Structural Engineering 3

Course Information

College	Anan College	Year	2024
Course Title	Structural Engineering 3
Course Code	1815C03	Course Category	Specialized / Compulsory
Class Format	Lecture	Credits	Academic Credit: 2
Department	Course of Civil Engineering	Student Grade	5th
Term	First Semester	Classes per Week	前期:2
Textbook and/or Teaching Materials	Concrete Structural Engineering（MORIKITA PUBLISHING CO., LTD）
Instructor	Kadono Takuma

Course Objectives

1.Able to explain concrete reinforcement methods, types and characteristics of structures, and typical design methods (limit state design method, allowable stress design method).
2.Able to explain the mechanical properties of reinforcing bars and concrete, and calculate the basic cross-sectional dimensions of RC (reinforced concrete).
3.Able to calculate the basic sectional forces of RCs subjected to bending moments, shear forces, or axial forces, and consider the safety of structural members.
4.Able to understand the durability and fatigue of RC, and consider their basic safety.
5.Able to explain the characteristics and classification of PCs, understand and calculate prestress forces and section forces, and examine usability.

Rubric

	Ideal Level	Standard Level	Minimum Level
Achievement 1	Able to understand concrete reinforcement methods, types and characteristics of structures, and typical design methods, and explain them accurately.	Able to understand concrete reinforcement methods, types and characteristics of structures, and typical design methods, and explain them.	Able to explain concrete reinforcement methods, types and characteristics of structures, and typical design methods.
Achievement 2	Able to accurately understand and explain the mechanical properties of reinforcing bars and concrete, and accurately understand and calculate the basic cross-sectional dimensions of RC.	Able to understand and explain the mechanical properties of reinforcing bars and concrete, and understand and calculate basic cross-sectional dimensions of RC.	Able to explain the mechanical properties of reinforcing bars and concrete, and calculate the basic cross-sectional dimensions of RC.
Achievement 3	Able to understand and explain the mechanical properties of reinforcing bars and concrete, and understand and calculate basic cross-sectional dimensions of RC.	Able to understand and calculate the basic sectional forces of RC subjected to bending moments, shear forces, or axial forces, and consider the safety of structural members.	Able to calculate the basic sectional forces of RCs subjected to bending moments, shear forces, or axial forces, and consider the safety of structural members.
Achievement 4	Able to understand the durability and fatigue of RC, and properly consider their safety.	Able to understand the durability and fatigue of RC, and consider their basic safety.	Able to consider the basic safety of RC durability and fatigue.
Achievement 5	Able to properly explain the characteristics and classification of PCs, understand and calculate prestress forces and sectional forces, and examine usability appropriately.	Able to explain the characteristics and classification of PCs, understand and calculate prestress forces and section forces, and examine usability.	Able to explain the characteristics and classification of PC, calculate the prestress force and section force, and examine the usability.

Assigned Department Objectives

学習・教育到達度目標 D-1 See

Teaching Method

Outline:

RC (reinforced concrete) and PC (prestressed concrete) are the basic structural forms of construction structures. The goal of this course is to acquire basic knowledge and skills related to the mechanical properties and design of RC and PC, which are necessary for the design, construction, maintenance, etc. of actual structures.In this course, faculty member who was in charge of research, development and design of concrete structures at company use its experience to teach this course.

Style:

【31 class hours + final exam + 60 self-study hours】 Since this course is a credit course, it is necessary to submit assignments for pre- and post-learning.

Notice:

This course belongs to JABEE-related dynamics courses. Make sure you bring a calculator with you every time, as you will be doing calculations during the lecture. This class is based on the knowledge of related subjects such as materials, structures, soil properties, etc. in the 2nd to 4th years, so please review these class contents before participating in the class. This course is closely related to the annual structural materials experiment, materials science 1 and 2, etc., so please do not only class but also self-study to understand the contents of the lecture.

Characteristics of Class / Division in Learning

Active Learning	Aided by ICT	Applicable to Remote Class	Instructor Professionally Experienced

Course Plan

			Theme	Goals
1st Semester
	1st Quarter
		1st	Outline / Concrete structure design method	Able to explain the goals, significance, plans, and precautions of this course. / Able to explain concrete reinforcement methods, types and characteristics of structures, and typical design methods.
		2nd	Mechanical properties of materials used (reinforced concrete, concrete)	Able to explain the mechanical properties of reinforcing bars and concrete.
		3rd	Basics of RC structural calculation	Able to calculate the basic cross-sectional dimensions of RC.
		4th	Limit state design method for RC members (cross-section failure)	Able to calculate the basic sectional forces of RC subjected to bending moments and shear forces, and consider the safety of structural members.
		5th	Limit state design method for RC members (cross-section failure)	Able to calculate the basic sectional forces of RC subjected to bending moments and shear forces, and consider the safety of structural members.
		6th	RC member limit state design method (cross-section failure and usability)	Able to calculate the basic sectional forces of RC subjected to bending moments and shear forces, and consider the safety of structural members.
		7th	Limit state design method for RC members (usability)	Able to calculate the basic sectional forces of RC subjected to bending moments and shear forces, and consider the safety of structural members.
		8th	Midterm exam
	2nd Quarter
		9th	Return of exam papers / Allowable stress design method for RC members	Able to calculate the basic sectional forces of RC subjected to bending moments and shear forces, and consider the safety of structural members.
		10th	Allowable stress design method for RC members	Able to calculate the basic sectional forces of RC subjected to bending moments and shear forces, and consider the safety of structural members.
		11th	Limit state design method for RC members (bending and axial force)	Able to calculate the basic sectional forces of RC subjected to bending moments and shear forces, and consider the safety of structural members.
		12th	Limit state design method for RC members (durability and fatigue)	Able to do basic safety considerations regarding RC durability and fatigue.
		13th	Limit state design method for RC members (durability and fatigue)	Able to do basic safety considerations regarding RC durability and fatigue.
		14th	PC member design method	Able to explain the characteristics and classification of PC, calculate the prestress force and section force, and examine the usability.
		15th	PC member design method	Able to explain the characteristics and classification of PC, calculate the prestress force and section force, and examine the usability.
		16th	(Final exam) Return of exam papers

Evaluation Method and Weight (%)

	Examination	Presentation	Mutual Evaluations between students	Behavior	Portfolio	Other	Total
Subtotal	60	0	0	0	40	0	100
Basic Proficiency	20	0	0	0	10	0	30
Specialized Proficiency	30	0	0	0	20	0	50
Cross Area Proficiency	10	0	0	0	10	0	20