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Teodomiro Boronat Vitoria,
Rafael Antonio Balart Gimeno Balart Gimeno,
Luís Jesús Quiles Carrillo,
Juan Ivorra Martínez,
and
Daniel García García
Los materiales poliméricos se caracterizan por tener un comportamiento viscoelástico lo cual implica que sus propiedades mecánicas surgen de la combinación de unas propiedades elásticas y viscosas. Estos también se caracterizan por tener un comportamiento diferente cuando la aplicación de esfuerzos es a corto plazo o en cambio se prolonga a lo largo del tiempo. Por este motivo, para el diseño de componentes con materiales poliméricos se debe de tener en consideración el comportamiento viscoelástico.
Read more
Los materiales poliméricos se caracterizan por tener un comportamiento viscoelástico lo cual implica que sus propiedades mecánicas surgen de la combinación de unas propiedades elásticas y viscosas. Estos también se caracterizan por tener un comportamiento diferente cuando la aplicación de esfuerzos es a corto plazo o en cambio se prolonga a lo largo del tiempo. Por este motivo, para el diseño de componentes con materiales poliméricos se debe de tener en consideración el comportamiento viscoelástico.
Read more
Los materiales poliméricos se caracterizan por tener un comportamiento viscoelástico lo cual implica que sus propiedades mecánicas surgen de la combinación de unas propiedades elásticas y viscosas. Estos también se caracterizan por tener un comportamiento diferente cuando la aplicación de esfuerzos es a corto plazo o en cambio se prolonga a lo largo del tiempo. Por este motivo, para el diseño de componentes con materiales poliméricos se debe de tener en consideración el comportamiento viscoelástico.
What you'll learn
En este curso, aprenderás los diferentes modelos de comportamiento que surgen para cuantificar el comportamiento de los polímeros, así como la respuesta de los sólido viscoelástico ante la acción de diferentes esfuerzos.
Register for this course and see more details by visiting:
OpenCourser.com/course/528k1h/viscoelasticidad
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What's inside
Syllabus
Introducción al comportamiento viscoelástico
Modelos de viscoelasticidad simplificados
Modelos de viscoelasticidad avanzados
Respuesta de materiales viscoelásticos en condiciones dinámicas
Read more
Syllabus
Introducción al comportamiento viscoelástico
Modelos de viscoelasticidad simplificados
Modelos de viscoelasticidad avanzados
Respuesta de materiales viscoelásticos en condiciones dinámicas
Read more
Good to know
Good to know
Know what's good ,
what to watch for , and
possible dealbreakers
Dirigido a profesionales del sector y estudiantes de ingeniería que desean profundizar en el modelado de materiales poliméricos viscoelásticos
Proporciona una sólida base para comprender el comportamiento de los materiales poliméricos en condiciones reales
Impartido por profesores de la Universidad Politécnica de Valencia, reconocidos por su investigación en el campo de la ciencia de los materiales
El plan de estudios cubre tanto modelos simplificados como avanzados, lo que permite a los alumnos profundizar en el tema
Aborda el comportamiento viscoelástico en condiciones dinámicas, lo que lo hace relevante para aplicaciones prácticas
Requiere conocimientos previos en mecánica de sólidos y matemáticas aplicadas
Save this course
Save Viscoelasticidad y comportamiento mecánico-dinámico de materiales poliméricos. Modelización to your list so you can find it easily later:
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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 Viscoelasticidad y comportamiento mecánico-dinámico de materiales poliméricos. Modelización with these
activities:
Revise basic polymer science concepts
Show steps
Preparing your foundational understanding of polymer science will help you hit the ground running when the class begins.
Show steps
-
Review your notes from previous polymer science courses.
-
Read through introductory chapters from the course textbook.
-
Watch online videos or tutorials on polymer science basics.
Join a study group for viscoelasticity
Show steps
Joining a study group will provide you with opportunities to discuss the material with your peers and get help from others.
Show steps
-
Find a study group or create your own.
-
Meet regularly to discuss the course material.
-
Work together on problem sets and projects.
Solve viscoelasticity problems
Show steps
Solving viscoelasticity problems will help you solidifyout your understanding of the theory and develop your problem-solving skills.
