TRAINING

WHY?

Technical training helps you gain greater return on investment from your PLM deployment. With proper professional training, you will increase your productivity much faster than self-taught programs.

At TECMAVEN, we offer a variety of training solutions designed to suit your organization and team’s individual needs. Studies have proven students achieve maximum retention through hands-on repetition. In our small classes, you will learn an operation through a series of short lectures followed by hands-on practice of the skills presented.

Our training instructors are well equipped and have many years of industry experience to conduct the training. All the training materials are certified courseware which brings practical industry examples to the classroom style training to enhance your overall learning experience.

DESCRIPTION
This course will teach you about CATIA V5. You will learn how to build simple parts and assemblies in CATIA, and how to make simple drawings of those parts and assemblies.
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This module will teach you how to work with a 3D model using CATIA Composer to capture its views, add annotations and change its rendering style. You will learn how to create technical illustrations, high resolution images and animations. You will also learn how to publish and share the content.
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This course will teach you how to use Generative Shape Design tools. You will learn how to create wireframes and surfaces, the concept of hybrid design and how to use it while creating wireframes and surfaces. This course covers only those Generative Shape Design tools available with a MD2 license.
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This course will teach you how to create curves and surfaces using the Generative Shape Design workbench. You will learn how to analyze the wireframe and surface quality and rectify the defects. You will also learn how to work in a multi-model environment with published surfaces.
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This course will summarize the tools taught in the Surface Design course, then capitalize on this knowledge and teach you advanced surface creation tools, quality checking, correction techniques, and surface creation in a multi-model environment. This course covers only those Generative Shape Design tools specific to HD2 license.
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This course will teach you how to design complex 3D mechanical parts using the Boolean approach. You will learn how to work in a Multi-Model Environment and maintain links between 3D models. You will also learn to analyze designs in order to optimize them.
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This course will teach you how to create a sheet metal part using the standard wall, bend and stamping features. You will view how user features can be incorporated into a design and how you can make use of both standard and user-defined materials. Finally you will learn how to create a flat pattern and produce a detailed, annotated drawing.
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This course will teach you how to design simple Composites Parts using a Manual approach, then how to use a Zone-based approach to complete preliminary design and detailed design. You will also learn how to generate plies automatically, use analysis tools and simulate fiber behavior. Finally, learn how to generate exact solids and create composites drawings.
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This course will teach you how to create a manufacturing document from a Composites Engineering design document, and how to modify the Manufacturing Data structure and synchronize the link between engineering and manufacturing data. Finally, apply manufacturing and producibility constraints in the Composites Design process.
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This course will teach you how to install CATIA V5 and its service packs. You will learn to use different tools to manage licenses, environments and standards. You will also learn to use tools available in batch mode and how to manage V4 and V5 data.
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This course will teach you how to annotate a 3D part. You will learn how to create annotation planes and how to add and manage 3D annotations on these planes. You will also learn how to create 3D views and use them to create 2D drawing views.
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This course will teach you how to design parts in the context of a complex product structure using collaborative engineering methods. You will learn how to optimally use CATIA when working with large and complex designs, and also how to generate annotations and bills of material for your assembly drawings.
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This course will teach you how to start a complex design project from its specifications (top-down approach) and complete it by reusing existing data. It will focus on advanced skills and concepts that enable you to create and analyze complex parts and assemblies.
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This course teaches you the basics of the tool design. You will also learn how to create and instantiate different components of the mold.
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This course will teach you how to join parts using appropriate Weld Features. You will also learn how to generate fully associative Weld Drawings and Weld Reports.
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This course will teach you how to create, program, simulate and validate an entire robot workcell for any manufacturing industry. You will learn how to create a tag and robot task, and also learn to create Input/ Output (IOs) connections and validate them in context with the organizational resource. Finally, learn to create robot controller profiles.
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This course will teach you how to use the Human Model technology to leverage your ergonomics analysis. You will also learn how to position and manipulate the mannequin within a V5 Scene and evaluate the comfort, the reach, clearance, and the vision of your target population.
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This course will explain the features of all CATIA V5 Digital Mock-up workbenches. It will help you to analyze and choose an appropriate workbench as per the requirement. You will learn to view and inspect a complex assembly in order to investigate the problem areas and highlight critical points.
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This course will teach you how to manipulate a Digital Mock-Up in the context of an engineering review. You will also learn how to create simulations for review presentations.
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This course will teach you how to review and validate designs throughout the product lifecycle, from design in context to maintenance review. You will also learn how to highlight interference problems and verify internal component clearances.
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This course will teach you how to design mechanisms using an existing assembly. You will also learn how to simulate and analyze the mechanisms for clashes and perform kinematic analysis.
