This course is the exercise class focusing on the material property of the concrete and mechanical behavior of reinforced concrete.
It is requested for concrete to meet with several requirements; fresh property to make casting work easy and sure and physical and chemical property of hardened concrete to make concrete structure rigid and durable. In this lecture, students understand the fresh property through learning design method of mix proportion and to meet with requested performance, and mix the designed concrete by themselves. And they also understand the physical and chemical property of hardened concrete through some physical and chemical tests on the hardened concrete.
In the classes on the reinforced concrete, students learn how a reinforced concrete structure is made and how they fail through the experimental work. And in the creative design competition, students get an experience of setting group goal and strategy to tackle a task, building consensus about them in the group, and overcoming technical challenging to achieve the team goal with integrating their knowledge and experiences.
This course aims to cultivate the basis of civil engineer through the experimental works. Students are expected to understand deeply the property of concrete, the mechanical behavior of reinforced concrete structures, and get an experience of the team management in engineering.
By the end of this course, students will be able to:
1) Understand the designing method of concrete mix proportion and decide the mix proportion to meet the requested performance.
2) Learn the test of fresh concrete, and explain the property of fresh concrete.
3) Learn the test of hardened concrete, and explain the physical and chemical property of hardened concrete.
4) Explain the fracture process of reinforced concrete members and the difference of the failure patterns.
5) Explain the making process of reinforced concrete members.
6) Propose a team goal and strategy to tackle the task and build consensus for them.
7) Implement the strategy to achieve the goal by integrating the knowledge about the property of cementious material and structural design.
Construction material, Concrete, Structural mechanics of reinforced concrete
|✔ Specialist skills||✔ Intercultural skills||✔ Communication skills||✔ Critical thinking skills||✔ Practical and/or problem-solving skills|
Classes will be held in each separated groups. Students should gather at the room where is instructed, and the understanding of the experiment contents and related matters are checked in advance of the experiment. In every class, students are requested to submit reports.
|Course schedule||Required learning|
|Class 1||Class 1: Mix proportion design, Test on fresh concrete Class 2: Test on hardened concrete Class 3: Making of Reinforced Concrete Member Class 4: Tests on the Structural Performance of Reinforced Concrete Member Class 5: Creative Design Competition with Cementious Material ①design and making specimen Class 6: Creative Design Competition with Cementious Material ②Performance test||Class 1: Mix proportion design, Principle of each test on fresh concrete, process, and understanding of the results. Class 2: Principle of each test on hardened concrete, process, and understanding of the results. Class 3: Understanding the making process of reinforced concrete member and its technical backgrounds. Class 4: Understanding the fracture process of the reinforced concrete member and the difference of the failure patterns. Class 5: Proposing a goal and strategy to win the competition, and building consensus for them. Integrated designing of material property and structural shape for implementing of the strategy is requested. Class 6: Presentation skill to explain your strategy and technical challenges.|
Course materials will be handed out in the first class
Murata, Jiro and Kuniaki, Yasuda. (eds.), New Experiment Guidline of Civil Engineering - Concrete (Fourth edition), Gihodo Shupan, ISBN:: 4-7655-1708-X (Japanese)
Niwa, Junichiro, Basic of concrete structure, Suurikougakusha, ISBN: 978-4901683333 (Japanese)
Otsuki, Nobuaki and Miyasato, Shinichi, Concrete Material, Asakura Shotten, ISBN: 978-4-254-26501-9 (Japanese)
Report(100%). Students are requested to attend all classes.
Students must have successfully completed Concrete Engineering (CVE.E201) and Reinforced concrete structure (CVE.E301), or have equivalent knowledge.
Students are divided into some groups at the guidance, and students will tale classes with the group members. The order of the classes for each group is informed at the guidance.