Structural Design and Detailing for Structural Engineers

من 584.42 QAR /س

Structural Engineering is an important course in constructing new buildings, checking for their maintainance, safety of users, and realization of a client's dream.

For those interested in Structures or already working as structural engineers, this course will immensely add value to sharpening your DESIGN skills in Reinforced Concrete, Steel and Timber according to American, NBCC, Eurocodes or British Standards. Entire courses are available for complete design of structures and making a Structural report for each project.

CAD SOFTWARE is so important for communicating what an Architect or Engineer designs for new construction / maintenance of structures.

There are full courses for
1. Revit Architecture
2. Staad Pro.
3. AutoCAD
4. SketchUp

معلومات إضافية

Bring your own laptop

المكان

عبر الانترنت من أوغندا

من أنا؟

Am Ronald from Uganda. I have been in the Structural Engineering profession for five years now. I have designed and detailed Reinforced Concrete, Steel, and Timber structures using Staad Pro and Autocad. I have taught at university too for 3 years. I prefer webcam for teaching sessions. Having been a student too, I understand what being one is like and so know how to get the best out of my students.

المستوى التعليمي

2014
Bachelor's degree in Civil Engineering - Kampala International University

2010-2003
Ordinary and Advanced level Education at Our Lady of Good counsel SSS Gayaza Uganda.

الخبرة / المؤهلات

5 years in Structural Engineering in detailing and designing.
Bachelor of science in Civil Engineering from Kampala International University 2014.

My experience in starting a new Structural Project is as follows:
1. Get the CAD file from Architect.
2. Overlay floor plans to position columns, beams, and slabs.
3. Draw the frame in Staad Pro.
4. Analysis is done to get Moments and Shears on Structural elements of the Model.
5. Design the model to get the adequate cost effective number of bars, section sizes, and depth of all structural elements.
6. Details all structural elements in CAD.
7. Make a Structural Report ready for stamp from a licensed Engineer.

السن

الكبار (18-64 سنة)

الكبار (65 سنة فأكثر)

مستوى الطالب

مبتدئ

متوسط

متقدم

المدة

30 دقيقة

60 دقيقة

الدرس يدور باللغة

الإنجليزية

مهارات

هندسة هيكلية

التصميم بمساعدة الحاسوب cad

الجاهزية في الأسبوع العادي

(GMT -05:00)

نيويورك

على الانترنت عبر كاميرا ويب

Mon

Tue

Wed

Thu

Fri

Sat

Sun

00-04

04-08

08-12

12-16

16-20

20-24

Azdine

5.0

(3)

As an Associate Professor of Industrial Engineering (CPGE), a State Engineer in Mechanical Engineering and a Doctor (PhD), I offer private mechanics lessons all year round, remotely or at home, for pupils and students.

For who ?

Objective of excellence (improvement, ranking, selective applications).

Refresher courses in case of gaps or weak foundations.

Consolidation of fundamentals and mastery of useful techniques throughout the course.

Targeted preparation for tests, exams and oral presentations.

CPGE competitive entrance exams: CCINP, Centrale, Mines-Ponts, MP, PSI, TSI streams.

Technological Baccalaureate: STM, STE, SMB (refresher and intensive training).

Project support (final year project, TIPE, mini-projects).

Revision/preparation: review the essentials of the past year and get ahead.

Subjects taught

Solid mechanics: kinematics, statics, dynamics, energy (and kinetics).

Strength of materials & vibration; elasticity; fracture mechanics.

Mechanism theory.

Mechanical engineering & mechanical manufacturing (processes, tolerances, metrology).

Materials: mechanical characterization; equilibrium diagrams (binary, Fe-C).

Thermal and thermochemical treatments.

MMC (continuous media): modelling and calculations.

CAD/Design: CATIA, SolidWorks.

NDT/NDT: principles and applications (basics).

Terms and conditions

Format: individual or small groups.

Location: online (interactive whiteboard, screen sharing, files) or at home.

Method: initial diagnosis, personalized work plan, progressive exercises, exam-style questions, annotated corrections, regular assessments.

Materials: summary sheets, roadmaps, bibliographies, corrected exercises.

Targeted results

Solid foundations, operational methods, autonomy and sustainable performance.

Effective preparation for assessments and competitions, increased confidence and speed.

Mohamad

5.0

(3)

Classes that cover different engineering aspects: Structural and Energy.
Can provide support and help in these subjects involving different modules. These are basic courses for engineering and especially Mechanical Engineering.
Can provide different resources and problems and explain the solving method and use of the software.

