-
Why Concrete Needs Reinforcement
More destructive testing to answer your questions about concrete.
Concrete's greatest weakness is its tensile strength, which can be less than 10% of its compressive strength. So, we often reinforce it to create a composite material strong against all types of stress. This video briefly touches on conventional rebar and prestressed/post-tensioned reinforcement.
Watch this video and the entire Practical Engineering catalog ad-free on Nebula: https://go.nebula.tv/practical-engineering
-Patreon: http://patreon.com/PracticalEngineering
-Website: http://practical.engineering
Marxist Arrow by Twin Musicom is licensed under a Creative Commons Attribution License
Source: https://www.youtube.com/watch?v=rBlLC8TUXP0
Tonic and Energy by Elexive is licensed under a Creative Commons Attribution Li...
published: 25 Apr 2018
-
Concrete Force - Burned at the Stake
First track from the album "Mental Enforcers"
Lyrics:
Another victim of the inquisition
Accused of black witchery
The crowd gathers to witness his death
The mob is waiting to see
chorus:
Chained at the stake
As the flames burn
Cursing the priest
Soon he''ll return
He''ll have his vengeance
None shall escape
Don't ask what their fate will be
Burned at the stake!
Melting his face burning his flesh
Feeling his blood start to boil
Punishment ends hypocrites laugh
Dead bodies feeding their lust
chorus
Night has fallen, emptiness
Frigid cold, smell of death
In the darkness spirits call
Through the ashes I reborn
Returning as plague to poison the wells
Whole of the village will die
As priest took his life he shall take his
Alive he'll make him fry
c...
published: 08 Sep 2009
-
Strength Testing of Concrete Bridge - Lesson 3, Unit 8.1 Contact Forces
Strength Testing of Concrete Double-Tee Bridge Beam.
This video is part of the OpenSciEd Middle School Science Curriculum. For more information and to find the entire curriculum, visit www.openscied.org. Video by Dr. Mostafa Tazrv, Assistant Professor, Department of Civil Env. Engineering, South Dakota State University. CC BY-4.0.
published: 25 Sep 2020
-
Steel-Rod-Reinforced CONCRETE Beam Bending in 3 Minutes! - MoM
Reinforced Concrete
Steel Rods
Transformed Section Method
Composite Plates
Bending Stress
Example 1: https://youtu.be/r5Lo_NdwzRc
Example 2: https://youtu.be/-lhzeA8NfkI
Example 3: https://youtu.be/Fiq7OHvB8CI
Main Video Link:
All about TRANSFORMED SECTIONS Bending in 10 Minutes!! - Mechanics of Materials
https://youtu.be/0JjbHshSq1I
_____________________________________________________________
Other Mechanics of Materials Lectures:
Watch the entire course in less than 4 HOURS!!
01 Axial Loading Normal Stress: https://youtu.be/jQ-fNqZWrNg
02 Shearing Strain and Stress Components: https://youtu.be/OT2lOcf2zwU
03 Axial Deformation, Temperature Changes, and Poisson’s Ratio: https://youtu.be/ZCV_zagQIXI
04 Statically Indeterminate: https://youtu.be/IAiyaFKm1ZQ
05 Stress Concentrations ...
published: 19 Feb 2021
-
Resisting Shear - Bare Essentials of Reinforced Concrete with Prof Tim Ibell Pt5
World-leading reinforced concrete expert Professor Tim Ibell introduces viewers to reinforced concrete. This is the second in the Bare Essentials of Concrete series: the key things people who are studying construction or who are working in construction need to understand about concrete.
Professor Ibell is Associate Dean at the Faculty of Engineering and Design at the University of Bath. In this video he describes the underlying reasons why we reinforce concrete, how concrete and steel work together and the main principles that engineers apply to produce reinforced concrete structures.
Learning outcomes
Failure in shear mode.
Resisting shear forces.
How shear reinforcement works.
