Homepage » ALL COURSE » College of Engineering » Foundation Engineering | Department of Civil Engineering Prof. An-Bin Huang
本課程是由 國立陽明交通大學土木工程學系提供。
An introduction for undergraduate civil engineering students to the fundamental concepts and application of foundation engineering.
Textbook:Das, B.M., 2011. “Principles of Foundation Engineering.” 7th Edition, Cengage Learning.
For perfect learning results, please buy textbooks!
Instructor(s) | Department of Civil Engineering Prof. An-Bin Huang |
---|---|
Course Credits | 3 Credits |
Academic Year | 104 Academic Year |
Level | Junior |
Prior Knowledge | Soil Mechanics |
Related Resources | Course Video Course Syllabus Course Calendar |
Week | Course Content | Course Video |
---|---|---|
Week 01 | 課程介紹 | Watch Online |
Week 01 | Ch 2 Natural soil deposit and subsoil exploration (1/3) 2.11 Subsurface Exploration 2.12 Subsurface Exploration Program 2.13 Exploratory borings in the field 2.14 Procedures for sampling soil 2.15 Split-spoon (barrel) sampling | Watch Online |
Week 02 | Ch 2 Natural soil deposit and subsoil exploration (2/3) 2.15 Split-spoon (barrel) sampling 2.16 Scraper bucket 2.17 & 2.18 Undisturbed samples 2.19 Observation of water table | Watch Online |
Week 02 | Ch 2 Natural soil deposit and subsoil exploration (3/3) 2.20 The vane shear test (VST) 2.21 The cone penetration test (CPT) 2.22 Pressuremeter test (PMT) 2.23 The Flat Plate Dilatometer test (DMT) 2.25 The boring logs 2.26 Geophysical exploration 2.27 Sub | Watch Online |
Week 03 | Ch 3 Shallow foundationsultimate bearing capacity (1/3) 3.1 Introduction 3.2 General concept 3.3 Terzaghi’s bearing capacity theory 3.4 Factor of safety 3.5 Modification of BCE for water table 3.6 The general bearing capacity equation 3.7 Case studies on | Watch Online |
Week 04 | Ch 3 Shallow foundationsultimate bearing capacity (2/3) 3.8 Effect of soil compressibility 3.9 Eccentrically loaded foundations 3.10 Ultimate bearing capacity under eccentric loading – one way eccentricity 3.11 Bearing capacity – two way eccentricity | Watch Online |
Week 04 | Ch 3 Shallow foundationsultimate bearing capacity (3/3) 3.10 Ultimate bearing capacity under eccentric loading – one way eccentricity 3.11 Bearing capacity – two way eccentricity | Watch Online |
Week 04 | Ch 5 Shallow foundations: allowable bearing capacity and settlement (1/3) 5.1 Introduction 5.2 Stress due to a concentrated load 5.3 Stress due to a circular loaded area 5.4 Stress below a rectangular area 5.5 Average stress increase due to a rectangularl | Watch Online |
Week 05 | Ch 5 Shallow foundations: allowable bearing capacity and settlement (2/3) 5.12 Settlement of sandy soil: use of strain influence factor 5.13 Settlement of foundation on sand based on SPT 5.15 Primary consolidation settlement relationships | Watch Online |
Week 05 | Ch 5 Shallow foundations: allowable bearing capacity and settlement (3/3) 5.17 Settlement due to secondary consolidation 5.18 Field load test 5.19 Presumptive bearing capacity 5.20 Tolerable settlement of buildings | Watch Online |
Week 06 | Ch 6 Mat Foundations 6.1 Introduction 6.2 Combined footings 6.3 Common types of mat foundations 6.5 Differential settlement of mat 6.6 Field settlement observations for mat foundations 6.7 Compensated foundations | Watch Online |
Week 07 | Ch 7 Lateral Earth Pressure (1/4) 7.1 Introduction 7.2 Lateral earth pressure at rest | Watch Online |
Week 07 | Ch 7 Lateral Earth Pressure (2/4) 7.3 Rankine active earth pressure 7.4 A general case for Rankine active pressure | Watch Online |
Week 08 | Ch 7 Lateral Earth Pressure (3/4) 7.4 A general case for Rankine active pressure 7.5 Coulomb’s active earth pressure | Watch Online |
Week 08 | Ch 7 Lateral Earth Pressure (4/4) 7.6 Lateral earth pressure due to surcharge 7.7 Active earth pressure for earthquake conditions 7.8 Active pressure for wall rotation about the top: braced cut 7.9 Active earth pressure for translation of retaining wall – | Watch Online |