Sofia

5.0

(3)

Currently in my 3rd year of architecture, I give architecture project lessons but also coach lessons, Sketchup, lumion. I can also give English lessons.
At the beginning it is always difficult to master the software and to materialize your ideas well and it is for this reason that I wish to help others.

Youssra

5.0

(3)

Mastering software only requires good supervision, that's why I offer this training to better guide you and help you produce a project from A to Z, from drawing plans to rendering photorealists of your project. Archicad and Lumion software are tools that will now make your job easier to better design the space.

Khaldoun

5.0

(3)

Are you interested in mastering structural analysis software like ETABS and Robot Structural Analysis? Whether you're a student, a recent graduate, or a professional looking to enhance your skills, my classes are designed for you!

About Me:
I am a freelance structural engineer with extensive experience in analyzing and designing various projects, including both concrete and steel structures. I have successfully collaborated on university projects, bridging the gap between theoretical knowledge and practical application. My goal is to empower you with the skills and knowledge needed to excel in the field of structural engineering.

Course Outline:
Introduction to Structural Analysis:
Fundamentals of structural engineering
Overview of software applications in design

ETABS:
• ETABS is one of the premier software applications for structural analysis and design, tailored specifically for building systems. In our ETABS module, you'll gain a comprehensive understanding of its powerful capabilities. We will cover the essential features, including how to create complex models of multi-story buildings, apply various loads, and analyze their responses to dynamic forces such as wind and earthquakes. You will learn best practices for reinforcing concrete structures and optimizing designs for both strength and serviceability. Through hands-on projects, you will become proficient in interpreting analytical results, generating design reports, and ensuring compliance with international design codes. By the end of this segment, you will have the ability to confidently utilize ETABS for real-world engineering challenges.

Robot Structural Analysis:
• Robot Structural Analysis is a robust software solution that provides advanced simulation capabilities for structural engineers tackling intricate design challenges. In our Robot module, you'll explore the software's extensive tools for analyzing a wide range of structures, from simple beams to complex frames and trusses. We will delve into advanced analysis methods, including linear and non-linear static analysis, dynamic response analysis, and more. You will learn how to effectively use load combinations, perform detailed design checks for both concrete and steel structures, and evaluate the structural integrity under various loading conditions. This module emphasizes the importance of optimal performance and efficiency in design, equipping you with the knowledge to use Robot Structural Analysis for sophisticated project requirements. Real-life case studies will provide valuable context and enhance your practical skills.

Concrete and Steel Design:
Principles of design for both materials
Practical case studies and projects

Freelancing Tips:
Managing client projects
Best practices for successful freelancing in structural engineering

Course Goals and Outcomes
Within just 10 sessions, you will develop the necessary skills to work with either ETABS or Robot Structural Analysis, enabling you to take on real-world projects confidently. By the end of the course, you will be well-prepared to apply your knowledge and expertise in practical engineering scenarios

Why Choose My Classes?
Hands-on experience with real-world projects
Interactive learning environment
Personalized guidance tailored to your learning pace

Mohammed

5.0

(3)

Join my comprehensive Grasshopper class and dive into the world of algorithmic design. In this course, you will learn how to harness the full potential of Grasshopper, the visual programming plugin for Rhino3D, to create complex parametric models and generative designs.

Throughout the class, we will cover the core principles of Grasshopper and its practical applications in the field of architecture, design, and fabrication. You will gain a solid understanding of the visual scripting interface, learn how to manipulate geometry, control parameters, and automate design processes.

Whether you are a beginner or an intermediate Grasshopper user, this class is designed to empower you with the skills necessary to create intricate and visually captivating designs. Each lesson will combine theoretical knowledge with hands-on exercises, allowing you to apply your learning in real-world scenarios.

By the end of this Grasshopper class, you will have the confidence to develop custom design algorithms, explore generative design techniques, and optimize your workflow for efficient and parametric design iterations. Join me on this exciting journey of mastering Grasshopper and unlock a new dimension of creativity and possibilities.

Enroll now and embark on a transformative adventure in algorithmic design with Grasshopper!

Thanina

5.0

(3)

- Do you want to save as much time as possible?
- Draw your projects in 2D
- Model them in 3D
- Produce its graphic boards useful for their understanding and realization [plan, section, facade, diagrams or 3D]

ArchiCAD is the software you need to accomplish all this SIMULTANEOUSLY.

As the first BIM software in the world, ArchiCAD is used internationally, so it will open many doors for you in the world of work. Not only has an elegant interface that is very easy to handle and a set of powerful integrated tools, ArchiCAD is the most intuitive and efficient BIM software on the market.

