Concrete mix design optimization with Concrete Copilot
Mathieu Bauchy
Concrete mix design optimization with Concrete Copilot
9:19
How Prairie Material and Concrete.ai Reduced Concrete's GWP by 20%: A Customer Success Story
Mathieu Bauchy
How Prairie Material and Concrete.ai Reduced Concrete's GWP by 20%: A Customer Success Story
2:10
Concrete Copilot Demo | Optimize your concrete mix designs with AI
Mathieu Bauchy
Concrete Copilot Demo | Optimize your concrete mix designs with AI
6:31
Concrete.ai – Building Tomorrow, Sustaining Today
Mathieu Bauchy
Concrete.ai – Building Tomorrow, Sustaining Today
3:10
Concrete has a HIDDEN COST – But AI can help
Mathieu Bauchy
Concrete has a HIDDEN COST – But AI can help
19:52
Revolutionizing Concrete with AI #concrete #ai #artificialintelligence
Mathieu Bauchy
Revolutionizing Concrete with AI #concrete #ai #artificialintelligence
0:55
How Artificial Intelligence will Decarbonize Concrete | Concrete.ai
Mathieu Bauchy
How Artificial Intelligence will Decarbonize Concrete | Concrete.ai
1:41
Behind-the-Scenes at NASA's JPL: Unveiling the Secrets of Space Exploration
Mathieu Bauchy
Behind-the-Scenes at NASA's JPL: Unveiling the Secrets of Space Exploration
56:25
Solving deflection problems (UCLA CEE 108 - Mechanics of Deformable Materials)
Mathieu Bauchy
Solving deflection problems (UCLA CEE 108 - Mechanics of Deformable Materials)
28:30
Graphically solving bending problems (UCLA CEE 108 - Mechanics of Deformable Materials)
Mathieu Bauchy
Graphically solving bending problems (UCLA CEE 108 - Mechanics of Deformable Materials)
32:19
Introduction to Machine Learning for Materials Science And Engineering
Mathieu Bauchy
Introduction to Machine Learning for Materials Science And Engineering
5:33:47
Solving deflection problems (UCLA CEE 108 - Mechanics of Deformable Materials)
Mathieu Bauchy
Solving deflection problems (UCLA CEE 108 - Mechanics of Deformable Materials)
41:45
How to use the methods of sections to calculate the internal load, shear, and moment
Mathieu Bauchy
How to use the methods of sections to calculate the internal load, shear, and moment
54:20
Toughness of glasses
Mathieu Bauchy
Toughness of glasses
56:10
Hardness of glasses
Mathieu Bauchy
Hardness of glasses
1:10:24
Elasticity of glasses
Mathieu Bauchy
Elasticity of glasses
1:05:20
Topological constraint of glass: Application
Mathieu Bauchy
Topological constraint of glass: Application
46:07
Chalcogenide glasses
Mathieu Bauchy
Chalcogenide glasses
23:35
Topological constraint of glass: Determining glass rigidity
Mathieu Bauchy
Topological constraint of glass: Determining glass rigidity
44:10
Topological constraint of glass: Mechanical stability
Mathieu Bauchy
Topological constraint of glass: Mechanical stability
39:58
Zachariasen's rules for the glass formation: Application
Mathieu Bauchy
Zachariasen's rules for the glass formation: Application
23:48
Zachariasen's rules for the glass-forming ability of oxides
Mathieu Bauchy
Zachariasen's rules for the glass-forming ability of oxides
43:29
Pair distribution function of glasses
Mathieu Bauchy
Pair distribution function of glasses
40:52
The Age of Glass
Mathieu Bauchy
The Age of Glass
23:34
Natural glasses
Mathieu Bauchy
Natural glasses
14:08
Presentation of the ConcreteAI platform
Mathieu Bauchy
Presentation of the ConcreteAI platform
3:55
ConcreteAI: Reduce concrete cost and carbon footprint
Mathieu Bauchy
ConcreteAI: Reduce concrete cost and carbon footprint
2:40
ConcreteAI: Reduce concrete cost and carbon footprint
Mathieu Bauchy
ConcreteAI: Reduce concrete cost and carbon footprint
2:40
Demo of the ConcreteAI platform
Mathieu Bauchy
Demo of the ConcreteAI platform
3:49
Neighbor list algorithm in molecular dynamics simulations
Mathieu Bauchy
Neighbor list algorithm in molecular dynamics simulations
58:32
Interatomic energy in molecular dynamics simulations
Mathieu Bauchy
Interatomic energy in molecular dynamics simulations
59:44
8.2 Mohr's Circle in Plane Stress
Mathieu Bauchy
8.2 Mohr's Circle in Plane Stress
1:02:06
8.1 Stress Transformations in Plane Stress