Show steps
-
Find practice problems in your textbook or online.
-
Work through the problems step-by-step.
-
Check your answers against the provided solutions.
Five other activities
Expand to see all activities and additional details
Show all eight activities
Follow tutorials on viscoelasticity
Show steps
Following tutorials on viscoelasticity will help you learn the concepts and techniques used in the field.
Show steps
-
Search for online tutorials on viscoelasticity.
-
Choose a tutorial that is appropriate for your level of understanding.
-
Follow the tutorial step-by-step.
Volunteer at a materials science lab
Show steps
Volunteering at a materials science lab will give you practical experience with viscoelastic materials and help you connect with professionals in the field.
Browse courses on
Materials Science
Show steps
-
Find a materials science lab that is looking for volunteers.
-
Contact the lab and inquire about volunteer opportunities.
-
Attend training and orientation sessions.
-
Assist with research projects and other lab activities.
Create a visual presentation on viscoelasticity
Show steps
Creating a visual presentation on viscoelasticity will help you synthesize your understanding of the topic and improve your communication skills.
Show steps
-
Choose a topic related to viscoelasticity.
-
Research the topic and gather information.
-
Create a visual presentation using slides, images, and videos.
Contribute to an open-source viscoelasticity project
Show steps
Contributing to an open-source project will give you hands-on experience with viscoelasticity and help you build your portfolio.
Show steps
-
Find an open-source viscoelasticity project that interests you.
-
Read the project documentation and get familiar with the codebase.
-
Start contributing to the project by fixing bugs, adding features, or improving documentation.
Create a study guide for viscoelasticity
Show steps
Creating a study guide will help you organize your notes and prepare for exams.
Show steps
-
Gather your notes, handouts, and other course materials.
-
Identify the key concepts and topics covered in the course.
-
Summarize the key points in a clear and concise manner.
Revise basic polymer science concepts
Show steps
Preparing your foundational understanding of polymer science will help you hit the ground running when the class begins.
Show steps
Show steps
Show steps
- Review your notes from previous polymer science courses.
- Read through introductory chapters from the course textbook.
- Watch online videos or tutorials on polymer science basics.
Join a study group for viscoelasticity
Show steps
Joining a study group will provide you with opportunities to discuss the material with your peers and get help from others.
Show steps
Show steps
Show steps
- Find a study group or create your own.
- Meet regularly to discuss the course material.
- Work together on problem sets and projects.
Solve viscoelasticity problems
Show steps
Solving viscoelasticity problems will help you solidifyout your understanding of the theory and develop your problem-solving skills.
Show steps
Show steps
Show steps
- Find practice problems in your textbook or online.
- Work through the problems step-by-step.
- Check your answers against the provided solutions.
Five other activities
Expand to see all activities and additional details
Show all eight activities
Follow tutorials on viscoelasticity
Show steps
Following tutorials on viscoelasticity will help you learn the concepts and techniques used in the field.
Show steps
Show steps
Show steps
- Search for online tutorials on viscoelasticity.
- Choose a tutorial that is appropriate for your level of understanding.
- Follow the tutorial step-by-step.
Volunteer at a materials science lab
Show steps
Volunteering at a materials science lab will give you practical experience with viscoelastic materials and help you connect with professionals in the field.
Browse courses on
Materials Science
Show steps
Show steps
Show steps
- Find a materials science lab that is looking for volunteers.
- Contact the lab and inquire about volunteer opportunities.
- Attend training and orientation sessions.
- Assist with research projects and other lab activities.
Create a visual presentation on viscoelasticity
Show steps
Creating a visual presentation on viscoelasticity will help you synthesize your understanding of the topic and improve your communication skills.
Show steps
Show steps
Show steps
- Choose a topic related to viscoelasticity.
- Research the topic and gather information.
- Create a visual presentation using slides, images, and videos.
Contribute to an open-source viscoelasticity project
Show steps
Contributing to an open-source project will give you hands-on experience with viscoelasticity and help you build your portfolio.
Show steps
Show steps
Show steps
- Find an open-source viscoelasticity project that interests you.
