Course Objectives
(1) Understand and can explain the basics of mechanical design.
(2) Understand and can explain the types and applications of mechanical elements.
(3) Understand and can explain the design methods for mechanical elements.
Rubric
| Ideal Level | Standard Level | Unacceptable Level |
Achievement 1 | Fully understand and can explain the basics of mechanical design. | Understand and can explain the basics of mechanical design. | Do not understand and cannot explain the basics of mechanical design. |
Achievement 2 | Fully understand and can explain the types and applications of mechanical elements. | Understand and can explain the types and applications of mechanical elements. | Do not understand and cannot explain the type and application of mechanical elements. |
Achievement 3 | Fully understand and can apply design methods for mechanical elements. | Understand and apply design methods for mechanical elements. | Do not understand and cannot apply design methods for mechanical elements. |
Assigned Department Objectives
学習・教育到達度目標 (D)
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学習・教育到達度目標 (F)
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Teaching Method
Outline:
Mechanical design is an important technology for manufacturing machinery, and is the forefront study in manufacturing (mechanical products). We will learn the basic technologies for designing and selecting machine elements, mainly fastening elements such as screws and welding among other elements of the machine.
Style:
Classes will be held in a lecture style. There will be assignments as appropriate.
Notice:
1) Always pay attention to how to respond to problems encountered in real machines. (2) Understand the application methods of strength design and obtain techniques for application.
Students who miss 1/4 or more of classes will not be eligible for a passing grade.
Characteristics of Class / Division in Learning
Course Plan
|
|
|
Theme |
Goals |
2nd Semester |
3rd Quarter |
1st |
Machinery and mechanical element design |
Understand and can explain the definition of machinery, and the types of mechanical elements.
|
2nd |
Basic mechanical element design technology (1) |
Understand and apply the dynamics, work and power of rigid bodies.
|
3rd |
Basic mechanical element design technology (2) |
Can explain stress and strain, Hook's law, and stress-strain line diagrams.
|
4th |
Basic mechanical element design technology (3) |
Can explain the meaning of allowable stress, factor of safety, fatigue failure, and stress concentration.
|
5th |
Axis design technology (1) |
Understand and apply axis types and uses.
|
6th |
Axis design technology (2) |
Can calculate the intensity, deformation and critical speed of an axis.
|
7th |
Key design technology |
Can calculate the key strength.
|
8th |
Midterm exam |
|
4th Quarter |
9th |
Cotter design technology |
Can calculate the intensity of cotters.
|
10th |
Design technology for the fastening pins |
Can calculate the strength of the fastening pins.
|
11th |
Design techniques for welded structures |
Can calculate the strength of a welded joint.
|
12th |
Screw design technology (1) |
Understand the types, features, applications and standards of screws, bolts, nuts, and can calculate the tightening torque for bolt-nut connections.
|
13th |
Screw design technology (2) |
Can calculate the shear stress and contact surface pressure acting on the bolt.
|
14th |
Rivet design technology |
Can calculate the strength of the rivets.
|
15th |
Drills exercise |
Gain a better understanding of machine design methods by exercises.
|
16th |
Final exam |
|
Evaluation Method and Weight (%)
| Examination | Exercises | Mutual Evaluations between students | Behavior | Portfolio | Other | Total |
Subtotal | 70 | 30 | 0 | 0 | 0 | 0 | 100 |
Basic Proficiency | 0 | 0 | 0 | 0 | 0 | 0 | 0 |
Specialized Proficiency | 70 | 30 | 0 | 0 | 0 | 0 | 100 |
Cross Area Proficiency | 0 | 0 | 0 | 0 | 0 | 0 | 0 |