Mathieu Bauchy
8.1 Stress Transformations in Plane Stress
48:00
7.6 Deflections
Mathieu Bauchy
7.6 Deflections
31:30
7.5 Flexure Formula
Mathieu Bauchy
7.5 Flexure Formula
59:42
7.4 Moment of Inertia
Mathieu Bauchy
7.4 Moment of Inertia
43:26
7.3 Graphical Method
Mathieu Bauchy
7.3 Graphical Method
34:05
7.2 Integration Method
Mathieu Bauchy
7.2 Integration Method
53:41
7.1 Internal Shear and Moment under Bending
Mathieu Bauchy
7.1 Internal Shear and Moment under Bending
15:14
6.4 Angle of Twist under Torsion
Mathieu Bauchy
6.4 Angle of Twist under Torsion
36:03
6.3 Torsion Formula
Mathieu Bauchy
6.3 Torsion Formula
44:18
6.2 Polar Moment of Inertia
Mathieu Bauchy
6.2 Polar Moment of Inertia
13:26
6.1 Internal Torque under Torsion
Mathieu Bauchy
6.1 Internal Torque under Torsion
20:02
5.2 Thermal Expansion in Confined Conditions
Mathieu Bauchy
5.2 Thermal Expansion in Confined Conditions
26:50
5.1 Thermal Expansion in Unconfined Conditions
Mathieu Bauchy
5.1 Thermal Expansion in Unconfined Conditions
20:51
4.3 Solving Statically Indeterminate Problems
Mathieu Bauchy
4.3 Solving Statically Indeterminate Problems
41:47
4.2 Elongation Formula
Mathieu Bauchy
4.2 Elongation Formula
24:53
4.1 Internal Load upon Axial Deformation
Mathieu Bauchy
4.1 Internal Load upon Axial Deformation
24:22
3.4 Poisson's ratio
Mathieu Bauchy
3.4 Poisson's ratio
29:23
3.3 Hooke's law
Mathieu Bauchy
3.3 Hooke's law
19:47
3.2 Stress-Strain Diagram
Mathieu Bauchy
3.2 Stress-Strain Diagram
26:55
3.1 Introduction to Strain
Mathieu Bauchy
3.1 Introduction to Strain
32:27
2.3 Ultimate Stress and Factor of Safety
Mathieu Bauchy
2.3 Ultimate Stress and Factor of Safety
26:07
2.2 Average Normal and Shear Stress
Mathieu Bauchy
2.2 Average Normal and Shear Stress
14:37
2.1 Introduction to Stress and State of Stress in 2D
Mathieu Bauchy
2.1 Introduction to Stress and State of Stress in 2D
55:03
1.3 Equilibrium of Bodies - Method of Sections
Mathieu Bauchy
1.3 Equilibrium of Bodies - Method of Sections
48:05
1.2 Equilibrium of Bodies - Unknown Forces
Mathieu Bauchy
1.2 Equilibrium of Bodies - Unknown Forces
22:09
1.1 Equilibrium of Bodies - Known Forces
Mathieu Bauchy
1.1 Equilibrium of Bodies - Known Forces
25:42
0 - Introduction to Mechanics of Deformable Solids
Mathieu Bauchy
0 - Introduction to Mechanics of Deformable Solids
33:06
Implementing a Breadth-First Search to Solve Games with Matlab – Machine Learning for Engineers
Mathieu Bauchy
Implementing a Breadth-First Search to Solve Games with Matlab – Machine Learning for Engineers
1:33:52
Topology-Informed Machine Learning to Predict Glass Properties
Mathieu Bauchy
Topology-Informed Machine Learning to Predict Glass Properties
28:15
Interatomic forcefield parameterization by active learning
Mathieu Bauchy
Interatomic forcefield parameterization by active learning
14:55
Lecture 13: Introduction to Convolutional Neural Networks (CNN) – Machine Learning for Engineers
Mathieu Bauchy
Lecture 13: Introduction to Convolutional Neural Networks (CNN) – Machine Learning for Engineers
1:58:55
Lecture 12: Good practices in machine learning – Machine Learning for Engineers
Mathieu Bauchy
Lecture 12: Good practices in machine learning – Machine Learning for Engineers
2:10:44
Lecture 11: K-means clustering (unsupervised learning) – Machine Learning for Engineers
Mathieu Bauchy
Lecture 11: K-means clustering (unsupervised learning) – Machine Learning for Engineers
1:20:41
Training a Logistic Regression Classification Model with Matlab – Machine Learning for Engineers
Mathieu Bauchy
Training a Logistic Regression Classification Model with Matlab – Machine Learning for Engineers
1:19:25
Lecture 10: Logistic Regression – Machine Learning for Engineers
Mathieu Bauchy
Lecture 10: Logistic Regression – Machine Learning for Engineers
2:01:51
Step-by-Step Beginners Tutorial: How to Train an Artificial Neural Network with Matlab
Mathieu Bauchy
Step-by-Step Beginners Tutorial: How to Train an Artificial Neural Network with Matlab
1:21:27
Lecture 9: Artificial Neural Networks and Deep Learning – Machine Learning for Engineers
