Plaxis 2D For Beginners - Geotechnical Numerical Analysis

Learn how to run PLAXIS 2D as a professional

What you'll learn

Create A 2D Model in Plaxis from start to end

Create retaining wall in the form of soldier pile or equivalent, with ground anchors

Determine axial capacity of a single pile

Run a saftey analysis and determine the factor of safety for a slope and deep excavation

Requirements

Soil Mechcanics knowledge

Description

Course Contents1. Introduction to PLXIS 2D (Plane strain versus Axi-symmetry models), borehole creation, soil creation, the input of soil parameters, and basic drawing tools2. Tutorial 1: Slope stability analysis of an embankment, determination of safety factor (FoS) - Plane Strain3. Explanation of Mohr-Coloumb (MC) and Hardening Soil constitutive models4. Tutorial 2: Axial capacity of a single pile - Axi-symmetry model5. Tutorial 3: Design of the retaining structure of a deep excavation consisting of soldier pile walls and prestressed ground anchors. This tutorial includes the application of dewatering and performing consolidation calculations.In this comprehensive course tailored specifically for beginners, students will embark on an empowering journey into the world of geotechnical engineering software, focusing on the renowned PLAXIS 2D. Throughout this transformative learning experience, participants will acquire the fundamental knowledge and practical skills necessary to confidently navigate the complexities of PLAXIS 2D and embark on successful numerical modeling.The course begins with a solid foundation, ensuring students grasp the essential concepts of building a numerical model. They will become familiar with the essential skills, setting the stage for a deeper understanding of PLAXIS 2D functionalities.Students will dive into the software, exploring its intuitive user interface and gaining proficiency in model creation and manipulation. Through hands-on exercises, they will learn to efficiently generate meshes, analyze soil-structure interaction, and interpret modeling results and outputs. From foundational concepts such as boundary conditions and soil material models to advanced topics like slope stability assessments and dep excavations, participants will gain a holistic understanding of PLAXIS 2D's capabilities.Moreover, the course will empower students to solve real-world geotechnical challenges. They will learn to simulate ground settlement, evaluate the stability of retaining walls, and analyze the behavior of soil-structure systems. Through comprehensive tutorials and practical examples, students will develop a problem-solving mindset and learn to make informed engineering decisions using PLAXIS 2D.By the end of this empowering course, beginners will have gained a solid command of PLAXIS 2D, enabling them to embark on geotechnical projects with confidence. Armed with a deep understanding of modeling principles and hands-on experience with the software, students will be prepared to tackle complex geotechnical challenges, optimize designs, and contribute to the field of numerical modeling with excellence and proficiency. With this newfound expertise, students will be well-equipped to take their first steps toward a successful geotechnical engineering career, focusing on numerical analysis.

Overview

Section 1: Introduction

Lecture 1 Introduction

Section 2: Tutorial 1: Slope stability of an embankment, determination of safety factor

Lecture 2 Slope stability Analysis

Section 3: Explanation of Mohr-Coulomb (MC) and Hardening Soil constitutive models

Lecture 3 Explanation of Mohr-Coulomb (MC) and Hardening Soil constitutive models

Section 4: Tutorial 2: Axial capacity of a single pile - Axi-symmetry model

Lecture 4 Axial capacity of a single pile

Section 5: Tutorial 3: Design of the retaining structure of a deep excavation - Part1

Lecture 5 Deep Excavation - Part 1

Lecture 6 Part 2

Lecture 7 Part 3

Undergraduate Students,Postgraduate Students,Geotechnical Engineers,Geotechnical Professionals