About the Bare Essentials of Concrete Series
This video is part of the Bare Essentials of Concrete Series, ...
published: 03 Jun 2015
-
Typical Reinforcement in a Concrete Beam
Hi guys, this is Structures Explained, and in this video we are going to discuss about typical reinforcement detail in a concrete beam.
Reinforcement are essential part of a concrete beam. It resists tension forces, increase the compression capacity, enhance ductility and reduce long-term deflections in the concrete.
Additionally, reinforcement prevent cracking of concrete due to shear stresses, shrinkage and temperature stresses.
First we will see the reinforcement distribution in a single span beam and later we will have a look at multi span or continuous beams.
Types to reinforcement covered in this video are: Bottom bars, Top bars, Side bars and Stirrups.
More such videos on reinforcement will follow on this channel, so do subscribe and hit the bell icon to get notified every time w...
published: 25 Apr 2020
-
The steel pipe is filled with concrete and subjected to a compressive force of 80kN. Determine the..
Problem statement: The steel pipe is filled with concrete and subjected to a compressive force of 80kN. Determine the average normal stress in the concrete and the steel due to this loading. The pipe has an outer diameter of 80mm and an inner diameter of 70mm. Est=200 Gpa, Ec=24 Gpa
Instagram: https://www.instagram.com/engineering_made_possible/
published: 26 Feb 2023
-
Why use reinforcement in Concrete
This video looks at the relationship between Concrete and Steel in Reinforced concrete. While Concrete is strong in Compression it is weak in Tension whereas Steel is Strong in Tension ans weak in Compression.
If you like this video please subscribe to my channel https://www.youtube.com/Buildsum
For similar videos check out
https://www.youtube.com/watch?v=tx90Zo0Xyds
https://www.youtube.com/watch?v=nr8cDVwDwxs
published: 04 May 2014
-
Over-Reinforced Concrete Beam Test
Check out the beam! Song Cred: Avicii - Levels
published: 16 Nov 2016
-
How to solve pure bending problems for reinforced concrete
This mechanics of materials tutorial shows how to solve pure bending problems for reinforced concrete. Please note that there is a typo in the video: at 7:00 I say "cubed" but write "squared." I should have written "cubed" but my hand was off doing it's own thing. That first term should be written as I said: (1/3)bx^3. Sorry for any confusion that caused.
If you found this video helpful, please consider supporting my work on Patreon:
https://www.patreon.com/Engineer4Free
Looking for more mechanics of material tutorials? Check out all of the videos that I made:
YouTube: https://www.youtube.com/playlist?list=PLOAuB8dR35oft2ZLc1sHseypNMAiG_TeJ
Website: https://www.engineer4free.com/mechanics-of-materials
Looking for software? I highly recommend checking out SkyCiv. They make a full suite ...
published: 19 Jul 2017
8:11
Why Concrete Needs Reinforcement
More destructive testing to answer your questions about concrete.
Concrete's greatest weakness is its tensile strength, which can be less than 10% of its compr...
More destructive testing to answer your questions about concrete.
Concrete's greatest weakness is its tensile strength, which can be less than 10% of its compressive strength. So, we often reinforce it to create a composite material strong against all types of stress. This video briefly touches on conventional rebar and prestressed/post-tensioned reinforcement.
Watch this video and the entire Practical Engineering catalog ad-free on Nebula: https://go.nebula.tv/practical-engineering
-Patreon: http://patreon.com/PracticalEngineering
-Website: http://practical.engineering
Marxist Arrow by Twin Musicom is licensed under a Creative Commons Attribution License
Source: https://www.youtube.com/watch?v=rBlLC8TUXP0
Tonic and Energy by Elexive is licensed under a Creative Commons Attribution License
Source: https://www.youtube.com/watch?v=U6fBPdu8w9U
This video was sponsored by Skillshare.
https://wn.com/Why_Concrete_Needs_Reinforcement
More destructive testing to answer your questions about concrete.
Concrete's greatest weakness is its tensile strength, which can be less than 10% of its compressive strength. So, we often reinforce it to create a composite material strong against all types of stress. This video briefly touches on conventional rebar and prestressed/post-tensioned reinforcement.
