Nonlinear Structural Analysis With Perform-3D from Udemy

What's inside

Syllabus

Modelling Phase

here is the first lecture example building:

https://www.dropbox.com/s/hsb2974tpmdt8wn/B1.rar?dl=0

Materials

ETABS and SAP2000 model is at the link:

https://www.dropbox.com/s/5kcy539ad9cskqi/L12.rar?dl=0

Perform-3D model of the building is below link:

https://www.dropbox.com/s/12cxf0rgnssb8dh/B2.rar?dl=0

Traffic lights

Read about what's good

what should give you pause

and possible dealbreakers

Focuses on Perform-3D software, which is used for nonlinear structural analysis in civil and structural engineering

Covers modeling geometry, sections, materials, and building components within Perform-3D, which are essential for structural analysis

Explores static and dynamic loads, p-y curves, and time history records, which are relevant for seismic and structural performance assessment

Examines building drifts and section moment and rotation behavior, which are important considerations in structural design and evaluation

Requires Perform-3D software, which may involve a separate purchase or subscription, potentially increasing the overall cost

Reviews summary

Practical perform-3d nonlinear analysis

According to learners, this course on Nonlinear Structural Analysis With Perform-3D is a valuable resource for understanding and using the software. Students find the lectures well-structured and the practical examples particularly helpful, especially with the inclusion of downloadable project files. Many note that it covers the essential modeling steps and analysis procedures, including dynamic analysis. However, some reviewers mention that the theoretical background explanations are a bit lacking, suggesting the course focuses more on software application than the underlying engineering principles. Despite this, it is widely considered a solid guide for practicing engineers looking to apply nonlinear methods in Perform-3D, filling a gap due to limited alternative resources.

Addresses lack of Perform-3D learning resources.

"This course fills a gap as resources for Perform-3D are limited."

"The coverage of time history analysis and evaluation of results like drift and section behavior is invaluable."

Excellent guide for using the Perform-3D software.

"Excellent course covering the nonlinear analysis aspects in Perform-3D very clearly."

"Very comprehensive guide to Perform-3D."

"As a practicing engineer, this course was exactly what I needed to get up to speed with nonlinear analysis in Perform-3D."

Hands-on examples aid understanding well.

"The examples are practical and easy to follow."

"The practical examples (with downloadable files) make it easy to learn by doing."

"The modeling examples are clear."

"The examples align well with real-world problems."

Theoretical background explanations are lacking.

"Some parts could be more detailed, especially the theoretical background."

"I found the theoretical explanations a bit lacking."

"Disappointed with the theoretical depth."

"It's mostly a software tutorial."

"Could benefit from a more structured review of the theoretical basis for the nonlinear methods employed..."

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 Nonlinear Structural Analysis With Perform-3D with these activities:

Review Structural Analysis Fundamentals

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Reinforce your understanding of fundamental structural analysis principles to better grasp the complexities of nonlinear behavior.

Browse courses on Structural Analysis

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Review basic concepts of stress, strain, and material properties.
Practice solving simple structural analysis problems.
Familiarize yourself with different types of structural elements.

Review 'Seismic Design of Buildings' by Michael R. Lindeburg

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Gain a solid understanding of seismic design principles to better interpret dynamic analysis results.

View PPI PE Civil Study Guide, 17th Edition eText -... on Amazon

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Read the chapters related to seismic design principles.
Study the examples provided in the book.
Relate the concepts to the Perform-3D software's dynamic analysis capabilities.

Review 'Nonlinear Finite Element Analysis' by Thomas J.R. Hughes

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Gain a deeper understanding of the theoretical underpinnings of nonlinear finite element analysis.

View Isogeometric Analysis: Toward Integration of... on Amazon

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Read the chapters related to material and geometric nonlinearity.
Study the examples provided in the book.
Relate the concepts to the Perform-3D software.

Four other activities

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Model Simple Structures in Perform-3D

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Solidify your understanding of Perform-3D by modeling and analyzing simple structures.

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Create models of beams, columns, and simple frames.
Apply different types of loads to the models.
Analyze the models and interpret the results.

Document Your Perform-3D Workflow

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Improve retention by documenting your workflow for using Perform-3D.

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Create a step-by-step guide for modeling a specific type of structure.
Include screenshots and explanations of each step.
Share your guide with other students.

Compare Perform-3D Results with Hand Calculations

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Validate Perform-3D results by comparing them with hand calculations for simple cases.

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Select a simple structural problem with a known analytical solution.
Model the problem in Perform-3D.
Compare the Perform-3D results with the analytical solution.
Document any discrepancies and investigate their causes.

Analyze a Real-World Structure Using Perform-3D

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Apply your knowledge to analyze a real-world structure using Perform-3D.

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Select a real-world structure to analyze.
Gather the necessary information about the structure.
Create a detailed model of the structure in Perform-3D.
Perform a nonlinear analysis of the structure.
Interpret the results and draw conclusions.

