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This advanced CAE (Computer-Aided Engineering) course is designed to give you a deep understanding of simulation and analysis tools like ANSYS, Abaqus, and COMSOL. Through hands-on projects, you’ll learn how to perform structural, thermal, fluid, and dynamic simulations to optimize product designs and solve real-world engineering challenges. The course covers both fundamental principles and advanced techniques, preparing you to use computational tools for stress analysis, material performance, and manufacturing simulations. By mastering these powerful CAE tools, you’ll be equipped to make data-driven decisions and enhance the efficiency and reliability of engineering designs across multiple industries.
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This CAE course will teach you how to use advanced simulation software like ANSYS, Abaqus, and COMSOL to analyze and optimize designs for strength, thermal performance, and more.
OUR Courses in CAe
Hypermesh
This course provides in-depth training on HyperMesh, a powerful and widely used pre-processing software for CAE (Computer-Aided Engineering). You’ll learn to create high-quality meshes for complex geometries, a crucial step in accurate simulation. The course covers various meshing techniques, including 2D and 3D meshing, hexahedral and tetrahedral meshing, and mesh refinement. You’ll gain expertise in geometry cleanup, mesh quality control, and working with different element types. Through hands-on projects and real-world examples, you’ll learn to prepare models for analysis in various CAE solvers, enabling you to accurately simulate product performance and optimize designs. This course equips you with the essential skills to effectively use HyperMesh for generating robust and reliable meshes, a critical component of the CAE workflow.
Ansys
This course provides in-depth training on ANSYS, a comprehensive suite of engineering simulation software. You’ll learn to use various ANSYS modules for structural, thermal, fluid, and electromagnetic analysis, covering both pre-processing (geometry creation and meshing), solving (running simulations), and post-processing (analyzing results). The course covers fundamental principles of finite element analysis (FEA) and computational fluid dynamics (CFD), as well as advanced techniques for specific applications. Through hands-on projects and real-world examples, you’ll gain practical experience in simulating product behavior, optimizing designs, and solving complex engineering problems. This course equips you with the essential skills to effectively use ANSYS for a wide range of simulations, enabling you to make data-driven decisions and improve product performance across various industries.
Mat Lab
This course provides in-depth training on MATLAB, a powerful programming language and environment widely used in engineering, science, and mathematics. You’ll learn the fundamentals of MATLAB programming, including data types, operators, control flow, functions, and scripting. The course covers working with matrices and arrays, visualizing data with plots and graphs, performing numerical computations, and developing algorithms. You’ll also explore specialized toolboxes for applications like signal processing, image processing, control systems, and machine learning. Through hands-on projects and real-world examples, you’ll gain practical experience in solving engineering and scientific problems using MATLAB, enabling you to analyze data, develop simulations, and create custom applications. This course equips you with the essential MATLAB skills to enhance your technical capabilities and contribute effectively to research and development across various disciplines.
Abaqus
his course provides in-depth training on Abaqus, a powerful finite element analysis (FEA) software suite used for simulating complex engineering problems. You’ll learn to perform structural, thermal, and dynamic analyses, covering the entire simulation process from pre-processing (model creation and meshing) to solving (running the simulation) and post-processing (analyzing results). The course covers fundamental FEA concepts, element types, material properties, and boundary conditions, as well as advanced techniques for specific applications like nonlinear analysis, contact mechanics, and fracture mechanics. Through hands-on projects and real-world examples, you’ll gain practical experience in simulating product behavior, validating designs, and solving challenging engineering problems. This course equips you with the essential Abaqus skills to perform advanced simulations and contribute to product development and research across various industries.
What we offer in our Course
“Our team of experienced and passionate instructors brings a wealth of knowledge and real-world expertise to the classroom. They are dedicated to helping you succeed.”
- Learn from Industry Professionals with Years of Experience.
- Industry relevant Curriculum and Expert Mentors
- Upgrade your Skills and Boost your Career Today
- Realtime Hands On Training
- 100 % Placement Support - Interview Preparation and Career Counseling .
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