Missouri Geotechnical 30 PDH Discount Package 3

This online engineering PDH course provides basic information on hydraulic performance of shallow foundations for the support of vertical-wall bridge abutments.

Scour at the base of bridge abutments during floods is a common cause of bridge failure in the United States. Shallow abutment foundations located at or near the channel banks are considered more vulnerable than other foundations because they are closer to the streambed and can significantly constrict flood flows. These types of abutments are frequently implemented for single-span bridges, and scour countermeasures are often integrated into the design to avoid placing the foundation below local scour depth.

Therefore, to protect small single-span bridge abutments built on shallow foundations from scour damage, methods for countermeasure design are needed that consider the abutment foundation and scour countermeasures as an integrated component of the bridge. The research study described in this course is designed to provide a complete picture of the flow field and local bed shear stresses on heterogeneous bed roughness in the bridge opening.

This online engineering PDH course provides an introduction to methods, techniques and equipment for selecting, placing and compacting fill and backfill materials for structure foundations.

Foundations may be constructed on fills and backfilled material. Fills may include conventional compacted fills; hydraulic fills; and uncontrolled fills of soils or industrial and domestic wastes, such as ashes, slag, chemical wastes, building rubble, and refuse. Properly placed compacted fill will be more rigid and uniform and have greater strength than most natural soils. Hydraulic fills may be compacted or uncompacted and are an economical means of providing fill over large areas.  Except when cohesionless materials, i.e., clean sands and gravels, are placed under controlled conditions so silty pockets are avoided and are compacted as they are placed, hydraulic fills will generally require some type of stabilization to ensure adequate foundations.

This 1 PDH online course is intended for civil engineers, structural engineers, geotechnical engineers, geologists and other design and construction professionals seeking an introduction to methods and techniques for fill and backfill construction for foundations and footings for buildings and structures.

This online engineering PDH course provides guidance on foundation exploration and testing procedures, analysis techniques, allowable criteria, design procedures, and construction consideration for the selection, design, and installation of sheet pile walls and flood walls. The guidance is based on the present state of the technology for sheet pile-soil-structure interaction behavior.

Since the understanding of the physical causes of sheet pile wall behavior is actively expanding by better definition through ongoing research, prototype, model sheet pile wall testing and development of more refined analytical models, this course is intended to provide examples and procedures of what has been proven successful.

This 5 PDH online course is applicable to geotechnical and structural engineers as well as design and construction personnel interested in understanding the construction techniques related to sheet pile wall behavior during installation.

This online engineering PDH course provides guidance on foundation exploration and testing procedures, load test methods, analysis techniques, design criteria and procedures, and construction considerations for the selection, design, and installation of pile foundations. The guidance is based on the present state of technology for pile-soil-structure-foundation interaction behavior.

Since the understanding of the physical causes of pile behavior is actively expanding by better definition through ongoing research, prototype, model pile foundation testing and development of more refined analytical models, this course is intended to provide examples and procedures of what has been proven successful.

This 10 PDH online course is applicable to geotechnical and structural engineers as well as design and construction personnel interested in understanding the construction techniques related to pile behavior during installation.

This online engineering PDH course provides information on scour in cohesive soils and presents a study through which an erosion testing device that simulates open channel flow on a small scale was developed and tested. In addition, a recommended design approach is provided that can be used for estimating scour for a range of cohesive soils.

Scour in cohesive soils has been a challenge for engineers and designers. Unlike noncohesive soils, practical measurement techniques and well accepted guidance on the scourability of cohesive soils are severely lacking.

This course focuses on two main objectives. The first is to demonstrate a new ex situ erosion testing device (ESTD) that can mimic the near-bed flow of open channels to erode cohesive soils within a specified range of shear stresses. The second objective is to develop a method for estimating the critical shear stress and erosion rates for a limited range of cohesive soils in the context of the Hydraulic Engineering Circular 18 scour framework.