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This course will introduce the concepts and benefits of Finite Element Analysis and the general analysis process. It will teach you how to prepare a model for analysis, create 1D, 2D and 3D FE models and compute a simple static analysis for a single part or an assembly.
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This course will teach you the basic concepts of Finite Element Analysis and the general analysis process. You will learn how to conduct a simple static analysis on a single part using finite elements, and how to produce the final report of the analysis results.
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This course will teach you how to use advanced Finite Element Analysis pre-processing techniques and post-processing tools, including the concept of defining virtual parts to avoid excessive geometric modeling. You will learn how to perform frequency analysis on a single part, and how to use adaptive meshing to achieve pre-defined accuracy.
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This course will teach you how to conduct a Finite Element Analysis on an existing assembly. You will learn how to create connections between assembly components and how to assign appropriate connection properties. You will also learn how to create an analysis assembly from the existing meshed parts.
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This course will teach you how to conduct a harmonic or transient analysis on a single part using finite elements. You will learn how to generate and visualize 2D graphical results and how to export the resulting data in Text or Excel format.
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This course will teach you how to use the advanced functionalities provided by the ELFINI Solver. It will also guide you on how to use these functionalities in the overall FEA process. Additionally, you will learn about new analysis types such as Buckling Case, MultiLoads Case, Transfer of Loads and Solution, etc. You will also learn how to use advanced capabilities for post-processing of results.
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This course introduces various functionalities available with the FEM Solid (FMD) license. You will learn how to create a 3D mesh from existing 2D mesh parts using functionalities such as Tetrahedron Filler, Sweep3D, mesh part transformations, and mesh part extrusion. You will also learn to directly generate a 3D mesh using OCTREE Tetrahedron Mesher, analyze the generated 3D mesh using available mesh quality criteria, and import/export meshes into/from CATIA.
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This course will teach you how to create and edit meshes using Beam Mesher, OCTREE Triangular Mesher, Surface Mesher and Advanced Surface Mesher. You will learn how to create meshes from existing meshes using mesh transformations, and create different types of Welding Meshes. Additionally, learn to make use of knowledgeware parameters while creating Surface Meshes, as well as analyze the mesh quality using available mesh quality checks.
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This course will teach you how to use the CATIA Equipment and Systems Design Products to quickly and efficiently create an intelligent equipment and system layout.
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This course will teach you how to use the Electrical Wire Routing workbench to route signals and create wires using a harness and a functional definition. You will also learn how to integrate external tools with CATIA's electrical products.
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This course will teach you how to create electrical devices and their catalog. You will learn how to connect devices, design harnesses and create bundle segments. You will also learn how to manage the branch points, protections and links, and how to perform knowledge checks.
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This course will teach you how to use the Equipment Arrangement workbench to administrate catalogs for equipment in manufacturing plants, process and power plants, and ships.
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This course will teach you how to embed knowledge in your designs using Knowledge Advisor tools. You will also learn how to leverage the knowledge to reduce errors and automate the design modifications.
DESCRIPTION
Our learning path introduces the basics of the platform to organize and manage projects while collaborating in real-time! This path has a structured and systematic approach to effectively perform the activities associated with basic roles of the 3DEXPERIENCE platform: Collaborative Business Innovator, Collaborative Industry Innovator, Project Planner and Platform Manager. It also includes the certificate exam of 3DEXPERIENCE Collaborative Business Innovator.
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This learning path is structured and sequenced with a guided and systematic approach to effectively perform the activities associated with the roles of the 3DEXPERIENCE platform: Collaborative Business Innovator, Collaborative Industry Innovator and Collaborative Designer for CATIA V5. It also includes the certificate exam of 3DEXPERIENCE Collaborative Business Innovator.
DESCRIPTION
This learning path on-boards the CATIA V5 users on the 3DEXPERIENCE platform with the Mechanical Designer role. It covers the knowledge and know-how related to solid modeling, wireframes, sketches, basic surfaces and building assemblies. This learning path also provides the opportunity to practice the various functionalities that you have learned.
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This learning path provides you with a guided and systematic approach to learn about the Mechanical and Shape Designer role utilizing your CATIA V5 knowledge. It covers the knowledge and know-how related to sketches, wireframes, basic surfaces and building assemblies. This learning path also provides the opportunity to practice the various functionalities that you have learned.
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This learning path provides you with a guided and systematic approach to learn about the Mechanical Designer role. It covers the knowledge and know-how related to solid modeling, wireframes, sketches, basic surfaces and building assemblies. This learning path also provides the opportunity to practice the various functionalities that you have learned.