Week 09 | Ch 8 Retaining Walls (1/2) 8.1 Introduction 8.2 Proportioning retaining walls 8.3 Application of lateral earth pressure theories to design 8.4 Stability of retaining walls 8.5 Check for overturning 8.6 Check for sliding along the base | Watch Online |
Week 09 | Ch 8 Retaining Walls (2/2) 8.7 Check for bearing capacity failure 8.8 Construction joints & drainage from backfill 8.10 Comments on design of retaining walls and a case study 8.11 Soil reinforcement 8.12 Considerations in (metallic ) soil reinforcement 8. | Watch Online |
Week 11 | Ch 9 Sheet Pile Walls (1/3) 9.1 Introduction 9.2 Construction methods 9.3 Cantilever sheet pile walls 9.4 Cantilever sheet piling penetrating sandy soils | Watch Online |
Week 11 | Ch 9 Sheet Pile Walls (2/3) 9.4 Cantilever sheet piling penetrating sandy soils 9.5 Special cases for cantilever walls penetrating a sandy soil 9.6 Cantilever sheet piling penetrating clay (undrained, f = 0) 9.7 Special cases for cantilever walls penetra | Watch Online |
Week 12 | Ch 9 Sheet Pile Walls (3/3) 9.13 Fixed earth-support method for penetration into sandy soil 9.14 Field observations for anchor sheet pile walls 9.15 Free earth support method for penetration of clay 9.16 Anchors 9.17 Holding capacity of anchor plates in s | Watch Online |
Week 12 | Ch 10 Braced Cuts (1/3) 10.1 Introduction 10.2 Pressure envelope for braced-cut design | Watch Online |
Week 13 | Ch 10 Braced Cuts (2/3) 10.2 Pressure envelope for braced-cut design 10.3 Pressure envelope for cuts in layered soil 10.4 Design of various components of a braced cut | Watch Online |
Week 13 | Ch 10 Braced Cuts (3/3) 10.4 Design of various components of a braced cut 10.5 Case studies of braced cuts 10.6 Bottom heave of a cut in clay 10.7 Stability of the bottom of a cut in sand 10.8 Lateral yielding of sheet piles and ground settlement | Watch Online |
Week 14 | Ch 11 Pile Foundations (1/6) 11.1 Introduction | Watch Online |
Week 15 | Ch 11 Pile Foundations (2/6) 11.2 Types of (driven) piles – according to materials | Watch Online |
Week 15 | Ch 11 Pile Foundations (3/6) 11.3 Estimating pile length 11.4 Installation of piles 11.5 Load transfer mechanism 11.6 Equations for estimating pile capacity 11.7 Meyerhof’s method for estimating Qp 11.8 Vesic’s method for estimating Qp | Watch Online |
Week 16 | Ch 11 Pile Foundations (4/6) 11.7 Meyerhof’s method for estimating Qp 11.8 Vesic’s method for estimating Qp 11.9 Coyle and Castello’s method for estimating Qp in sand 11.10 Correlations for calculating Qp with SPT and CPT results 11.11 Frictional resistan | Watch Online |
Week 16 | Ch 11 Pile Foundations (5/6) 11.12 Frictional (skin) resistance in clay 11.13 Point bearing capacity of piles resting on rock 11.14 Pile load test 11.15 Elastic settlement of piles | Watch Online |
Week 17 | Ch 11 Pile Foundations (6/6) 11.17 Pile-driving formula 11.19 Negative skin friction | Watch Online |
課程目標
An introduction for undergraduate civil engineering students to the fundamental concepts and application of foundation engineering.
課程章節
章節內容 |
Introduction (課程內容介紹) |
Subsurface exploration (地下探測) |
Shallow foundations (淺基礎) |
Mat foundations (筏式基礎) |
Lateral earth pressure 側向土壓力 |
Retaining walls 擋土牆 |
Sheet pile Structures 板樁結構 |
Braced cuts 支撐開挖 |
Pile foundations 樁基礎 |
課程書目
Das, B.M., 2011. “Principles of Foundation Engineering.” 7th Edition, Cengage Learning.
評分標準
項目 | 百分比 |
作業 (Homeworks) | 10% |
第一次小考 (First Quiz) | 22.5% |
第二次小考 (Second Quiz) | 22.5% |
第三次小考 (Third Quiz) | 22.5% |
第四次小考 (Fourth Quiz) | 22.5% |
本課程行事曆提供課程進度與考試資訊參考。
學期週次 | 上課日期 | 參考課程進度 |
第一週 | 2015/09/15 2015/09/18 |
|
第二週 | 2015/09/22 2015/09/25 |
|
第三週 | 2015/09/30 2015/10/02 |
|
第四週 | 2015/10/06 2015/10/09 |
|
第五週 | 2015/10/13 2015/10/16 |
|
第六週 | 2015/10/20 2015/10/23 |
|
第七週 | 2015/10/27 2015/10/30 |
|
第八週 | 2015/11/03 2015/11/06 |
|
第九週 | 2015/11/10 2015/11/13 |
|
第十週 | 2015/11/17 2015/11/20 |
|
第十一週 | 2015/11/24 2015/11/27 |
|
第十二週 | 2015/12/01 2015/12/04 |
|
第十三週 | 2015/12/08 2015/12/11 |
|
第十四週 | 2015/12/15 2015/12/18 |
|
第十五週 | 2015/12/22 2015/12/25 |
|
第十六週 | 2015/12/29 |
|
第十七週 | 2016/01/05 2016/01/08 |
|
第十八週 | 2016/01/15 |
|