- Read the project documentation and get familiar with the codebase.
- Start contributing to the project by fixing bugs, adding features, or improving documentation.
Create a study guide for viscoelasticity
Show steps
Creating a study guide will help you organize your notes and prepare for exams.
Show steps
Show steps
Show steps
- Gather your notes, handouts, and other course materials.
- Identify the key concepts and topics covered in the course.
- Summarize the key points in a clear and concise manner.
Career center
Learners who complete Viscoelasticidad y comportamiento mecánico-dinámico de materiales poliméricos. Modelización will develop knowledge and skills
that may be useful to these careers:
Materials Characterization Scientist
Materials Characterization Scientist
Materials Characterization Scientists use a variety of techniques to characterize the properties of materials. This course could be useful for Materials Characterization Scientists as it will give them a deeper understanding of the viscoelastic behavior of polymers, which could help them to develop new techniques to characterize this behavior.
Polymer Engineer
Polymer Engineer
Polymer Engineers design and develop new polymers and polymer-based products. This course could be useful for Polymer Engineers as it will give them a deeper understanding of the viscoelastic behavior of polymers, which could help them to design and develop new polymers with improved properties.
Polymer Chemist
Polymer Chemist
Polymer Chemists synthesize and characterize new polymers. This course could be useful for Polymer Chemists as it will give them a deeper understanding of the viscoelastic behavior of polymers, which could help them to synthesize new polymers with improved properties.
Polymer Physicist
Polymer Physicist
Polymer Physicists study the physical properties of polymers, including their viscoelastic behavior. This course could be useful for Polymer Physicists as it will give them a deeper understanding of the viscoelastic behavior of polymers, which could help them to develop new theories and models to describe this behavior.
Technical Writer
Technical Writer
Technical Writers write technical documents, such as manuals, reports, and specifications. This course could be useful for Technical Writers as it will give them a deeper understanding of the viscoelastic behavior of polymers, which could help them to write more accurate and informative documents.
Biomedical Engineer
Biomedical Engineer
Biomedical Engineers design and develop medical devices and equipment. This course could be useful for Biomedical Engineers as it will give them a deeper understanding of the viscoelastic behavior of polymers, which could help them to design and develop more effective medical devices and equipment.
Civil Engineer
Civil Engineer
Civil Engineers design and develop civil infrastructure, such as bridges, buildings, and roads. This course could be useful for Civil Engineers as it will give them a deeper understanding of the viscoelastic behavior of polymers, which could help them to design and develop more durable and resilient civil infrastructure.
Mechanical Engineer
Mechanical Engineer
Mechanical Engineers design and develop mechanical systems and components. This course could be useful for Mechanical Engineers as it will give them a deeper understanding of the viscoelastic behavior of polymers, which could help them to design and develop more efficient and effective mechanical systems and components.
Manufacturing Engineer
Manufacturing Engineer
Manufacturing Engineers design and develop manufacturing processes. This course could be useful for Manufacturing Engineers as it will give them a deeper understanding of the viscoelastic behavior of polymers, which could help them to design and develop more efficient and effective manufacturing processes.
Research Scientist
Research Scientist
Research Scientists conduct research in a variety of fields. This course could be useful for Research Scientists as it will give them a deeper understanding of the viscoelastic behavior of polymers, which could help them to develop new theories and models to describe this behavior.
Product Development Scientist
Product Development Scientist
Product Development Scientists develop new products and improve existing ones. This course could be useful for Product Development Scientists as it will give them a deeper understanding of the viscoelastic behavior of polymers, which could help them to develop new products with improved properties.
Nuclear Engineer
Nuclear Engineer
Nuclear Engineers design and develop nuclear power plants and other nuclear facilities. This course could be useful for Nuclear Engineers as it will give them a deeper understanding of the viscoelastic behavior of polymers, which could help them to design and develop more safe and efficient nuclear power plants and other nuclear facilities.
Materials Scientist
Materials Scientist
Materials Scientists use their knowledge of the physical and chemical properties of matter to develop new materials or improve existing ones. This course may be useful for Materials Scientists as it will give them a deeper understanding of the viscoelastic behavior of polymers, which could help them to develop new polymers with improved properties.
