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Jousef Murad

Bei der Finite-Element-Modellierung führt ein feineres Netz in der Regel zu einer genaueren Lösung. Je feiner jedoch ein Netz ist, desto länger ist die Berechnungszeit. Wie erhalten Sie ein Netz, das zufriedenstellend Genauigkeit mit Rechenressourcen in Einklang bringt?

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Bei der Finite-Element-Modellierung führt ein feineres Netz in der Regel zu einer genaueren Lösung. Je feiner jedoch ein Netz ist, desto länger ist die Berechnungszeit. Wie erhalten Sie ein Netz, das zufriedenstellend Genauigkeit mit Rechenressourcen in Einklang bringt?

Eine Möglichkeit ist die Durchführung einer Netzkonvergenzstudie.

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 SimScale & Einstieg in die Netzkonvergenzstudie – Lernziele

Good to know

Know what's good
, what to watch for
, and possible dealbreakers
Dieses Kurs ist am besten für Lernende geeignet, die in Nordamerika ansässig sind
Der Kurs vermittelt Fähigkeiten, die in der Industrie relevant sind

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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 Netzkonvergenzstudien in der Finiten Elemente Methode with these activities:
Review finite element modeling concepts
Reviewing the basic concepts of finite element modeling will help you better understand the course material and improve your learning outcomes.
Show steps
  • Read the course syllabus and make a list of key concepts.
  • Review your notes from previous courses or online resources on finite element modeling.
  • Take practice problems to test your understanding.
Find a mentor who can provide guidance on finite element modeling
Finding a mentor who can provide guidance on finite element modeling will help you accelerate your learning and develop your skills more effectively.
Show steps
  • Identify potential mentors who have experience in finite element modeling.
  • Reach out to potential mentors and ask if they are willing to provide guidance.
  • Meet with your mentor regularly to discuss your progress and get feedback.
Join a study group or online forum to discuss finite element modeling
Joining a study group or online forum will allow you to connect with other students and experts in the field, ask questions, and share your knowledge.
Show steps
  • Find a study group or online forum dedicated to finite element modeling.
  • Introduce yourself and ask questions about the course material.
  • Participate in discussions and share your own insights.
Five other activities
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Follow tutorials on mesh generation and refinement
Following tutorials on mesh generation and refinement will help you develop the skills necessary to create high-quality meshes for your finite element models.
Browse courses on Mesh Generation
Show steps
  • Find online tutorials on mesh generation and refinement.
  • Follow the tutorials step-by-step and try to replicate the results.
  • Experiment with different meshing techniques and parameters to see how they affect the accuracy and efficiency of your models.
Attend a workshop on finite element modeling
Attending a workshop on finite element modeling will provide you with a hands-on opportunity to learn from experts and develop your skills.
Show steps
  • Find a workshop on finite element modeling that is relevant to your interests.
  • Register for the workshop and attend all sessions.
  • Participate in the hands-on exercises and ask questions during the Q&A sessions.
Create a presentation or report on a finite element modeling project
Creating a presentation or report on a finite element modeling project will help you consolidate your knowledge and communicate your findings to others.
Show steps
  • Choose a finite element modeling project that you have worked on.
  • Create a presentation or report that summarizes your project, including the problem you solved, the methods you used, and the results you obtained.
  • Present your presentation or report to your class or colleagues.
Solve practice problems on mesh convergence
Solving practice problems on mesh convergence will help you develop the skills necessary to determine the optimal mesh size for your finite element models.
Show steps
  • Find practice problems on mesh convergence online or in textbooks.
  • Solve the problems using the techniques you learned in the course.
  • Analyze your results and identify the optimal mesh size for each problem.
Participate in a finite element modeling competition
Participating in a finite element modeling competition will challenge you to apply your skills and knowledge to solve real-world problems.
Show steps
  • Find a finite element modeling competition that is relevant to your interests.
  • Form a team or work independently on a project.
  • Use your finite element modeling skills to solve the problem and present your results.