Watch this video and the entire Practical Engineering catalog ad-free on Nebula: https://go.nebula.tv/practical-engineering
-Patreon: http://patreon.com/PracticalEngineering
-Website: http://practical.engineering
Marxist Arrow by Twin Musicom is licensed under a Creative Commons Attribution License
Source: https://www.youtube.com/watch?v=rBlLC8TUXP0
Tonic and Energy by Elexive is licensed under a Creative Commons Attribution License
Source: https://www.youtube.com/watch?v=U6fBPdu8w9U
This video was sponsored by Skillshare.
- published: 25 Apr 2018
- views: 11240606
3:48
Concrete Force - Burned at the Stake
First track from the album "Mental Enforcers"
Lyrics:
Another victim of the inquisition
Accused of black witchery
The crowd gathers to witness his death...
First track from the album "Mental Enforcers"
Lyrics:
Another victim of the inquisition
Accused of black witchery
The crowd gathers to witness his death
The mob is waiting to see
chorus:
Chained at the stake
As the flames burn
Cursing the priest
Soon he''ll return
He''ll have his vengeance
None shall escape
Don't ask what their fate will be
Burned at the stake!
Melting his face burning his flesh
Feeling his blood start to boil
Punishment ends hypocrites laugh
Dead bodies feeding their lust
chorus
Night has fallen, emptiness
Frigid cold, smell of death
In the darkness spirits call
Through the ashes I reborn
Returning as plague to poison the wells
Whole of the village will die
As priest took his life he shall take his
Alive he'll make him fry
chorus
Heathen, returned
Heathen, back from the dead
Reborn, reborn, reborn
Reborn through the spell
https://wn.com/Concrete_Force_Burned_At_The_Stake
First track from the album "Mental Enforcers"
Lyrics:
Another victim of the inquisition
Accused of black witchery
The crowd gathers to witness his death
The mob is waiting to see
chorus:
Chained at the stake
As the flames burn
Cursing the priest
Soon he''ll return
He''ll have his vengeance
None shall escape
Don't ask what their fate will be
Burned at the stake!
Melting his face burning his flesh
Feeling his blood start to boil
Punishment ends hypocrites laugh
Dead bodies feeding their lust
chorus
Night has fallen, emptiness
Frigid cold, smell of death
In the darkness spirits call
Through the ashes I reborn
Returning as plague to poison the wells
Whole of the village will die
As priest took his life he shall take his
Alive he'll make him fry
chorus
Heathen, returned
Heathen, back from the dead
Reborn, reborn, reborn
Reborn through the spell
- published: 08 Sep 2009
- views: 4935
0:53
Strength Testing of Concrete Bridge - Lesson 3, Unit 8.1 Contact Forces
Strength Testing of Concrete Double-Tee Bridge Beam.
This video is part of the OpenSciEd Middle School Science Curriculum. For more information and to find the ...
Strength Testing of Concrete Double-Tee Bridge Beam.
This video is part of the OpenSciEd Middle School Science Curriculum. For more information and to find the entire curriculum, visit www.openscied.org. Video by Dr. Mostafa Tazrv, Assistant Professor, Department of Civil Env. Engineering, South Dakota State University. CC BY-4.0.
https://wn.com/Strength_Testing_Of_Concrete_Bridge_Lesson_3,_Unit_8.1_Contact_Forces
Strength Testing of Concrete Double-Tee Bridge Beam.
This video is part of the OpenSciEd Middle School Science Curriculum. For more information and to find the entire curriculum, visit www.openscied.org. Video by Dr. Mostafa Tazrv, Assistant Professor, Department of Civil Env. Engineering, South Dakota State University. CC BY-4.0.
- published: 25 Sep 2020
- views: 29345
3:32
Steel-Rod-Reinforced CONCRETE Beam Bending in 3 Minutes! - MoM
Reinforced Concrete
Steel Rods
Transformed Section Method
Composite Plates
Bending Stress
Example 1: https://youtu.be/r5Lo_NdwzRc
Example 2: https://youtu.be/-...
