introduction hussien aldeeky
TRANSCRIPT
Introduction
Hussien Aldeeky
Engineering Geology
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Course Syllabus
Instructor:Hussien Hamdan AldeekyInstructor's Office: E 3001
Instructor's e-mail:[email protected] Hours: Sun ,Mon 8:00-9:00,. Tue ,Wen 11-12 Time: 12:00-1:00 Room: E2025
Course Information:: Engineering Geology Course Number: 110401436
Department: Civil Engineering Designation: CompulsoryPrerequisite(s):11040336
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Course Description:• Introduction : { course objectives and relevance to
engineering}
• Structure and composition of earth
• Minerals: properties, compositions, forms
• Rocks: Igneous, Sedimentary, Metamorphic
• Engineering Properties of rocks (foundation andmaterials as aggregates)
• Geological structures: Folds, Faults, Joint,
Course Syllabus
• Mass movements and slope processes
• Site investigation
• Subsurface geology, condition of stress at depth(for excavation, tunneling highways, …)
• Earthquakes, (interpreting earthquakes, effect ofearthquakes on structures)
• Topographic Maps
Course Syllabus
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Course MaterialsText bookSupplementary booksPowerPoint slidesLab Work
Course Textbook:Principles of Engineering Geology, by: Rebert B … , John Wiley & Sons Topics covered:Other Book:
A Geology for Engineers, F. Blyth and M.Freitas, 7th Seventh EditionPrincipals of Physical Geology, D HolmsFoundations of Engineering Geology, T. Waltham, 2nd Edition
Course Syllabus
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Course Syllabus
Course work:First Exam 20%Second Exam 20%Lab Assigment 20%Final exam 40%
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Engineering Geology
Geology is the science concerned with the Earth
and the rocks of which it is composed, the
processes by which they were formed during
geological time, and the modelling of the Earth's
surface in the past and at the present day.
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Engineering Geology
Geologists• Study problems• Qualitative analysis emphasized (traditionally)• See earth as complex (heterogeneous & anisotropic)
Engineers• Solve problems• Quantitative analysis emphasized• Models often simplified/simplistic
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Engineering Geology
Engineering geology is the application of geological data, techniques and principles to the study of rock and soil surficial materials, and ground water. This is essential for the proper location, planning, design, construction, operation and maintenance of engineering structures. Engineering geology complements environmental geology, or hydrogeology
Engineering Geology
:Engineering Geology study
Engineering Geology study{Rock, soil, water}, the interaction
among these three constituents, as well as with engineering
materials and structures
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Engineering Geology
Why Engineering Geology matter?
•Serve civil engineering to provide information in 3 most important areas:
1–Resources for construction;
•Aggregates, fills and borrows.
2–Finding stable foundations;
•Present is the key to the past –geology
•Past is the key to the future -engineering
3–Mitigation of geological hazards
•Identify problems, evaluate the costs, provide information to mitigate the problem
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Engineering Geology
Importance of engineering geology to in Civil engineering
1.The investigation of foundations for all types of major structures, (dams, bridges, airports, large buildings, and towers.)
2.The evaluation of geologic conditions along tunnel,
pipeline, canal, railway, and highway routes. 3.The exploration and development of sources of rock,
soil and sediment for use as construction material.
4.The investigation and development of surface and
groundwater resources.
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Importance of engineering geology to in Civil engineering practices
5.The evaluation of geologic hazards such as landslides, faults and earthquakes, radon, asbestos, subsidence, expansive and collapsible soils, expansive bedrock, cavernous rock, and liquefaction.
6.Evaluation of geologic conditions (including groundwater) affecting residential, commercial, and industrial land use and development.
7.Construction geology, including slope stability, dewatering, sub-drains, grouting considerations, and excavatability.
8.Safe siting and geologic design considerations for waste management and disposal facilities and to in establishing the bases for remedial actions for mitigation of related environmental threats from un-engineered and
uncontrolled waste disposal 13
Engineering Geology
The Engineering Geology was established in US after the St. Francis Dam near Los Angeles, CA failed on March 12, 1928. Engineering community realized the importance of Geology factor in civil engineering
Hussien aldeeky 14
Engineering Geology
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Engineering Geology
1, Highway alignment, locations of right-of-way for the proposed construction;
2, Subsurface exploration along highway centerline and bridge foundations;
3, Classification of materials for excavation, rock versus common borrow (soil);
4, Cut and fill volumes determined to minimize the need of offsite borrow pits or rock waste areas; volume changes in both soil and rock from the cut to the fill are estimated;
5, Recommend angle of back slope (rock cut slope) based on rock conditions;
6, Groundwater aspects related to construction;
7, Evaluation of landslide-prone areas;
8, Recognition of compressible soil materials;
9, Construction materials, location and inventory;
10, highway effects on adjacent landowners;16
Highway Engineering Geology Considerations
Engineering Geology
January 10, 2005: A 25-foot boulder blocks Topanga Canyon Blvd. near Malibu, southern California, after a massive mudslide killed 3 and had up
to 21 missing (AP)17