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This learning path provides you with a guided and systematic approach to learn about the 3D Tolerancing and Annotation Designer role. It covers the knowledge required to add complete design definitions directly on the 3D model (also known as Model Based Definition), eliminating duplication of efforts due to the 2D drawing generation, update and interpretation.
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This learning path provides you with a systematic, guided approach to the Creative Designer role. It will teach you how to import the 2D Sketch and explore ideas by sketching in 3D, how to sculpt in 3D with ultra-fast virtual clay modelling using the subdivision surface technology, and also how to create precise shapes with NURBS Surface modeling and Direct Solid Modeling. This learning path also provides the opportunity to practice the various functionalities you have learned.
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This learning path will teach you to define functional specifications, analysis inputs, optimization target and constraints. The Function Driven Generative Designer role provides an integrated design environment where the structural simulation (with SIMULIA), topology optimization (with TOSCA solver) and shape modeling are combined in the same software. The various capabilities of 3DEXPERIENCE platform allow you to comprehensively refine concept shapes, validate and reconstruct them collaboratively for additive manufacturing.
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This learning path provides you with a guided and systematic approach to learn about the Mechanical and Shape Designer role. It covers the knowledge and know-how related to sketches, wireframes, basic surfaces and building assemblies. The learning path also provides the opportunity to practice the various functionalities that you have learned.
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This learning path provides you with a guided and systematic approach to learn about the Mechanical Engineer role. Explore the advanced knowledge and know-how related to solid modeling, wireframes, sketches, and building assemblies. Practice various functionalities that you have learned in this course.
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This learning path provides you with a guided and systematic approach to learn about the Mechanical Motion Designer role. You will learn and practice the functionalities related to the assembly design, mechanisms, kinematics scenarios and static study analysis.
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This learning path provides you with a guided and systematic approach to learn about the Product Industrial Designer role. Learn how to import the 2D Sketch, creatively explore 3D sketching, and discover sculpting in 3D using ultra-fast virtual clay modelling and subdivision surface technology. Create precise shapes using NURBS Surface modeling and Direct Solid Modeling. Practice the various functionalities that you have learned in this course.
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This learning path provides you with a guided and systematic approach to learn about the SheetMetal Designer role. It covers knowledge and know-how related to conceptual and detailed design of the sheet metal parts with walls, bends, cutouts and stamps. It will teach you about the simultaneous design using the folded and unfolded views. It also covers drawing creation and order process creation. This learning path also provides the opportunity to practice the various functionalities that you have learned.
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This learning path provides you with a systematic, guided approach to learn about the Visual Experience Designer Role. You will learn how to create realistic renderings with high-end visualization by applying materials and ambiances. In addition, create and position cameras and lights to enhance the brightness. You will also learn to validate and modify designs in context with realistic visualization to ensure the aesthetic quality.
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This learning path provides you with a systematic, guided approach about the Airframe Composites Designer role. Learn how to define composites parameters, create, modify and manage manual plies. Learn to perform producibility analysis and generate a ply book. Create Composites design using the Manual and the Grid approaches. Practice various capabilities of the Airframe Composites Designer role.
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This learning path lets you discover the Airframe Composites Manufacturing Engineer role along with its key capabilities to manufacture composites parts. You will practice end-to-end process of composites parts from their manufacturing preparation to exporting the composites information for downstream manufacturing applications. You can also access your acquired knowledge on composites manufacturing by taking the Associate exam.
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This learning path provides you with a guided and systematic approach to learn about the Dynamic Systems Engineer role. It will provide the knowledge and know-how related to dynamic modeling and simulation of a multi-physics system. This learning path will teach you how to create a dynamic model using the Modelica libraries. It will also provide you information about available Modelica libraries.
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This learning path provides you with a systematic, guided approach to learn about the Fluid 3D Systems Designer role. Learn how to create routes, place the parts and detail the design. Create manufacturing outputs and validate the design. Practice the various functionalities that you have learned in this course.
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This learning path provides you with a guided and systematic approach to learn about the Project Planner role. It will teach you how to create and manage projects and sub-projects, how to create, modify and schedule project tasks. This learning path also provides an opportunity to practice various capabilities offered by the Project Planner role.
DESCRIPTION
This learning path provides you with a guided and systematic approach to learn about the Project Planner role. It will teach you how to improve collaboration in a simple and assisted iterative planning, execution and monitoring, and how to create and manage projects and sub-projects. Also, learn how to create, modify and schedule project tasks. This learning path also provides an opportunity to practice various capabilities offered by the Project Planner role.
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This learning path provides you with a guided and systematic approach to learn about the Project Manager role. It covers the knowledge and know-how related to projects, tasks, budgets and risks. This learning path also provides the opportunity to practice the various functionalities that you have learned.