Chemical Engineer
Chemical Engineer
Chemical Engineers design and develop chemical processes and plants. This course could be useful for Chemical Engineers as it will give them a deeper understanding of the viscoelastic behavior of polymers, which could help them to design and develop more efficient and effective chemical processes and plants.
Quality Assurance Manager
Quality Assurance Manager
Quality Assurance Managers ensure that products meet quality standards. This course could be useful for Quality Assurance Managers as it will give them a deeper understanding of the viscoelastic behavior of polymers, which could help them to develop and implement quality control procedures.
For more career information including salaries, visit:
OpenCourser.com/course/528k1h/viscoelasticidad
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
Viscoelasticidad y comportamiento mecánico-dinámico de materiales poliméricos. Modelización.
Este clásico texto es una referencia exhaustiva sobre el comportamiento viscoelástico de los polímeros. Ofrece una cobertura avanzada de los modelos y técnicas experimentales utilizados para caracterizar las propiedades viscoelásticas.
Este libro se centra en los sólidos viscoelásticos, proporcionando una comprensión detallada de sus propiedades y comportamiento. Es una lectura valiosa para aquellos que buscan una comprensión profunda del comportamiento viscoelástico.
Este libro clásico proporciona una base sólida en la mecánica de sólidos, incluyendo el comportamiento viscoelástico. Es una lectura valiosa para aquellos que buscan una comprensión fundamental del comportamiento de los materiales viscoelásticos.
Este libro proporciona una base teórica para el modelado del comportamiento viscoelástico de los materiales. Es una lectura valiosa para aquellos que buscan una comprensión más profunda de los fundamentos del curso.
Este libro proporciona una cobertura avanzada de la mecánica de materiales, incluyendo el comportamiento viscoelástico. Ofrece una comprensión detallada de los modelos y técnicas utilizados para analizar el comportamiento de los materiales viscoelásticos.
Este libro ofrece una visión general de los principios de la ingeniería de polímeros, incluyendo el comportamiento viscoelástico. Es una lectura útil para aquellos que buscan una comprensión práctica del comportamiento viscoelástico en aplicaciones industriales.
Este libro proporciona una cobertura integral de las propiedades y la selección de los materiales de ingeniería, incluyendo los polímeros. Ofrece información sobre el comportamiento viscoelástico y cómo afecta a las aplicaciones de los materiales.
Este libro ofrece una introducción a los fundamentos de la viscoelasticidad de los polímeros. Es una lectura útil para aquellos que buscan una base sólida en los principios teóricos que subyacen al comportamiento viscoelástico.
Este libro ofrece una visión general completa de los materiales poliméricos, incluyendo sus propiedades viscoelásticas. Es una lectura útil para aquellos que buscan un contexto más amplio sobre el comportamiento viscoelástico en el contexto de otros aspectos de los materiales poliméricos.
For more information about how these books relate to this course, visit:
OpenCourser.com/course/528k1h/viscoelasticidad
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Effort
3 to 4 hours per week for 4 weeks
Level
Introductory
Via
edX
Institution
Universitat Politècnica de València
Instructors
Teodomiro Boronat Vitoria
Rafael Antonio Balart Gimeno Balart Gimeno
Luís Jesús Quiles Carrillo
Juan Ivorra Martínez
Daniel García García
Language
Español
Transcript
Español
Good to know
Dirigido a profesionales del sector y estudiantes de ingeniería que desean profundizar en el modelado de materiales poliméricos viscoelásticos
Proporciona una sólida base para comprender el comportamiento de los materiales poliméricos en condiciones reales
Impartido por profesores de la Universidad Politécnica de Valencia, reconocidos por su investigación en el campo de la ciencia de los materiales
El plan de estudios cubre tanto modelos simplificados como avanzados, lo que permite a los alumnos profundizar en el tema
Aborda el comportamiento viscoelástico en condiciones dinámicas, lo que lo hace relevante para aplicaciones prácticas
Requiere conocimientos previos en mecánica de sólidos y matemáticas aplicadas
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