I like all yours lectures, please never stop doing the great work you are doing, your lectures are a god sent gift for people who can't afford fees for expensive lectures
Man, props to the great editing and explanation of this topic! I’ve seen PAID courses with way less quality than your video Keep up the amazing work and I hope I can keep on watching your videos You just earned a new sub 😎
thanks you so much for this useful lecture. i just have a question about the way to define Pb load based on External load ( 03:44 ) My understanding, for the pre-load condition, Bolt is under tensile load and members are under compression load. Then if we apply external load in tensile direction ( tensile load ), then members will be released the force. Mean that : force in bolt = Fi + Pexternal and Clamping force in plates = Fi - Pexternal Then it should not has C factor - Stiffness constant of the joint. please correct me if i was wrong. thank you so much !
I personally have Shigley's Mechanical Engineering Design 11th edition (Chapter 8) and the video supports everyhting in the book. His videos are more clear and straight to the point.
Thanks! I was using a Surface Pro and the Whiteboard app. I've transitioned to an iPad Air 2020 since because of the constant stutter and slowdowns in Whiteboard
Greetings! Another amazing lecture, thank you. Just one question related to the final example, about the value of the fc friction coefficient. Are both (fc and f) 0.15? Shigley do not show the value for the fc coefficient in a steel-steel combination.
Yeah, the 0.15 values are just an assumption. Shigley's in fact doesn't show that steel to steel coefficient of friction. And thank you for the compliments!
Do not let this person or anyone who believes this near any substantial engineering project. This is the same mistake made in Eurocode 2 some years ago and has probably resulted in thousands of building and bridges across Europe being improperly designed.
who gives a shyt what you think or believe?😏its obvious you have never been in a classroom where such simplifications are common..we all know what is required,we are not dumb brainiac🤬
@@Dwindledoodoo Hilti book showed the torque for the selected studs on a power station project as 270Nm. this was about 2007. Then the new codes were published and the new Hilti book said 150Nm. The workings that were published with the new code showed fasteners subject to factors of safety as though they were a concrete slab or a structural beam which is ridiculous. I put this to Hilti and it was referred back to their top people in Lichtenstein. The answer came back that yes, they knew it was wrong but it was the law now so they had to do it that way. So every building and piece of machinery in Europe is going to be improperly fixed to the ground? Yes. It's the law now. Not impressed. I haven't been doing that kind of work so I have no idea if any of that has been fixed in the intervening years.
I like all yours lectures, please never stop doing the great work you are doing, your lectures are a god sent gift for people who can't afford fees for expensive lectures
Man, props to the great editing and explanation of this topic!
I’ve seen PAID courses with way less quality than your video
Keep up the amazing work and I hope I can keep on watching your videos
You just earned a new sub 😎
My goodness.. your tutorial is awesome !
Thank you !
Excellent clear explanations.
thanks you so much for this useful lecture.
i just have a question about the way to define Pb load based on External load ( 03:44 )
My understanding, for the pre-load condition, Bolt is under tensile load and members are under compression load.
Then if we apply external load in tensile direction ( tensile load ), then members will be released the force.
Mean that : force in bolt = Fi + Pexternal
and Clamping force in plates = Fi - Pexternal
Then it should not has C factor - Stiffness constant of the joint.
please correct me if i was wrong.
thank you so much !
Thankyou for your explanation, It is going to be helpful for my exam tomorrow.
Thank u very much ... Now i can solve all the gate questions
Great 👍
Thank you for your hard work! Do you have example where it asks for calculations finding the type of bolt (known weight, and external force)?
What software are you using to present all these items?
Thank you so much
Great job explaining! Is there a reference book to this information?
I personally have Shigley's Mechanical Engineering Design 11th edition (Chapter 8) and the video supports everyhting in the book. His videos are more clear and straight to the point.
would you give us the slides or pdf to just keep up, and thank you for the videos.
Hi, thanks for the great video.
which drawing pad are you using sir ?
Thanks! I was using a Surface Pro and the Whiteboard app. I've transitioned to an iPad Air 2020 since because of the constant stutter and slowdowns in Whiteboard
Greetings! Another amazing lecture, thank you. Just one question related to the final example, about the value of the fc friction coefficient. Are both (fc and f) 0.15? Shigley do not show the value for the fc coefficient in a steel-steel combination.
Yeah, the 0.15 values are just an assumption. Shigley's in fact doesn't show that steel to steel coefficient of friction. And thank you for the compliments!
The equation shown at 5:42 (Fm = Pm - Fi), Fm is different from what you are stating and what is seen on the graph (Fm = Fi - Pm).
Actually you are correct and my comment is mistaken. The graph shows the y-axis as absolute value |F|. So your equation for Fm is correctly depicted.
Do not let this person or anyone who believes this near any substantial engineering project. This is the same mistake made in Eurocode 2 some years ago and has probably resulted in thousands of building and bridges across Europe being improperly designed.
who gives a shyt what you think or believe?😏its obvious you have never been in a classroom where such simplifications are common..we all know what is required,we are not dumb brainiac🤬
what do you mean? what happened?
@@Dwindledoodoo Hilti book showed the torque for the selected studs on a power station project as 270Nm. this was about 2007. Then the new codes were published and the new Hilti book said 150Nm. The workings that were published with the new code showed fasteners subject to factors of safety as though they were a concrete slab or a structural beam which is ridiculous. I put this to Hilti and it was referred back to their top people in Lichtenstein. The answer came back that yes, they knew it was wrong but it was the law now so they had to do it that way. So every building and piece of machinery in Europe is going to be improperly fixed to the ground? Yes. It's the law now. Not impressed. I haven't been doing that kind of work so I have no idea if any of that has been fixed in the intervening years.