Reinforced Concrete
Steel Rods
Transformed Section Method
Composite Plates
Bending Stress
Example 1: https://youtu.be/r5Lo_NdwzRc
Example 2: https://youtu.be/-lhzeA8NfkI
Example 3: https://youtu.be/Fiq7OHvB8CI
Main Video Link:
All about TRANSFORMED SECTIONS Bending in 10 Minutes!! - Mechanics of Materials
https://youtu.be/0JjbHshSq1I
_____________________________________________________________
Other Mechanics of Materials Lectures:
Watch the entire course in less than 4 HOURS!!
01 Axial Loading Normal Stress: https://youtu.be/jQ-fNqZWrNg
02 Shearing Strain and Stress Components: https://youtu.be/OT2lOcf2zwU
03 Axial Deformation, Temperature Changes, and Poisson’s Ratio: https://youtu.be/ZCV_zagQIXI
04 Statically Indeterminate: https://youtu.be/IAiyaFKm1ZQ
05 Stress Concentrations and Factor of Safety: https://youtu.be/kZN0xdPMQzw
06 Shearing Stress, Torsion: https://youtu.be/VJKGB0wibpc
07 Angle of Twist, Statically Indeterminate: https://youtu.be/ZxVkU4O-974
08 Bending Stress, Second Moment of Area, and Parallel Axis Theorem: https://youtu.be/8btK_PhC-2A
09 Stress Concentration Factors for Torsion and Bending: https://youtu.be/a7qxEJPxmMY
10 Beam Deflections & Singularity Functions : https://youtu.be/IW9uvArmypg
11 Transformed Sections for Bending (Composites): https://youtu.be/IW9uvArmypg
12 Transverse Shear: https://youtu.be/4x0E9yvzfCM
13 Shear Flow: https://youtu.be/IQx2uRgUGNU
14 Mohr’s Circle and Principal Stresses: https://youtu.be/aumN-Vl0OhQ
15 Pressure Vessels: https://youtu.be/ic8LmMUr8js
16 Ductile Failure Criteria (Yield): https://youtu.be/FnRp6DDLe0Y
17 Brittle Failure Criteria (Fracture): https://youtu.be/A6kf7b8JcTQ
18 Combined Loading: https://youtu.be/N-PlI900hSg
19 Column Buckling: https://youtu.be/3FNEV6yNUFY
20 Elastoplastic Beams and Residual Stresses (torsion too): coming soon
https://wn.com/Steel_Rod_Reinforced_Concrete_Beam_Bending_In_3_Minutes_Mom
Reinforced Concrete
Steel Rods
Transformed Section Method
Composite Plates
Bending Stress
Example 1: https://youtu.be/r5Lo_NdwzRc
Example 2: https://youtu.be/-lhzeA8NfkI
Example 3: https://youtu.be/Fiq7OHvB8CI
Main Video Link:
All about TRANSFORMED SECTIONS Bending in 10 Minutes!! - Mechanics of Materials
https://youtu.be/0JjbHshSq1I
_____________________________________________________________
Other Mechanics of Materials Lectures:
Watch the entire course in less than 4 HOURS!!