Career center

Learners who complete Netzkonvergenzstudien in der Finiten Elemente Methode will develop knowledge and skills that may be useful to these careers:
FEA Engineer
FEA Engineers use finite element analysis (FEA) software to simulate and analyze the structural integrity of products and systems. A course in Netzkonvergenzstudien in der Finiten Elemente Methode can help build a strong foundation in the principles of FEA and develop the skills needed to use FEA software effectively.
Simulation Engineer
Simulation Engineers use computer simulations to predict the performance of products and systems. A course in Netzkonvergenzstudien in der Finiten Elemente Methode can help build a strong foundation in the principles of simulation and develop the skills needed to use simulation software effectively.
CFD Engineer
CFD Engineers use computational fluid dynamics (CFD) software to simulate and analyze the flow of fluids. A course in Netzkonvergenzstudien in der Finiten Elemente Methode can help build a strong foundation in the principles of CFD and develop the skills needed to use CFD software effectively.
Finite Element Analyst
Finite Element Analysts use computer software to create and analyze finite element models of structures and systems. A course in Netzkonvergenzstudien in der Finiten Elemente Methode can help build a strong foundation in the principles of finite element modeling and analysis, and develop the skills needed to use finite element software effectively.
CAE Engineer
CAE Engineers use computer-aided engineering (CAE) software to simulate and analyze the performance of products and systems. A course in Netzkonvergenzstudien in der Finiten Elemente Methode can help build a strong foundation in the principles of CAE and develop the skills needed to use CAE software effectively.
Computational Engineer
Computational Engineers develop and use computer models to simulate and analyze complex engineering problems. A course in Netzkonvergenzstudien in der Finiten Elemente Methode can help build a foundation in computational modeling and simulation techniques, which can be useful for Computational Engineers in a variety of industries.
Structural Engineer
Structural Engineers design and analyze the structural integrity of buildings, bridges, and other structures. A course in Netzkonvergenzstudien in der Finiten Elemente Methode can help build a foundation in the principles of structural analysis and design.
Mechanical Engineer
Mechanical Engineers research, design, develop, build, and test mechanical devices including tools, engines, and machines. A course in Netzkonvergenzstudien in der Finiten Elemente Methode may be useful for learning more about the properties of materials that are used in developing mechanical devices.
Materials Engineer
Materials Engineers research, develop, and test new materials for use in a variety of applications, including aerospace, automotive, and biomedical engineering. A course in Netzkonvergenzstudien in der Finiten Elemente Methode may be useful for learning more about the properties of materials and how they can be used in engineering applications.
Chemical Engineer
Chemical Engineers design, build, and operate chemical plants and other facilities that produce chemicals, fuels, and other products. A course in Netzkonvergenzstudien in der Finiten Elemente Methode may be useful for learning more about the properties of materials that are used in developing chemical engineering projects.
Petroleum Engineer
Petroleum Engineers design, build, and operate oil and gas wells and other facilities. A course in Netzkonvergenzstudien in der Finiten Elemente Methode may be useful for learning more about the properties of materials that are used in developing petroleum engineering projects.
Civil Engineer
Civil Engineers design, build, and maintain roads, bridges, buildings, and other structures. A course in Netzkonvergenzstudien in der Finiten Elemente Methode may be useful for learning more about the properties of materials that are used in developing civil engineering projects.
Aerospace Engineer
Aerospace Engineers design, develop, test, and operate aircraft, missiles, and spacecraft. A course in Netzkonvergenzstudien in der Finiten Elemente Methode may be useful for learning more about the properties of materials that are used in developing aerospace devices.
Nuclear Engineer
Nuclear Engineers design, build, and operate nuclear power plants and other nuclear facilities. A course in Netzkonvergenzstudien in der Finiten Elemente Methode may be useful for learning more about the properties of materials that are used in developing nuclear engineering projects.
Robotics Engineer
Robotics Engineers design, build, and test robots for use in a variety of applications, including manufacturing, healthcare, and space exploration. A course in Netzkonvergenzstudien in der Finiten Elemente Methode may be useful for learning more about the properties of materials that are used in developing robotics systems.

Reading list

We've selected nine 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 Netzkonvergenzstudien in der Finiten Elemente Methode.
Dieses Lehrbuch bietet eine fortgeschrittene Abhandlung über die Finite-Element-Methode. Es behandelt fortgeschrittene Themen wie isoparametrische Elemente, nichtlineare Analysen und adaptive Verfeinerung.
Dieses Buch bietet eine praxisnahe Anleitung zur Verwendung der SolidWorks-Software für die Finite-Elemente-Simulation. Es behandelt die verschiedenen Funktionen der Software und ihre Anwendung in der Konstruktion und Analyse von Bauteilen.
Dieses Lehrbuch bietet eine umfassende Einführung in die Finite-Elemente-Analyse und ihre Anwendung mit der ANSYS-Software. Es behandelt die theoretischen Grundlagen, die Modellierungstechniken und die praktische Implementierung der FEM.
Dieses Buch bietet eine umfassende Einführung in partielle Differentialgleichungen (PDEs). PDEs sind die mathematischen Gleichungen, die viele physikalische und technische Phänomene beschreiben. Die FEM ist eine wichtige Methode zur Lösung von PDEs.
Dieses Buch bietet eine praxisnahe Anleitung zur Verwendung der SolidWorks Simulation-Software für die Finite-Elemente-Analyse. Es behandelt die verschiedenen Funktionen der Software und ihre Anwendung in der Konstruktion und Analyse von Bauteilen.
Dieses Lehrbuch konzentriert sich auf die Anwendung der FEM in der Festkörpermechanik und in der Strukturanalyse. Es behandelt fortgeschrittene Themen wie nichtlineare Analysen und dynamische Simulationen.
Dieses Buch bietet eine theoretisch fundierte Einführung in numerische Methoden. Es behandelt verschiedene Methoden zur Lösung algebraischer Gleichungen, Differentialgleichungen und anderer mathematischer Probleme. Die FEM ist eine wichtige Anwendung numerischer Methoden.
Dieses Buch bietet eine klare und prägnante Einführung in die Finite-Element-Modellierung. Es behandelt die grundlegenden Konzepte und Prinzipien der FEM und ist ein guter Ausgangspunkt für Anfänger.
Dieses Buch bietet eine leicht verständliche Einführung in die Finite-Element-Methode. Es ist ideal für Anfänger, die sich mit den Grundlagen der FEM vertraut machen möchten.

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