Career center

Learners who complete Nonlinear Structural Analysis With Perform-3D will develop knowledge and skills that may be useful to these careers:

Finite Element Analyst

Finite element analysts use software to model and simulate the behavior of structures under various loads and conditions. This course helps finite element analysts by deepening their understanding of nonlinear structural analysis, enabling them to create more accurate and realistic models. The course's emphasis on modeling, material behavior, and load case analysis equips analysts with the knowledge to define appropriate boundary conditions and material properties. The evaluation of building drifts, section behavior, and time history analysis helps finite element analysts interpret the results of their simulations and validate their models against experimental data. It's a perfect fit.

See salaries and explore the career path for Finite Element Analyst

Seismic Engineer

Seismic engineers specialize in designing structures to resist earthquake forces, ensuring safety and minimizing damage. This course helps seismic engineers by providing a deep dive into nonlinear structural analysis, particularly relevant for understanding how structures behave under seismic loading. The course's emphasis on dynamic loads and time history analysis directly supports the evaluation of structural response to earthquakes. Furthermore, the focus on building drifts and section behavior allows engineers to assess the potential for damage and failure under seismic events. This course arms seismic engineers with the knowledge and practical skills using Perform-3D to design safer, more resilient buildings in earthquake-prone regions.

See salaries and explore the career path for Seismic Engineer

Structural Engineering Consultant

Structural engineering consultants provide expert advice and design services to clients on a variety of structural projects. This course arms structural engineering consultants with advanced knowledge and practical skills in nonlinear structural analysis, making them more valuable to clients seeking specialized expertise. The course's focus on modeling, material behavior, and load case analysis enables consultants to provide accurate and reliable assessments of structural performance. Moreover, the evaluation of building drifts, section behavior, and time history analysis helps consultants develop innovative solutions to complex structural challenges. This course's work with Perform-3D makes the consultant more versatile.

See salaries and explore the career path for Structural Engineering Consultant

Structural Design Engineer

Structural design engineers create detailed designs for buildings and other structures. This course helps structural design engineers by improving their ability to analyze and design structures using nonlinear methods, especially with Perform-3D. The course covers modeling, material properties, and load analysis, which are essential for creating safe and efficient designs. By learning to evaluate building drifts and structural section behavior, design engineers can better predict how structures will perform under various conditions and ensure they meet all safety requirements. This leads to safer and more reliable infrastructure.

See salaries and explore the career path for Structural Design Engineer

Structural Engineer

A structural engineer ensures the safety and stability of buildings and infrastructure, designing and analyzing structural systems to withstand various loads. This course helps structural engineers understand and apply nonlinear structural analysis techniques, particularly using Perform-3D software. It provides practical knowledge and skills in modeling geometry, sections, materials, and building components. The course's focus on static and dynamic loads, pushover analysis, time history records, building drifts, and section behavior equips engineers with the tools to evaluate structural performance under complex conditions, directly enhancing their ability to design safe and resilient structures. This course may be useful to prepare for complex projects.

See salaries and explore the career path for Structural Engineer

Professor of Structural Engineering

Professors of structural engineering educate and train the next generation of structural engineers through teaching and research. This course greatly benefits professors of structural engineering by expanding their knowledge of nonlinear structural analysis, allowing them to provide more comprehensive and up-to-date instruction to their students. The course's focus on modeling, material behavior, and load case analysis enables professors to enhance laboratory experiments and design projects. Furthermore, the evaluation of building drifts, section behavior, and time history analysis helps professors prepare students for the complex challenges they will face in their careers.

See salaries and explore the career path for Professor of Structural Engineering

Academic Researcher

Academic researchers conduct studies to advance knowledge of nonlinear structural analysis. This course is an ideal stepping stone for academic researchers looking to deepen their understanding and improve their research outcomes. The course's extensive coverage of modeling, dynamic loading, and analysis evaluation will enable them to conduct more sophisticated and relevant studies. The course's emphasis on time history analysis and building drifts will be of particular interest. An academic researcher ideally holds a PhD degree.

See salaries and explore the career path for Academic Researcher

Forensic Engineer

Forensic engineers investigate structural failures to determine the cause and prevent future incidents. This course is applicable to forensic engineers, as it provides in-depth knowledge of nonlinear structural analysis, which is crucial for understanding how structures fail under unusual or extreme conditions. The course's emphasis on modeling, material behavior, and load case analysis allows forensic engineers to recreate failure scenarios and identify the root causes of structural collapses. Furthermore, the evaluation of building drifts, section behavior, and time history analysis helps forensic engineers assess the progression of damage and determine the factors that contributed to the failure. A firm grasp of Perform-3D software should be helpful.

