Ingenieros Aeronáuticos, Ingenieros Industriales, Profesionales del sector Aeronáutico, Automoción…
REQUISITOS: - No se requiere experiencia en el análisis de elementos finitos ni en modelado. - Se recomienda conocimientos básicos sobre estática y resistencia de materiales.
Al concluir este curso, el alumno será capaz de: - Utilizar Abaqus/CAE para crear modelos de elementos finitos completos. - Utilizar Abaqus/CAE para presentar y supervisar los trabajos de análisis. - Utilizar Abaqus /CAE para ver y evaluar los resultados de la simulación. - Resolver problemas de análisis estructural utilizando Abaqus/ Estándar and Abaqus / Explicit, incluyendo los efectos de no linealidad de material, grandes deformaciones y contacto.
METODOLOGIA DIDÁCTICA:
La formación se desarrollará en formato presencial en clases teórico-prácticas. Te proporcionaremos el material fungible necesario para recibir la formación.
Nº ALUMNOS:
Máximo de 10 alumnos admitidos por curso.
Lugar de impartición:
en Madrid
Titulación que se obtiene:
ACREDITACIONES PARA LOS ALUMNOS: Todos los alumnos que completen el curso con aprovechamiento recibirán: - Diploma acreditativo de CEPPe y PRINCIPIA, como Certified Education Partner de Dassault Systèmes.
- Horario de mañana: de lunes a viernes de 9:00 a 14:00. - Se imparte en Madrid.
• Lesson 1: Overview of Abaqus - Demo 1: A First Look at Abaqus. - Workshop 1: Linear Static Analysis of a Cantilever Beam.
• Lesson 2: Working with Geometry in Abaqus - Demo 2a: Working with Native Geometry. - Demo 2b: Generating a Shell Feature from a Solid Feature. - Demo 2c: Generating a Shell From a Thin Solid. Leer más - Workshop 2: Creating Native Geometry: Pipe Creep Model. - Workshop 2b: Import and Geometry Repair: Intersecting Pipes. - Workshop 2c: Reinforced panel: Geometry (Optional).
• Lesson 3: Working with Models Created Outside Abaqus - Demo 3: Importing and Editing an Orphan Mesh. - Workshop 3: Importing and Editing an Orphan Mesh: Pump Model.
• Lesson 4: Material and Section Properties - Demo 4: Creating Materials and Assigning Sections. - Workshop 4a: Material and Section Properties: Pipe Creep Model. - Workshop 4b: Material and Section Properties: Pump Model. - Workshop 4c: Reinforced Panel: Properties (Optional).
• Lesson 5: Assemblies in Abaqus - Demo 5: Creating an Assembly. - Workshop 5a: Pump Model Assembly. - Workshop 5b: Reinforced Panel: Assembly (Optional).
• Lesson 6: Steps, Output, Loads, and Boundary Conditions - Demo 6a: Creating Steps. - Demo 6b: Using the Load Module. - Workshop 6a: Step Definition and Loads: Pipe Creep Model. - Workshop 6b: Step Definition and Loads: Pump Model. - Workshop 6c: Reinforced Panel: Step Definition and Loads (Optional).
• Lesson 7: Meshing Imported and Native Geometry: - Demo 7a: Using the Mesh Module. - Demo 7b: Partitioning and Meshing. - Workshop 7a: Structured Hex Meshing: Pipe Creep Model. - Workshop 7b: Free and Swept Meshing: Pump Model. - Workshop 7c: Meshing of Intersecting Pipes. - Workshop 7d: Reinforced Panel: Mesh (Optional).
• Lesson 8 Job Management and Results Visualization: - Demo 8a: Using the Keywords Editor. - Demo 8b: Visualizing Results. - Workshop 8a: Creep of a Pipe Intersection. - Workshop 8b: Analysis of a Reinforced Panel (Optional).
• Lesson 9 Linear Static Analysis: - Demo 9: Multiple Load Cases. - Workshop 9a: Linear Static Analysis of a Cantilever Beam: Multiple Load Cases. - Workshop 9b Linear Analysis of a Skew Plate.
• Lesson 10: Adding Material and Geometric Nonlinearity: - Demo 10: Nonlinear Static Analysis. - Workshop 10: Nonlinear Analysis of a Skew Plate.
• Lesson 11 Multistep Analysis in Abaqus: - Workshop 11: Unloading Analysis of a Skew Plate.
• Lesson 12: Constraints and Connections: - Demo 12: Defining a Rigid Body. - Workshop 12 Defining Tie Constraints: Pump Model.
• Lesson 13: Contact: - Demo 13: Using Automatic Contact Detection and General Contact. - Workshop 13: Nonlinear Static Analysis of a Pump Assembly.
