Engineering projects rely on stable foundations to support all types of structures.
Yet unlike concrete, steel and other man-made construction materials, the properties of soil and rock vary at each site. These natural materials are barely visible until excavation or site-specific soil investigations begin. So getting an accurate report of their properties is essential—to manage risk and avoid major defects.
In this self-paced course, you'll gain an understanding of how geotechnical engineers scope, investigate and assess soil parameters, and report on their findings. You'll learn about:
- soil and rock properties, and how they differ to man-made materials such as steel or concrete
- common site investigation and laboratory testing methods to assess soil and rock properties
- key differences in the performance of different soil types in an engineering context
Using practical examples, you'll gain an overview of:
- how the bearing capacity of the ground is assessed
- how slope stability is assessed
- how groundwater can influence soil behaviour
- how to identify important geotechnical design parameters
After completing this course, you'll have developed a basic understanding on the different soil and rock types and their origins in the field. You'll also understand why detailed, site-specific ground investigations and soil and rock tests are essential for safe and sustainable geotechnical engineering designs.
Once you register, you will be provided with access to the EEA Online platform to start this course.
We can arrange a bulk corporate registration for 10 or more learners.
This course can also be customised to align to your business objectives or L&D needs.
Find out how we can help you and your team by completing an enquiry form or calling us on +61 3 9321 1700.
- The most common soil and rock properties for typical applications in geotechnical engineering
- Geotechnical engineering principles and their comparison with other civil engineering disciplines
- The key differences between fine-grained and course-grained soils
- Common site investigation methods for soil and rock sampling and on site strength estimation
- Common laboratory testing methods to assess engineering properties of soil and rock
- The general purpose and different types of geotechnical reporting
- Common applications in geotechnical engineering for general construction and civil engineering projects
Is this course for you?
This course suits civil engineers, structural engineers and construction professionals with limited experience in geotechnical engineering. It is also a useful refresher for more experienced professionals.
The course may also be of interest to those who work with soil and rock materials including:
- project managers
- quantity surveyors
- QA professionals
- commercial managers
There are no prerequisites for this course.
Topics we'll cover
- Introduction to geotechnical engineering
- Soil and rock
- Geotechnical engineering principles
- Soil investigation methods
- Soil property assessment in the laboratory
- Geotechnical reporting
- Selected geotechnical engineering applications
- Principles of bearing capacity of soils
- Slope stability assessments
Dr Martin Larisch is a Civil and Chartered Professional Engineer with a specialisation in geotechnical engineering. He is also an Adjunct Associate Professor at the Geotechnical Engineering Centre at the School of Engineering, University of Queensland.
Martin has more than 20 years' design and construction experience in Australia and overseas. During his career, he has held technical and operational roles for leading specialist ground engineering, civil contracting and geotechnical consultancy firms. Martin has applied his expertise in geotechnical engineering to the design, delivery and certification of many complex ground and foundation engineering applications for infrastructure and building projects across Australia.
Martin is a highly skilled, practical and enthusiastic educator, having published more than 25 technical papers on geotechnical and foundation engineering.
This course is delivered through EEA Online, our new digital learning platform.
You'll learn using a mix of practical case studies, quizzes and reading, audio and video materials. You'll also apply your knowledge in practice with a variety of assessment tasks.
It will take approximately 8 hours to complete.
As it is self-paced, you can start anytime and save your progress as you finish each module.
Once you start the course, you have 90 days to complete it.
EEA Online access
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Once you register for a course, you will be provided with access to the EEA Online Canvas platform to start this course.
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