Mathieu Bauchy
Lecture 9: Artificial Neural Networks and Deep Learning – Machine Learning for Engineers
1:48:22
Feature Engineering and LASSO for Forecasting Models with Matlab – Machine Learning for Engineers
Mathieu Bauchy
Feature Engineering and LASSO for Forecasting Models with Matlab – Machine Learning for Engineers
2:00:49
Lecture 8: Feature engineering, selection, and regularization – Machine Learning for Engineers
Mathieu Bauchy
Lecture 8: Feature engineering, selection, and regularization – Machine Learning for Engineers
1:59:59
Building a Regression Model with Matlab – Machine Learning for Engineers
Mathieu Bauchy
Building a Regression Model with Matlab – Machine Learning for Engineers
2:03:58
Lecture 7: Underfitting, Overfitting, and k-fold Cross-Validation – Machine Learning for Engineers
Mathieu Bauchy
Lecture 7: Underfitting, Overfitting, and k-fold Cross-Validation – Machine Learning for Engineers
1:31:20
Lecture 6: Linear Regression and Gradient Descent Optimization – Machine Learning for Engineers
Mathieu Bauchy
Lecture 6: Linear Regression and Gradient Descent Optimization – Machine Learning for Engineers
1:43:16
Lecture 5: Introduction to Machine Learning – Machine Learning for Engineers
Mathieu Bauchy
Lecture 5: Introduction to Machine Learning – Machine Learning for Engineers
1:20:15
Lecture 4: Informed Search – Machine Learning for Engineers
Mathieu Bauchy
Lecture 4: Informed Search – Machine Learning for Engineers
1:15:18
Lecture 3: Uninformed Search – Machine Learning for Engineers
Mathieu Bauchy
Lecture 3: Uninformed Search – Machine Learning for Engineers
1:20:29
Lecture 2: Problem Solving and Search – Machine Learning for Engineers
Mathieu Bauchy
Lecture 2: Problem Solving and Search – Machine Learning for Engineers
1:08:21
Lecture 1: Introduction and Definitions – Machine Learning for Engineers
Mathieu Bauchy
Lecture 1: Introduction and Definitions – Machine Learning for Engineers
57:56
Mohr's circle / stress transformation problems (UCLA CEE 108 - Mechanics of Deformable Materials)
Mathieu Bauchy
Mohr's circle / stress transformation problems (UCLA CEE 108 - Mechanics of Deformable Materials)
34:46
Solving bending problems by graphical method (UCLA CEE 108 - Mechanics of Deformable Materials)
Mathieu Bauchy
Solving bending problems by graphical method (UCLA CEE 108 - Mechanics of Deformable Materials)
44:15
Introduction to Atomic Simulations by Metropolis Monte Carlo
Mathieu Bauchy
Introduction to Atomic Simulations by Metropolis Monte Carlo
2:36:29
Equation of state, temperature, and pressure in molecular dynamics simulations
Mathieu Bauchy
Equation of state, temperature, and pressure in molecular dynamics simulations
53:39
Introduction to materials modeling and simulations
Mathieu Bauchy
Introduction to materials modeling and simulations
1:31:00
Tutorial for using the plotting software Grace
Mathieu Bauchy
Tutorial for using the plotting software Grace
59:53
Linux terminal and job submission with Univa Grid Engine
Mathieu Bauchy
Linux terminal and job submission with Univa Grid Engine
38:11
Introduction to LAMMPS | Molecular Dynamics Made Easy
Mathieu Bauchy
Introduction to LAMMPS | Molecular Dynamics Made Easy
1:43:28
Irradiation damage in quartz
Mathieu Bauchy
Irradiation damage in quartz
0:30
Precipitation of calcium–silicate–hydrate
Mathieu Bauchy
Precipitation of calcium–silicate–hydrate
0:10
Irradiation- vs. vitrification-induced disordering of quartz
Mathieu Bauchy
Irradiation- vs. vitrification-induced disordering of quartz
0:15
Fracture of glassy silica
Mathieu Bauchy
Fracture of glassy silica
0:11
Simulation of a calcium aluminosilicate glass
Mathieu Bauchy
Simulation of a calcium aluminosilicate glass
0:17
Simulation of an Arsenic–Selenium glass
Mathieu Bauchy
Simulation of an Arsenic–Selenium glass
0:11
PARISlab@UCLA : Examples of simulations
Mathieu Bauchy
PARISlab@UCLA : Examples of simulations
1:26
Basics of Molecular Dynamics Simulations for Beginners
Mathieu Bauchy
Basics of Molecular Dynamics Simulations for Beginners
31:30