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This learning path provides you with a systematic, guided approach to learn about the 3D Product Architect role. Prepare and organize multi-discipline systems outside CAD to expose potential impacts in the overall product definition, and how to compose a product structure and see how the outcome of making changes impacts the complete product definition. This learning path also provides the opportunity to practice various functionalities that you have learned.
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This learning path provides systematic approach to learn about the Change Manager role. As a Change Manager you will facilitate and coordinate a close-loop collaborative change process that clearly communicates change decisions and assignments to all impacted organizations.
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This learning path provides you with a guided and systematic approach to learn about the Classification Manager role. It covers the knowledge and know-how related to general libraries, attribute groups and classification of objects. This learning path also provides the opportunity to practice the various functionalities that you have learned.
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This learning path provides systematic approach to learn about the Product Manager role. As a Product Manager, you will drive strategic planning and product portfolio definition based on customer needs and market opportunities. Minimize costs by maximizing reuse of existing assets and minimizing configuration complexity.
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This learning path provides you with a guided and systematic approach to learn about the Product Release Engineer role. It covers the knowledge and know-how related to engineering items, product definitions and Engineering Release widget. This learning path also provides the opportunity to practice the various functionalities that you have learned.
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This learning path provides systematic approach to learn about the Requirements Engineer role. As a Requirements Engineer, you will be able to capture requirements from various sources, decompose and allocate them to products, thereby bridging the gaps between product requirements, design and launch maintaining traceability throughout the evolution of requirements.
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Learn how to start with 3DLean
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This learning path covers the main areas involved in Lean management and how to lead actively the Lean transformation of operational teams. This learning path contains the domain knowledge related to industrial considerations and applications of Lean methods. It also encompass the know-how required to perform in your lean team leader role with the 3DEXPERIENCE® platform.
DESCRIPTION
Enhance your factory layout with early identification of bottlenecks and maximize production rates with alternate routings. Explore this learning path to get an overview of the 3DEXPERIENCE Factory Simulation Engineer Role. Learn to design a factory layout, define and validate the behavior of a station or a complete plant in the 3DEXPERIENCE platform. This learning path provides you with a systematic and guided approach to access and fine-tune the performance of production systems.
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This learning path provides you a guided and systematic approach to learn about the Manufacturing Engineer Role. You will learn about the highlights of the solution and how industries can utilize the solution. You will also see how to manage the manufacturing item structure, the process plan and update the capable resource structure. Additionally, you will learn to explore the PPR context, compare structures of different versions and manage the documents.
DESCRIPTION
This learning path provides you with a systematic, guided approach to learn how to define multi-axis NC machine programs. You can use advanced and efficient tools to define NC programs to machine complex parts. Choose various 5-axis machining techniques to machine parts. You will also learn to simulate tool path, analyze the material removal and generate NC output. After going through the content you can also appear for certification exam.
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This learning path provides you with a guided and systematic approach to learn about the NC Mold and Die Programmer role. - Define and manage NC programs for machining parts, which are designed with surface or solid geometry, using the 3-Axis machining operations. Practice the various functionalities that you have learned.
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This learning path provides you a systematic, guided approach to learn about the NC Prismatic and Mill-Turn Programmer Role. You will learn how to create NC programs to perform machining activity for cylindrical parts, and define turning machining operations, compute and replay the tool path, and generate the NC code output for programs. Additionally, learn to analyze material removal during machining to generate clash free tool path and simulate a mill-turn NC machine using NC code.
DESCRIPTION
This learning path provides you with a guided and systematic approach to learn about the NC Prismatic Machine Programmer Role. In this learning path, you will learn how to create NC programs to perform machining activity. You will learn to define machining operations, compute and replay the tool path, and generate the NC code output for programs. Additionally, you will learn how to analyze the material removal during machining to generate clash free tool path and simulate NC machine using the NC code.
DESCRIPTION
This learning path provides you with a systematic, guided approach to learn about the Process Planner role. Define and manage process plan easily and effectively to manufacture or assemble a product Allocate resources and equipment fast and efficiently. Detect real-world problems and mitigate risks before the actual production Reduce time-to-market through efficient management of change. Decrease problems found during the manufacturing phase due to precise virtual validation Improve quality by reusing standard process templates.
DESCRIPTION
Looking for solution where you can do the design and the early validation of your factory resource layout to meet your production requirement? Explore this learning path to get an overview of the solution to your requirement, the Plant Layout Designer role. This learning path provides you with a guided and systematic approach to learn about the Plant Layout Designer (PLA) role. It gives manufacturing planners and facility planners advanced, efficient tools for factory resource layout.

We provide certification for some of the courses above. Please visit our Certification Center for more details.