01 Axial Loading Normal Stress: https://youtu.be/jQ-fNqZWrNg
02 Shearing Strain and Stress Components: https://youtu.be/OT2lOcf2zwU
03 Axial Deformation, Temperature Changes, and Poisson’s Ratio: https://youtu.be/ZCV_zagQIXI
04 Statically Indeterminate: https://youtu.be/IAiyaFKm1ZQ
05 Stress Concentrations and Factor of Safety: https://youtu.be/kZN0xdPMQzw
06 Shearing Stress, Torsion: https://youtu.be/VJKGB0wibpc
07 Angle of Twist, Statically Indeterminate: https://youtu.be/ZxVkU4O-974
08 Bending Stress, Second Moment of Area, and Parallel Axis Theorem: https://youtu.be/8btK_PhC-2A
09 Stress Concentration Factors for Torsion and Bending: https://youtu.be/a7qxEJPxmMY
10 Beam Deflections & Singularity Functions : https://youtu.be/IW9uvArmypg
11 Transformed Sections for Bending (Composites): https://youtu.be/IW9uvArmypg
12 Transverse Shear: https://youtu.be/4x0E9yvzfCM
13 Shear Flow: https://youtu.be/IQx2uRgUGNU
14 Mohr’s Circle and Principal Stresses: https://youtu.be/aumN-Vl0OhQ
15 Pressure Vessels: https://youtu.be/ic8LmMUr8js
16 Ductile Failure Criteria (Yield): https://youtu.be/FnRp6DDLe0Y
17 Brittle Failure Criteria (Fracture): https://youtu.be/A6kf7b8JcTQ
18 Combined Loading: https://youtu.be/N-PlI900hSg
19 Column Buckling: https://youtu.be/3FNEV6yNUFY
20 Elastoplastic Beams and Residual Stresses (torsion too): coming soon
- published: 19 Feb 2021
- views: 14462
2:46
Resisting Shear - Bare Essentials of Reinforced Concrete with Prof Tim Ibell Pt5
World-leading reinforced concrete expert Professor Tim Ibell introduces viewers to reinforced concrete. This is the second in the Bare Essentials of Concrete se...
World-leading reinforced concrete expert Professor Tim Ibell introduces viewers to reinforced concrete. This is the second in the Bare Essentials of Concrete series: the key things people who are studying construction or who are working in construction need to understand about concrete.
Professor Ibell is Associate Dean at the Faculty of Engineering and Design at the University of Bath. In this video he describes the underlying reasons why we reinforce concrete, how concrete and steel work together and the main principles that engineers apply to produce reinforced concrete structures.
Learning outcomes
Failure in shear mode.
Resisting shear forces.
How shear reinforcement works.
About the Bare Essentials of Concrete Series
This video is part of the Bare Essentials of Concrete Series, funded by CITB and Construct, in which Tim Ibell draws on his many years of practice as a leading researcher in concrete and in teaching to provide viewers with what he regards to be the key knowledge that construction professionals need to understand about reinforced concrete. Accompanying this series are two related series: the Bare Essentials of Concrete; and the Bare Essentials of Pre-stressed Concrete.
This work is licensed under the Creative Commons Attribution-NonCommercial 3.0 Unported License. To view a copy of this license, visit http://creativecommons.org/licenses/b...
https://wn.com/Resisting_Shear_Bare_Essentials_Of_Reinforced_Concrete_With_Prof_Tim_Ibell_Pt5
World-leading reinforced concrete expert Professor Tim Ibell introduces viewers to reinforced concrete. This is the second in the Bare Essentials of Concrete series: the key things people who are studying construction or who are working in construction need to understand about concrete.
Professor Ibell is Associate Dean at the Faculty of Engineering and Design at the University of Bath. In this video he describes the underlying reasons why we reinforce concrete, how concrete and steel work together and the main principles that engineers apply to produce reinforced concrete structures.
Learning outcomes
Failure in shear mode.
Resisting shear forces.
How shear reinforcement works.
About the Bare Essentials of Concrete Series
This video is part of the Bare Essentials of Concrete Series, funded by CITB and Construct, in which Tim Ibell draws on his many years of practice as a leading researcher in concrete and in teaching to provide viewers with what he regards to be the key knowledge that construction professionals need to understand about reinforced concrete. Accompanying this series are two related series: the Bare Essentials of Concrete; and the Bare Essentials of Pre-stressed Concrete.
This work is licensed under the Creative Commons Attribution-NonCommercial 3.0 Unported License. To view a copy of this license, visit http://creativecommons.org/licenses/b...
