I remember having an introductory lesson about this during our lesson in Pavement Design (I am a Civil Engineering graduate). At that time I was trying to relate it to our past Differential Equations subject of mass-spring-dashpot mechanical systems, but it seems like the concept was different. It was hard for me to formulate a mneumonics at that time. Thank you for a wonderful video about this topic.
Very clear explanation in 10 min! The origin of the viscoelasticity and the characteristics of the three models are well explained and illustrated. I learn a lot! Thank you so much!
thank you for this amazing video. Is it possible to find the mass law of motion for a generalized KV or Max model, like a spring-damper system with an external force?
thank you for this amazing presentation. iw anna assk you about modeling some polymers like shape memory polymers , in order to predict the shape memory under some loading !!
it's very nice video I'm kinda curious in the standard linear visco elastic if the spring & were placed (if spring is below & dash on up) would that wouldn't change differential equation ?
I remember having an introductory lesson about this during our lesson in Pavement Design (I am a Civil Engineering graduate). At that time I was trying to relate it to our past Differential Equations subject of mass-spring-dashpot mechanical systems, but it seems like the concept was different. It was hard for me to formulate a mneumonics at that time. Thank you for a wonderful video about this topic.
Very clear explanation in 10 min! The origin of the viscoelasticity and the characteristics of the three models are well explained and illustrated. I learn a lot! Thank you so much!
Thanks for the feedback. Glad it was helpful!
THIS video amazing. thank you very much i am so lucky to find channel like this
thank you for this amazing video. Is it possible to find the mass law of motion for a generalized KV or Max model, like a spring-damper system with an external force?
Thank you
So clear and simple explication
Glad it was helpful! Thanks for the feedback.
Sir, your videos are really helpful. Will you please do the video about polymer testing (including static and dynamic tensile...)
Thanks for your feedback. We will definitely try.
Thank you very much, good video. Greetings from Germany.
can I apply the three models to simulate the viscoelasticity of three-component systems?
What a great explanation thanks
Thank you for the feedback!
Your videos are most beneficial
Thank you.
thank you for this amazing presentation. iw anna assk you about modeling some polymers like shape memory polymers , in order to predict the shape memory under some loading !!
very good video and explanation.
Glad you liked it!
it's very nice video I'm kinda curious in the standard linear visco elastic if the spring & were placed (if spring is below & dash on up) would that wouldn't change differential equation ?
Hi, the equation will depends on the way spring and dashpot are connected like in series or in parallel but up or down will not change the equation.
That is not true, there is a big difference between viscous and plastic deformation
Is these equations are important for GATE Exam???
Yes. These equations are important for GATE. Numerical and theoretical questions based on these equations were asked in previous GATE exams.
Good explanation
Thanks for your feedback!
Thank you for posting the video. Nice explanations.
Thanks for your feedback.
NICE
kindly give me the pdf of this presentation please sir
wtf
Atleast one of the equations should have been derived .
epic.
Thanks for the feedback. Glad it was helpful.
Yar urdu me bnayaya kro video English me samjh nai ata
are Hindi m banaya kro yr
Soon we will upload videos in Hindi too. Thanks for watching our videos.