Younes

5.0

(3)

Are you a student in preparatory classes (CPGE) and are you preparing your Supervised Personal Initiative Work (TIPE) on the theme: "Games, Sports" common to the MP, PSI and TSI sectors? Join my specialized training and supervision to stand out in this academic project.

Why Choose My Training?
Benefit from my supervision as an engineering student with in-depth knowledge of the theme “Games, Sports”. As a former CPGE student, I have successfully supported many students in the choice, development and complete preparation of their TIPE subject, from theoretical study to experiment and numerical simulation (MATLAB, COMSOL , ANSYS, CATIA, SolidWorks, etc.).

Personalized Approach:
Each student is unique. My coaching adapts to your skills, your levels, your interests and your objectives, in order to maximize your potential.

🤝 Continuous Support: From start to finish of your project, benefit from unlimited email support between sessions to answer all your questions to overcome your obstacles.

🏆 TIPE Complete Supervision Program:
The support I offer includes the following elements:
- Choice of the subject
- Scientific documentation
- Development of the problem, motivation, inking, MCOT, DOT
- Theoretical portion
- Experiment or Simulations
- Realize the added value
- Assistance in producing the final presentation (Structuring, aesthetics, content, etc.)
- Preparation for the oral test
You have the flexibility to: 1) choose the level of support that suits you, whether it is specific training on one of the aspects mentioned above or 2) complete support throughout your project.

NB: regarding preparation for the oral test, we will work together on structuring your presentation, anticipating possible questions from the jury and strengthening your oral communication skills. This targeted preparation will give you the confidence to excel not only in completing your TIPE, but also when presenting it to the jury.

Hamza

5.0

(3)

Course Description: The training is designed to familiarize learners with 2D and 3D modeling of building plans and industrial plans.
The course aims at the use of CAD software, being the cutting-edge software, used in several large and small companies especially in the civil, industrial and especially aeronautical fields, and subcontractors.
At the end of this course, learners will be able to design architectural plans and sets of objects of simple and complex shapes on 2D and 3D modeling, surface and assembly side.
In addition, he will be able to make parametric models, analyze the hierarchical structure of the model, be able to edit it, assign materials and assemble objects.
To provide basic theoretical and practical knowledge to calculate and model different models like foundation plan, ground floor, elevation and many more and as well as industrial on manufacturing of machine parts.
Ultimately, this will enable you to promote the development of professional skills that will enable the learner to effectively perform tasks and access senior positions in this field.

Issam

5.0

(3)

As an advanced user of Rhino & SketchUp, I can say that I admire Rhino's crazy capabilities that revolutionize 3D modeling, especially in the organic realm, along with SketchUp's cleverness and speed in modeling. I've taught both at a university and have been using them for more than 8 years in my projects. Hence, I can teach you the best of both worlds with versatile commands, features, and tips and tricks, whether you're a beginner or just need some push.

أبوبكر

5.0

(3)

Mechanical engineering is a broad field that covers various topics related to the design, analysis, and manufacturing of mechanical systems. Here’s a brief overview of the core subjects you would typically study during a mechanical engineering program at university:

Mathematics:

Calculus: For understanding changes in systems, modeling dynamic behavior, and analyzing forces and motions.
Linear Algebra: Used for solving systems of equations, matrix operations, and structural analysis.
Differential Equations: Essential for modeling physical systems that change over time (e.g., motion, heat, fluid flow).
Probability and Statistics: For analyzing data, reliability, and risks in engineering systems.
Physics:

Mechanics: Studying the forces and motion in solid bodies (statics and dynamics).
Thermodynamics: Understanding energy systems, heat transfer, and the conversion of energy between mechanical forms.
Fluid Mechanics: Focuses on the behavior of fluids (liquids and gases) in motion and at rest, which is essential for systems like pumps, engines, and turbines.
Material Science: Exploring the properties of materials and how they behave under various conditions (stress, temperature, etc.).
Statics and Dynamics:

Statics: Study of forces in equilibrium, such as the forces on structures or machines that are not moving.
Dynamics: Study of forces and motion in systems that are in motion, including vibrations, acceleration, and kinematics.
Strength of Materials:

Learning how materials respond to various forces, including stress, strain, bending, and torsion. This is essential for designing durable and safe structures and machines.
Manufacturing Processes:

Understanding different manufacturing techniques like casting, welding, machining, 3D printing, and material forming.
Concepts of production planning, quality control, and design for manufacturability.
Control Systems:

Study of systems that maintain desired outputs (e.g., in robotics or automated systems). This includes understanding feedback loops and stability.
Machine Design:

