Multiphysics CAE Simulation trainings with software Ansys in Italian
This training program offers a range of computational simulation physics-based courses featuring practical sessions with Ansys software. Students can customize their learning experience in numerical simulations for engineering, covering topics from beginner to advanced levels in areas such as Structural Mechanics, Fluid Dynamics, Electromagnetics and others
Provided by: EnginSoft Simulation Software Italia
Starts:
Continuously open
Ends:
–
Application deadline:
Continuously open
Course Presentation
This training program provides an extensive exploration of physics-based topics, designed to offer students a deep and practical understanding of various engineering disciplines. The program is structured as a series of courses, each featuring comprehensive theoretical content paired with hands-on practical sessions using Ansys, a leading global simulation software.
The proposed learning path currently includes a comprehensive number of courses for physics like: FEA, CFD, DEM, EMAG
Personalized Learning Path: Students have the flexibility to tailor their learning journey according to their individual interests and career goals. They can choose from a range of courses that cover numerical simulations applied to engineering, enabling them to focus on areas that are most relevant to their professional development.
Diverse Curriculum: The curriculum is carefully designed to cater to a broad spectrum of physics disciplines, ranging from introductory to advanced levels. This structure allows participants to build a solid foundation and progressively deepen their expertise in specialized areas. Key disciplines covered include:
- Structural Mechanics: Understanding the behaviour of structures under various loads and conditions, and applying this knowledge to design and analysis
- Fluid Dynamics: Exploring the principles of fluid flow and its applications in engineering problems, including the analysis of turbulence and flow patterns
- Electromagnetics: Delving into the interactions of electromagnetic fields with materials and their applications in designing and optimizing electronic components
- Discrete Element Simulations: Analysing the behaviour of granular materials and discrete systems through simulations that model individual particles and their interactions
Hands-On Practical Sessions: Each course is complemented by practical sessions conducted using Ansys software. These hands-on workshops allow students to apply theoretical concepts in real-world scenarios, reinforcing their learning through direct interaction with the software. Ansys’s powerful simulation tools provide an invaluable platform for experimenting with and solving complex engineering problems. All content is asynchronous, offering total flexibility for completing the modules and exercises.
Real-World Applications: The training program emphasizes real-world applications, ensuring that students not only gain theoretical knowledge but also develop practical skills that can be directly applied to industry challenges. By integrating case studies and practical exercises, the program bridges the gap between academic learning and practical implementation.
Overall, this training program offers a robust and flexible educational experience, enabling students to gain in-depth knowledge and hands-on experience in various physics-based disciplines. With the support of Ansys software, participants are well-equipped to advance their careers and tackle complex engineering problems with confidence. All content is 100% asynchronous and prepared by experts with extensive experience in the simulation market. The modules include recorded video lectures and exercises to reinforce knowledge.
Course details
Deep tech fields
Advanced Computing / Quantum Computing
Advanced Manufacturing
Aerospace | Automotive & Remote Sensing
Artificial Intelligence & Machine Learning (including Big Data)
Biotechnology & Life Sciences
Communications & Networks | 5G
Electronics & Photonics
Innovation and Entrepreneurship in Deep Tech
Internet Of Things | W3C | Semantic Web
Semiconductors
Sustainable Energy & Clean Technologies
Course language
Italian
Fee
Course fee
Duration (hours)
119
Certificate provided
Yes
Skills addressed
The student will acquire Knowledge and transversal skills in Simulation Engineering area, like.
GENERAL:
Structural Mechanics: Applying principles of mechanical structures in simulations;
Computational Fluid Dynamic: Simulating fluid flow and related phenomena;
Electromagnetics: Modeling electromagnetic fields and their interactions;
Discrete Elements Method: Modeling the behavior of particles and granular materials;
DETAILED:
Ansys tools;
CAD preparation;
Mesh generation with Ansys;
Simulation and Solver setup with Ansys;
Running the Solution with Ansys;
Results evaluation and communication to the Stakeholders with Ansys;
Course format
Online
Target group
Upper secondary school learners, Undergraduate-level learners, Postgraduate-level learners, Professional development learners, Life-long learners
Quality check
Approved
Dates
Starts:
Continuously openEnds:
–Application deadline:
Continuously openCourse provider
Apply now
Ready to take the next step in your journey? Apply now and embark on a transformative learning experience. Whether you’re pursuing a passion or advancing your career, we’re here to help you succeed. Don’t wait any longer – seize the opportunity and apply today!