- published: 03 Jun 2015
- views: 120368
4:19
Typical Reinforcement in a Concrete Beam
Hi guys, this is Structures Explained, and in this video we are going to discuss about typical reinforcement detail in a concrete beam.
Reinforcement are essen...
Hi guys, this is Structures Explained, and in this video we are going to discuss about typical reinforcement detail in a concrete beam.
Reinforcement are essential part of a concrete beam. It resists tension forces, increase the compression capacity, enhance ductility and reduce long-term deflections in the concrete.
Additionally, reinforcement prevent cracking of concrete due to shear stresses, shrinkage and temperature stresses.
First we will see the reinforcement distribution in a single span beam and later we will have a look at multi span or continuous beams.
Types to reinforcement covered in this video are: Bottom bars, Top bars, Side bars and Stirrups.
More such videos on reinforcement will follow on this channel, so do subscribe and hit the bell icon to get notified every time we upload a new video. Also check out other related uploads on the channel.
Shear: https://youtu.be/N-Qqf9KGYuo
Torsion: https://youtu.be/-lTorNQ_I9E
FOLLOW US ON
Facebook 👇
https://www.facebook.com/StructuresExplained/
Instagram 👇
https://www.instagram.com/Structures_Explained/
LinkedIn 👇
https://www.linkedin.com/company/StructuresExplained/
https://wn.com/Typical_Reinforcement_In_A_Concrete_Beam
Hi guys, this is Structures Explained, and in this video we are going to discuss about typical reinforcement detail in a concrete beam.
Reinforcement are essential part of a concrete beam. It resists tension forces, increase the compression capacity, enhance ductility and reduce long-term deflections in the concrete.
Additionally, reinforcement prevent cracking of concrete due to shear stresses, shrinkage and temperature stresses.
First we will see the reinforcement distribution in a single span beam and later we will have a look at multi span or continuous beams.
Types to reinforcement covered in this video are: Bottom bars, Top bars, Side bars and Stirrups.
More such videos on reinforcement will follow on this channel, so do subscribe and hit the bell icon to get notified every time we upload a new video. Also check out other related uploads on the channel.
Shear: https://youtu.be/N-Qqf9KGYuo
Torsion: https://youtu.be/-lTorNQ_I9E
FOLLOW US ON
Facebook 👇
https://www.facebook.com/StructuresExplained/
Instagram 👇
https://www.instagram.com/Structures_Explained/
LinkedIn 👇
https://www.linkedin.com/company/StructuresExplained/
- published: 25 Apr 2020
- views: 117606
6:25
The steel pipe is filled with concrete and subjected to a compressive force of 80kN. Determine the..
Problem statement: The steel pipe is filled with concrete and subjected to a compressive force of 80kN. Determine the average normal stress in the concrete and ...
Problem statement: The steel pipe is filled with concrete and subjected to a compressive force of 80kN. Determine the average normal stress in the concrete and the steel due to this loading. The pipe has an outer diameter of 80mm and an inner diameter of 70mm. Est=200 Gpa, Ec=24 Gpa
Instagram: https://www.instagram.com/engineering_made_possible/
https://wn.com/The_Steel_Pipe_Is_Filled_With_Concrete_And_Subjected_To_A_Compressive_Force_Of_80Kn._Determine_The..
Problem statement: The steel pipe is filled with concrete and subjected to a compressive force of 80kN. Determine the average normal stress in the concrete and the steel due to this loading. The pipe has an outer diameter of 80mm and an inner diameter of 70mm. Est=200 Gpa, Ec=24 Gpa
Instagram: https://www.instagram.com/engineering_made_possible/
- published: 26 Feb 2023
- views: 2095
4:37
Why use reinforcement in Concrete
This video looks at the relationship between Concrete and Steel in Reinforced concrete. While Concrete is strong in Compression it is weak in Tension whereas St...
This video looks at the relationship between Concrete and Steel in Reinforced concrete. While Concrete is strong in Compression it is weak in Tension whereas Steel is Strong in Tension ans weak in Compression.
