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Jousef Murad

In diesem praktischen Projekt lernen Sie die Finite-Elemente-Methode (FEM) kennen und validieren einen Simulationsfall mit dem cloud-basierten Simulationswerkzeug SimScale. Wir werden einen einfachen Simulationsfall mit einer vorgegebenen Geometrie aufstellen, um die Grundlagen der Finite-Elemente-Methode zu erlernen und wie eine Validierung überhaupt angegangen wird. Wir werden den klassischen dreistufigen Prozess einer jeden Simulation durchlaufen, der die Schritte Pre-Processing, Processing und Post-Processing umfasst.

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In diesem praktischen Projekt lernen Sie die Finite-Elemente-Methode (FEM) kennen und validieren einen Simulationsfall mit dem cloud-basierten Simulationswerkzeug SimScale. Wir werden einen einfachen Simulationsfall mit einer vorgegebenen Geometrie aufstellen, um die Grundlagen der Finite-Elemente-Methode zu erlernen und wie eine Validierung überhaupt angegangen wird. Wir werden den klassischen dreistufigen Prozess einer jeden Simulation durchlaufen, der die Schritte Pre-Processing, Processing und Post-Processing umfasst.

SimScale ist eine technische Simulationsplattform, die die Art und Weise revolutioniert, wie Ingenieure, Designer, Wissenschaftler und Studenten Produkte entwerfen. Die SimScale-Plattform ist vollständig über einen Standard-Webbrowser zugänglich und verfügt über eine einfach zu bedienende Schnittstelle, die zahlreiche Simulationstypen unterstützt, darunter Festkörpermechanik (FEM), Strömungsdynamik (CFD) und Thermodynamik.

Dieser Kurs läuft auf Coursera's praktischer Projektplattform namens Rhyme. Auf Rhyme führen Sie Projekte praxisnah in Ihrem Browser durch. Sie erhalten sofortigen Zugang zu vorkonfigurierten Cloud-Desktops, die alle Software und Daten enthalten, die Sie für das Projekt benötigen. Für dieses Projekt benötigen Sie keine speziellen Einstellungen oder Daten. Alles ist bereits direkt in Ihrem Internetbrowser eingerichtet, so dass Sie sich ganz auf das Lernen konzentrieren können!

Anmerkungen:

- Dieser Kurs eignet sich am besten für Lernende, die in der Region Nordamerika ansässig sind. Wir arbeiten derzeit daran, die gleiche Erfahrung auch in anderen Regionen anzubieten.

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What's inside

Syllabus

Module 1
Eine Einführung in die Finite Elemente Methode mit SimScale

Good to know

Know what's good
, what to watch for
, and possible dealbreakers
Ein praktisches Projekt, das Ihnen die Grundlagen der Finite-Elemente-Methode (FEM) und die Simulationsprüfung mit dem cloudbasierten Simulationswerkzeug SimScale vermittelt
Erlernen Sie die Finite-Elemente-Methode in der Cloud, die die Produktentwicklung revolutioniert
Die praktische Plattform vermittelt Wissen in einem sofort zugänglichen, in Ihrem Browser verfügbaren Cloud-Desktop mit vorkonfigurierter Software und Daten

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Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Eine Einführung in die Finite Elemente Methode mit SimScale with these activities:
Wiederholen Sie die Grundbegriffe der Mechanik
Die Überprüfung der Grundbegriffe der Mechanik wird Ihnen helfen, die Konzepte der Finite-Elemente-Methode besser zu verstehen.
Show steps
  • Überprüfen Sie Lehrbücher oder Online-Materialien zu Statik und Festigkeitslehre.
  • Lösen Sie Übungsaufgaben, um Ihr Verständnis zu testen.
Zusätzliche SimScale-Tutorials
Diese Tutorials helfen Ihnen, Ihre Kenntnisse über SimScale zu erweitern und zusätzliche Funktionen zu erkunden.
Show steps
  • Durchsuchen Sie die SimScale-Dokumentation nach relevanten Tutorials.
  • Folgen Sie den Anweisungen in den Tutorials, um neue Funktionen zu erlernen.
Austausch mit anderen Lernenden
Der Austausch mit anderen Lernenden kann Ihnen helfen, eine andere Perspektive auf die Konzepte zu gewinnen und Ihr Verständnis zu festigen.
Show steps
  • Treten Sie einem Online-Forum oder einer Diskussionsgruppe bei, in der Sie sich mit anderen Lernenden austauschen können.
  • Teilen Sie Ihre Gedanken, Fragen und Ideen zu den Simulationsaufgaben.
Two other activities
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Erstellen Sie eine Präsentation zu Ihren Simulationen
Diese Präsentation hilft Ihnen, Ihre Erkenntnisse aus den Simulationen zusammenzufassen und zu präsentieren.
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  • Erstellen Sie Folien, die Ihre Simulationen, Ergebnisse und Schlussfolgerungen zusammenfassen.
  • Präsentieren Sie Ihre Präsentation vor Ihren Kommilitonen oder einem Publikum.
Erstellen Sie ein Blog oder einen YouTube-Kanal über die Finite-Elemente-Methode
Das Erstellen von Inhalten kann Ihnen helfen, Ihr Verständnis für die Finite-Elemente-Methode zu vertiefen und anderen zu helfen, sie zu verstehen.
Show steps
  • Recherchieren Sie die Finite-Elemente-Methode und identifizieren Sie potenzielle Themen für Ihre Inhalte.
  • Erstellen Sie qualitativ hochwertige Inhalte, die die Grundlagen der FEM, Anwendungen und Best Practices abdecken.