Focus on designing mechanical components (gears, shafts, bearings) to perform specific tasks reliably and efficiently.
Heat Transfer:

Studying how heat moves through materials and fluids, which is critical for applications like engines, HVAC systems, and electronics cooling.
Dynamics of Machinery:

The study of moving mechanical components, their vibrations, and how to design them to minimize failure and wear.
Computational Methods:

Learning how to use software tools (like CAD, FEM, and CFD) for designing, simulating, and analyzing mechanical systems.
Robotics and Automation:

Study of robotic systems, automation in manufacturing, and how to integrate mechanical components with electronic control systems.
Renewable Energy and Sustainability:

Topics related to sustainable engineering solutions, energy-efficient systems, and the use of renewable energy sources (wind, solar, etc.).

Abdul

5.0

(3)

This course provides a comprehensive introduction to the design of reinforced concrete structural elements according to Eurocode 2 (EN 1992-1-1). It is intended for students and professionals in structural and civil engineering who want to develop a solid understanding of concrete design in line with European standards.

The course covers the fundamental principles of limit state design, material properties, and practical design procedures for beams, slabs, columns, and foundations. Emphasis is placed on correct application of Eurocode 2 provisions, including partial safety factors, load combinations, and serviceability checks. Students will gain hands-on experience through detailed design examples, reinforcement detailing, and structural drawings.

Key Topics:

Material properties and partial safety factors
Ultimate and serviceability limit states
Design of beams for bending, shear, and deflection
Design of one-way and two-way slabs
Column design (axial, uniaxial, and biaxial loading)
Design of pad footings and strip foundations
Crack width control and deflection checks
Reinforcement anchorage, laps, and detailing rules
Use of Eurocode 2 design aids and practical calculation methods
Learning Outcomes:
By the end of the course, learners will be able to:

Understand and apply Eurocode 2 design principles to reinforced concrete structures
Design structural elements including beams, slabs, columns, and foundations
Perform checks for serviceability and durability
Prepare reinforcement layouts and documentation in line with Eurocode 2 requirements

Ali

5.0

(3)

📐 Civil & Structural Engineering Tutoring – Master Statics & Mechanics of Materials**
Are you a student struggling with the foundational subjects of civil and structural engineering? I offer one-on-one tutoring designed to help you confidently tackle core topics like **Statics** and **Mechanics of Materials**.

With a strong background and proven proficiency in these subjects, I provide clear explanations, step-by-step problem-solving strategies, and personalized guidance tailored to your course and learning style. Whether you're preparing for an exam, working through tough assignments, or just need concepts clarified, I’m here to help you build a solid understanding.

**Topics Covered Include:**

* Equilibrium of forces and moments
* Free-body diagrams
* Trusses, frames, and beams
* Internal forces (shear and moment diagrams)
* Stress and strain analysis
* Axial, torsional, bending, and shear stresses
* Mechanical properties of materials
* Mohr’s Circle, deflection, and more

**Who It's For:**

* Civil & Structural Engineering undergrads
* Students in related engineering programs taking statics/mechanics courses
* Anyone needing a refresher on fundamental mechanics

**Session Format:**

* Online (via Zoom, Teams, or your preferred platform)
* Flexible scheduling
* Homework help, exam prep, or concept reviews

Let’s simplify the complex and get you confident in your courses!

Sabrine

5.0

(3)

Ingénieur en génie civil avec plus de 5 ans d’expérience, je propose des formations spécialisées dans le domaine du génie civil et VRD. Passionné par ce monde riche et exigeant, je mets mes compétences au service des étudiants, techniciens et professionnels souhaitant progresser et maîtriser les outils essentiels du secteur.

Mes formations couvrent :

Les bases et techniques avancées en VRD (Voirie et Réseaux Divers)

L’utilisation professionnelle de logiciels de conception tels qu’AutoCAD et Mensura

L’accompagnement pour projets académiques ou professionnels

Des cours adaptés à tous les niveaux (débutants, intermédiaires, confirmés)

Ma valeur ajoutée :
Avec une approche pratique, des exemples concrets issus de l’expérience terrain et une pédagogie adaptée, j’accompagne chaque apprenant pour développer ses compétences, gagner en efficacité et réussir dans ce domaine passionnant.

Eng

5.0

(3)

Engineering design software for mechanical parts, including how to draw parts and convert them into assemblies, or how to generate G-code and then implement it on CNC machines. It also includes assistance in testing software before implementation using simulation programs, and learning how to convert drawings into machine-readable G-code and how to modify it.