If you like this video please subscribe to my channel https://www.youtube.com/Buildsum
For similar videos check out
https://www.youtube.com/watch?v=tx90Zo0Xyds
https://www.youtube.com/watch?v=nr8cDVwDwxs
https://wn.com/Why_Use_Reinforcement_In_Concrete
This video looks at the relationship between Concrete and Steel in Reinforced concrete. While Concrete is strong in Compression it is weak in Tension whereas Steel is Strong in Tension ans weak in Compression.
If you like this video please subscribe to my channel https://www.youtube.com/Buildsum
For similar videos check out
https://www.youtube.com/watch?v=tx90Zo0Xyds
https://www.youtube.com/watch?v=nr8cDVwDwxs
- published: 04 May 2014
- views: 371101
1:33
Over-Reinforced Concrete Beam Test
Check out the beam! Song Cred: Avicii - Levels
Check out the beam! Song Cred: Avicii - Levels
https://wn.com/Over_Reinforced_Concrete_Beam_Test
Check out the beam! Song Cred: Avicii - Levels
- published: 16 Nov 2016
- views: 152483
10:35
How to solve pure bending problems for reinforced concrete
This mechanics of materials tutorial shows how to solve pure bending problems for reinforced concrete. Please note that there is a typo in the video: at 7:00 I ...
This mechanics of materials tutorial shows how to solve pure bending problems for reinforced concrete. Please note that there is a typo in the video: at 7:00 I say "cubed" but write "squared." I should have written "cubed" but my hand was off doing it's own thing. That first term should be written as I said: (1/3)bx^3. Sorry for any confusion that caused.
If you found this video helpful, please consider supporting my work on Patreon:
https://www.patreon.com/Engineer4Free
Looking for more mechanics of material tutorials? Check out all of the videos that I made:
YouTube: https://www.youtube.com/playlist?list=PLOAuB8dR35oft2ZLc1sHseypNMAiG_TeJ
Website: https://www.engineer4free.com/mechanics-of-materials
Looking for software? I highly recommend checking out SkyCiv. They make a full suite of online structural analysis software and tools that are useful for both students and professionals, including calculators for beams, trusses, frames, moment of inertia and more. It’s great for checking your work:
https://bit.ly/skyciv-e4f
Lastly, don’t forget to subscribe on YouTube and join the Engineer4Free mail list:
Subscribe: https://www.youtube.com/channel/UCFS_EnwXR7m_c1IyePCPhYA?sub_confirmation=1
Mail List: https://www.engineer4free.com/newsletter
Thanks for watching, I hope it helps!
https://wn.com/How_To_Solve_Pure_Bending_Problems_For_Reinforced_Concrete
This mechanics of materials tutorial shows how to solve pure bending problems for reinforced concrete. Please note that there is a typo in the video: at 7:00 I say "cubed" but write "squared." I should have written "cubed" but my hand was off doing it's own thing. That first term should be written as I said: (1/3)bx^3. Sorry for any confusion that caused.
If you found this video helpful, please consider supporting my work on Patreon:
https://www.patreon.com/Engineer4Free
Looking for more mechanics of material tutorials? Check out all of the videos that I made:
YouTube: https://www.youtube.com/playlist?list=PLOAuB8dR35oft2ZLc1sHseypNMAiG_TeJ
Website: https://www.engineer4free.com/mechanics-of-materials
Looking for software? I highly recommend checking out SkyCiv. They make a full suite of online structural analysis software and tools that are useful for both students and professionals, including calculators for beams, trusses, frames, moment of inertia and more. It’s great for checking your work:
https://bit.ly/skyciv-e4f
Lastly, don’t forget to subscribe on YouTube and join the Engineer4Free mail list:
Subscribe: https://www.youtube.com/channel/UCFS_EnwXR7m_c1IyePCPhYA?sub_confirmation=1
Mail List: https://www.engineer4free.com/newsletter
Thanks for watching, I hope it helps!
- published: 19 Jul 2017
- views: 40338