Career center

Learners who complete Eine Einführung in die Finite Elemente Methode mit SimScale will develop knowledge and skills that may be useful to these careers:
Simulation Engineer
Simulation Engineers use computer simulations to analyze the behavior of complex systems. They work with other engineers, scientists, and technicians to develop new products and technologies. The skills you will learn in this course on FEM can be applied to simulation engineering, enabling you to understand and simulate the behavior of complex systems under different conditions. This course can help you build a foundation in FEM and gain experience using SimScale, a cloud-based simulation tool, which can be valuable for a career as a Simulation Engineer.
Computer-Aided Design Technician
Computer Aided Design (CAD) Technicians use computer software to create 3D models and 2D drawings of objects. They work with engineers, architects, and other professionals to develop designs for products and structures. The skills you will learn in this course on the finite element method (FEM), a numerical technique used for analyzing the behavior of complex structures, can be applied to computer aided design, enabling you to understand and simulate how structures will perform under different conditions. This course can help you build a foundation in FEM and gain experience using SimScale, a cloud-based simulation tool, which can be valuable for a career as a CAD Technician.
Software Engineer
Software Engineers design, develop, and test software applications. They work with other engineers, scientists, and technicians to develop new products and technologies. The skills you will learn in this course on FEM can be applied to software engineering, enabling you to understand and simulate the behavior of complex software systems under different conditions. This course can help you build a foundation in FEM and gain experience using SimScale, a cloud-based simulation tool, which can be valuable for a career as a Software Engineer.
Data Analyst
Data Analysts collect, analyze, and interpret data to identify trends and patterns. They work with other engineers, scientists, and technicians to develop new products and technologies. The skills you will learn in this course on FEM can be applied to data analysis, enabling you to understand and simulate the behavior of complex data sets under different conditions. This course can help you build a foundation in FEM and gain experience using SimScale, a cloud-based simulation tool, which can be valuable for a career as a Data Analyst.
Mechanical Engineer
Mechanical Engineers design, develop, and build mechanical systems and components. They work with other engineers, scientists, and technicians to develop new products and technologies. The skills you will learn in this course on FEM can be applied to mechanical engineering, enabling you to understand and simulate the behavior of complex mechanical systems under different conditions. This course can help you build a foundation in FEM and gain experience using SimScale, a cloud-based simulation tool, which can be valuable for a career as a Mechanical Engineer.
Materials Scientist
Materials Scientists research and develop new materials and technologies. They work with other scientists, engineers, and technicians to develop new products and technologies. The skills you will learn in this course on FEM can be applied to materials science, enabling you to understand and simulate the behavior of complex materials under different conditions. This course can help you build a foundation in FEM and gain experience using SimScale, a cloud-based simulation tool, which can be valuable for a career as a Materials Scientist.
Technical Writer
Technical Writers create technical documentation, such as manuals, reports, and presentations. They work with other engineers, scientists, and technicians to develop new products and technologies. The skills you will learn in this course on FEM can be applied to technical writing, enabling you to understand and explain the behavior of complex systems under different conditions. This course can help you build a foundation in FEM and gain experience using SimScale, a cloud-based simulation tool, which can be valuable for a career as a Technical Writer.
Project Manager
Project Managers plan, organize, and direct projects. They work with other engineers, scientists, and technicians to develop new products and technologies. The skills you will learn in this course on FEM can be applied to project management, enabling you to understand and simulate the behavior of complex projects under different conditions. This course can help you build a foundation in FEM and gain experience using SimScale, a cloud-based simulation tool, which can be valuable for a career as a Project Manager.
Aerospace Engineer
Aerospace Engineers design, develop, and test aircraft, spacecraft, and other aerospace systems. They work with other engineers, scientists, and technicians to develop new products and technologies. The skills you will learn in this course on FEM can be applied to aerospace engineering, enabling you to understand and simulate the behavior of complex aerospace structures under different conditions. This course can help you build a foundation in FEM and gain experience using SimScale, a cloud-based simulation tool, which can be valuable for a career as an Aerospace Engineer.
Manufacturing Engineer
Manufacturing Engineers design and develop manufacturing processes and equipment. They work with other engineers, scientists, and technicians to develop new products and technologies. The skills you will learn in this course on FEM can be applied to manufacturing engineering, enabling you to understand and simulate the behavior of complex manufacturing processes under different conditions. This course can help you build a foundation in FEM and gain experience using SimScale, a cloud-based simulation tool, which can be valuable for a career as a Manufacturing Engineer.
Research Scientist
Research Scientists conduct scientific research in a variety of fields, including engineering, physics, and computer science. They use their knowledge and skills to develop new products, processes, and technologies. The skills you will learn in this course on FEM can be applied to research in a variety of fields, such as structural mechanics, fluid dynamics, and heat transfer. This course can help you build a foundation in FEM and gain experience using SimScale, a cloud-based simulation tool, which can be valuable for a career as a Research Scientist.
Design Engineer
Design Engineers use their knowledge of engineering principles to design and develop products and structures. They work with other engineers, architects, and scientists to develop new products and technologies. The skills you will learn in this course on FEM can be applied to design engineering, enabling you to understand and simulate the behavior of complex structures under different conditions. This course can help you build a foundation in FEM and gain experience using SimScale, a cloud-based simulation tool, which can be valuable for a career as a Design Engineer.
Quality Engineer
Quality Engineers develop and implement quality control processes to ensure that products and services meet customer requirements. They work with other engineers, scientists, and technicians to develop new products and technologies. The skills you will learn in this course on FEM can be applied to quality engineering, enabling you to understand and simulate the behavior of complex systems under different conditions. This course can help you build a foundation in FEM and gain experience using SimScale, a cloud-based simulation tool, which can be valuable for a career as a Quality Engineer.
Civil Engineer
Civil Engineers design, build, and maintain infrastructure, such as roads, bridges, and buildings. They work with other engineers, architects, and scientists to develop new products and technologies. The skills you will learn in this course on FEM can be applied to civil engineering, enabling you to understand and simulate the behavior of complex structures under different conditions. This course can help you build a foundation in FEM and gain experience using SimScale, a cloud-based simulation tool, which can be valuable for a career as a Civil Engineer.
Business Analyst
Business Analysts analyze business processes and develop solutions to improve efficiency and effectiveness. They work with other engineers, scientists, and technicians to develop new products and technologies. The skills you will learn in this course on FEM can be applied to business analysis, enabling you to understand and simulate the behavior of complex business processes under different conditions. This course can help you build a foundation in FEM and gain experience using SimScale, a cloud-based simulation tool, which can be valuable for a career as a Business Analyst.