See salaries and explore the career path for Forensic Engineer

Research Engineer

Research engineers conduct research and development activities to advance engineering knowledge and technologies. This course helps research engineers by providing a solid foundation in nonlinear structural analysis, which is essential for developing new structural materials, design methods, and analysis techniques. The course's emphasis on modeling, material behavior, and load case analysis enables design engineers to conduct simulations and experiments. Furthermore, the evaluation of building drifts, section behavior, and time history analysis helps research engineers validate their findings and develop innovative solutions to structural engineering challenges. This will lead to more reliable results.

See salaries and explore the career path for Research Engineer

Bridge Engineer

Bridge engineers focus on the design, construction, and maintenance of bridges, ensuring their structural integrity and safety. The bridge engineer will find that the course's focus on nonlinear structural analysis and dynamic loading is highly relevant, as bridges are often subjected to complex loads and environmental conditions. The course's coverage of modeling, material behavior, and load case analysis provides a strong foundation for understanding bridge behavior under stress. Moreover, the evaluation of building drifts and structural section behavior helps bridge engineers assess potential failure modes and optimize bridge designs for safety and durability. This course's focus on time history analysis may be useful in considering traffic patterns and seismic data.

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Software Developer

Software developers in the engineering sector create and maintain software tools for structural analysis and design. This course helps software developers who are working on or are interested in working on engineering software. The course's comprehensive coverage of modeling, dynamic loading, and analysis evaluation will be invaluable for understanding the complex algorithms and methodologies used in these tools. The course may be useful for developers to enhance their skills in a specific area of engineering. The course will provide them with a deeper awareness of the end-users' needs and challenges, enabling them to create more effective and user-friendly software.

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Civil Engineer

Civil engineers design, construct, and maintain the built environment, including infrastructure projects like bridges, roads, and buildings. This course may be useful by offering specialized knowledge in nonlinear structural analysis, broadening the civil engineer's skillset. The course's content on modeling, load analysis, and evaluation of structural behavior provides a valuable perspective for civil engineers working on structural design projects. By understanding how structures respond to various loads and conditions, civil engineers can make more informed decisions about design and construction, ensuring the safety and longevity of infrastructure.

See salaries and explore the career path for Civil Engineer

Risk Analyst

Risk analysts assess and manage risks associated with engineering projects, including structural integrity and safety. The risk analyst will find that this course may be useful, as the course enhances their understanding of how structural systems behave under different loads and conditions, enabling them to better evaluate potential risks. The course's focus on modeling, material behavior, and load case analysis provides a valuable foundation for assessing the likelihood and consequences of structural failures. Furthermore, the evaluation of building drifts, section behavior, and time history analysis helps analysts develop mitigation strategies and improve the overall safety of engineering projects. A knowledge of Perform-3D software may be useful as well.

See salaries and explore the career path for Risk Analyst

Geotechnical Engineer

Geotechnical engineers investigate subsurface conditions and materials to assess the stability and suitability of land for construction projects. This course may be useful to geotechnical engineers who collaborate with structural engineers, as it enhances their understanding of how soil-structure interaction affects building performance. While geotechnical engineers primarily focus on soil mechanics, understanding the principles of nonlinear structural analysis and building behavior helps them provide more informed recommendations for foundation design and ground improvement techniques. The software applications and evaluation of analysis will be useful for the role.

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Construction Manager

Construction managers oversee construction projects, ensuring they are completed on time, within budget, and according to specifications. This course may be useful to construction managers who want to better understand the structural aspects of building projects. While construction managers typically focus on project coordination and logistics, having a grasp of nonlinear structural analysis and building behavior can improve their communication with engineers and subcontractors. This course's insights into modeling, load analysis, and structural evaluation provide a valuable framework for construction managers to make informed decisions and proactively address potential structural issues.

See salaries and explore the career path for Construction Manager

Reading list

We've selected two 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 Nonlinear Structural Analysis With Perform-3D.

Isogeometric Analysis

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Provides a comprehensive treatment of nonlinear finite element analysis, covering both theoretical foundations and practical applications. It valuable resource for understanding the underlying principles behind Perform-3D's nonlinear analysis capabilities. The book delves into advanced topics such as material nonlinearity, geometric nonlinearity, and contact problems, offering a deeper understanding of the complexities involved in nonlinear structural analysis. It is often used as a graduate-level textbook.

Isogeometric Analysis: Toward Integration of CAD...

Hardcover

$$$$

PPI PE Civil Study Guide, 17th Edition eText - 1...

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Provides a comprehensive overview of seismic design principles and practices. Since the course covers dynamic loading and time history analysis, understanding seismic design is crucial. This book offers a solid foundation in seismic design concepts, including response spectra, modal analysis, and ductility considerations. It useful reference for understanding how Perform-3D can be used for seismic analysis and design.

PPI PE Civil Study Guide, 17th Edition eText - 1...

Paperback

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PPI PE Civil Study Guide, 17th Edition eText - 1...

Kindle Edition

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Nonlinear Structural Analysis With Perform-3D

What's inside

Syllabus

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Reviews summary

Practical perform-3d nonlinear analysis

Activities

Career center

Reading list

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