n– Analyze distortion\n– Validate results\n– Project Deliverables\n– Carbon concentration profile\n– Phase transformation report\n– Hardness distribution\n– Residual stress assessment\n– Distortion evaluation. \nRegistration Fee\nINR 2500.00 + Tax Applicable \nRegistration Details\nMs. Sahana N\nEmail : sahana@dhioresearch.com\nPhone : +91 9900138009 \nStart :02 Jul 2026\, 09:30 AM\nEnd :03 Jul 2026\, 05:30 PM\nMode :Offline\nOrganizer :Administrator .\nLocation :Bangalore\, Karnataka\, India\nPrice :₹ 2950.00
URL:https://www.dhioresearch.com/event/two-days-hands-on-workshop-on-heat-treatment-simulation-using-dante-fea/
LOCATION:Virtual Engineering\, DHIO RESEARCH\, 28\, 36th Cross\, Rajajinagar\, Bangalore\, Karnataka\, 560010\, India
CATEGORIES:Workshops
ATTACH;FMTTYPE=image/png:https://www.dhioresearch.com/wp-content/uploads/2026/06/WorkshopOn-Heat-Treatment-Simulation.png
ORGANIZER;CN="DHIO%20RESEARCH%20AND%20ENGINEERING%20PVT%20LTD":MAILTO:nls@dhioresearch.com
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=UTC:20260629T093000
DTEND;TZID=UTC:20260630T173000
DTSTAMP:20260623T235522
CREATED:20260609T174216Z
LAST-MODIFIED:20260609T174509Z
UID:6793-1782725400-1782840600@www.dhioresearch.com
SUMMARY:Two days hands-on-workshop on Hyperelastic Material Modelling and Simulation
DESCRIPTION:About Workshop\nFor many ideally elastic materials\, linear elastic models as per the Hook’s law do not accurately describe the observed\nmaterial behaviour. Most common example of such kind of material is rubber\, whose consecutive relationship are defined\nby nonlinear elastic\, isotropic\, incompressible\, independent of strain rate. Hyper-Elasticity is the study of material behaviour which do not obeys the Hook’s law and behaves nonlinearly within elastic limit and provides constitutive relation between the stress-strain from strain energy density function. Thus\, hyper-elastic idealization models are widely adopted in the industrial products which are manufactured using elastomers. The course is composed of both theory and practical’s using commercial software. \nThis Workshop reviews issues commonly faced when pursuing fatigue performance in elastomeric products\, and the\nproblems that can be solved using modern characterization and analysis techniques. It introduces technologies\, solutions\nand workflows that you can use to achieve your durability targets for problems involving nonlinear material behavior\, and\nmultiaxial\, variable amplitude loading. The training includes a case study demonstrating the application of Endurica CL and Endurica DT for fatigue analysis \nTopics Covered (Theory & Practical)\n\nMechanical Behaviour of Elastomers: General Material Behaviour\, Elasticity and Plasticity Mathematical material Model\, Incremental plasticity theory\, Yield criterion\, Flow rule\, Hardening Rule\, Kinematic hardening\,\nIsotropic Hardening\, Viscoelastic behaviour\, Elastomer behaviour under Loading-unloading condition\, Creep and Relaxation.\nHyper-Elastic Material Model: Ronald Rivlin and Melvin Mooney models\, Neo-Hookean and Mooney–Rivlin model\, Ogden model and the Arruda–Boyce model.\nIntroduction to Finite Element Method: Finite Element Formulation for linear Analysis\, Nonlinear Analysis\, Modelling Issues: Element Selection\, Meshing Considerations\, Constraints and Reinforcements\, Contact\, etc\nTesting Methods for Hyper-elastic material: Tensile\, Compressive\,Bending and Fatigue testing methodology.\nNumerical Problems: Involving Hyper-elastic behaviour.\nNumerical Problems: Involving Hyper-elastic behaviour.\nFatigue and Fracture: Introduction to fatigue\, Mechanism of Fatigue\, Endurance curve\, Factors Effecting Fatigue\, Fatigue Life Prediction Approaches. Rate laws for both cycle & time dependent crack growth\, including threshold effects and ozone attack. Overview of Fracture Mechanics\, Crack precursor growth tracking based on Fracture Mechanics\, Rainflow Counting on history of the critical plane\, Common modes of failure\, Energy release rate\, Stress Intensity Factors\, Fracture Mechanics Approach to Fatigue Design.\nRubber Durability Simulation : Calculating Fatigue life and Failure location on the part\, Critical Plane Analysis to check every potential crack orientation\, Damage Extrapolation for residual life\, Self-heating analysis\, Co-simulation for Ageing and Cyclic Softening\, Fatigue Life prediction of parts subjected to lengthy multi-channel Road Load\nSignals (RLD).\n\nStart :29 Jun 2026\, 09:30 AM\nEnd :30 Jun 2026\, 05:30 PM\nMode :Offline\nOrganizer :Administrator .\nLocation :Virtual Engineering\, Rajajinagar Bangalore\, Karnataka\, India\nPrice :₹ 5900.00\nhttps://www.seellab.com/techdasoha/viewevent/50 \nContact Details  \nMs. Poshitha\nposhitha@dhioresearch.com\nPhone : +91 70194 48044 \nMrs. Nethra Santhosh\nEmail :nethra@virtual-engineering.com\nPhone : +91 9900103378\, 9591994642 \nVirtual Experiential Learning Pvt Ltd\n28\, 36th Cross\, Rajaji nagar 2nd Block\nBangalore – 560010\nWww.virtual-engineering.com \n\n 
URL:https://www.dhioresearch.com/event/two-days-hands-on-workshop-on-hyperelastic-material-modelling-and-simulation/
LOCATION:Hotel IV Sanctum\, Gandhinagar\, Bangalore\, 33\, 5th Main Rd\, near Tata Consultancy Services\, Gandhi Nagar\,\, Bangalore\, Karnataka\, 560009\, India
CATEGORIES:Workshops
ATTACH;FMTTYPE=image/png:https://www.dhioresearch.com/wp-content/uploads/2026/06/2026-Workshop-1.png
ORGANIZER;CN="DHIO%20RESEARCH%20AND%20ENGINEERING%20PVT%20LTD":MAILTO:nls@dhioresearch.com
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