Reading list

We've selected six books that we think will supplement your learning. Use these to develop background knowledge, enrich your coursework, and gain a deeper understanding of the topics covered in Eine Einführung in die Finite Elemente Methode mit SimScale.
Dieses fortgeschrittene Lehrbuch bietet eine gründliche Behandlung der Finite-Elemente-Methode in der Festkörper- und Strukturmechanik und ist eine wertvolle Ressource für Forscher und Ingenieure.
Dieses umfassende Lehrbuch bietet eine gründliche Abhandlung über die Finite-Elemente-Methode und deckt sowohl theoretische Grundlagen als auch praktische Anwendungen ab.
Dieses fortgeschrittene Lehrbuch bietet eine umfassende Behandlung der Finite-Elemente-Methode und ist eine wertvolle Ressource für Forscher und Ingenieure.
Dieses klassische Lehrbuch bietet eine klare und prägnante Einführung in die Finite-Elemente-Methode und ist ein wertvolles Referenzwerk für Ingenieure und Wissenschaftler.
Dieses einführende Lehrbuch bietet einen umfassenden Überblick über die Finite-Elemente-Methode und ist besonders nützlich für Studenten und Ingenieure, die sich mit dem Thema vertraut machen möchten.
Dieses Buch bietet eine leicht verständliche Einführung in die Finite-Elemente-Methode und ist besonders nützlich für Anfänger, die grundlegende Konzepte erlernen möchten.

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