Applied Design

Course title

Q2630600

Applied Design

	HASEGAWA Hiroshi
	WATANABE Dai

Course description

To the mechanics problem, the simulation modeling technology and a capability to predict its behavior are learned. This class consists of learning for a functional model and a structural model through an active learning with a lecture and an exercise. Moreover, Its learning is not a lecture of the numerical analysis methodology but the modeling and the consideration techniques of an actual mechanics problem. The knowledge for the prediction to static and dynamic behavior are learned through the simulation result.

Purpose of class

To acquire the simulation modeling technology and the capability to predict for the behavior of mechanical structure to the mechanics problem.

Goals and objectives

Can learn a usage of a simulation software for understanding the behavior of mechanical structure
Can acquire simulation modeling and analysis technology through a lecture and an exercise
Can understand the V&V process for the engineering simulation

Language

Japanese

Class schedule

	Class schedule	HW assignments (Including preparation and review of the class.)	Amount of Time Required
1.	Class orientation and What's Mechanical simulation?	Looking over the syllabus of this class	30minutes
2.	Introduction of Matlab/Simulink, sine-wave and a composite waveform	Reviewing about physics	60minutes
		Making a simulation model and its analysis	120minutes
		Making a report	45minutes
3.	Dynamic equation: catch simulation	Reviewing about physics	60minutes
		Making a simulation model and its analysis	120minutes
		Making a report	45minutes
4.	1st-order lag: damping time constant	Looking over Mechanics and Control Engineering 1	60minutes
		Making a simulation model and its analysis	120minutes
		Making a report	45minutes
5.	2nd-order lag: overshooting	Checking the 1st-order lag's exercise result	60minutes
		Making a simulation model and its analysis	120minutes
		Making a report	45minutes
6.	Mass spring and damping system: natural frequency	Checking the 2nd-order lag's exercise result	60minutes
		Making a simulation model and its analysis	120minutes
		Making a report	45minutes
7.	Mass spring and damping system: step-climbing (1DCAE，Matlab/Simulink)	Looking over Mechanics and Vibration Problems in Engineering for a step-climbing	60minutes
		Making a simulation model and its analysis	120minutes
		Making a report	45minutes
8.	Mass spring and damping system: Step-climbing	Making a simulation model and its analysis	120minutes
8.	Mass spring and damping system: Step-climbing	Making a report	45minutes
9.	Structural analysis using Finite Element Method	Looking over Strength of Materials 1 and 2	60minutes
		Making a simulation model and its analysis	120minutes
		Making a report	45minutes
10.	Tensile load analysis	Checking about strain, displacement, and stress in Strength of Materials 1 and 2	60minutes
		Making a simulation model and its analysis	120minutes
		Making a report	45minutes
11.	Stress concentration: perforated plain plate of tensile and compress load analysis	Checking about stress concentration in Strength of Materials 1 and 2	60minutes
		Making a simulation model and its analysis	120minutes
		Making a report	45minutes
12.	Shell & solid elements and analysis accuracy: I-type structure bending analysis	Making a simulation model and its analysis	120minutes
12.		Making a report	45minutes
13.	V&V: experiment of large deformation problem	Reviewing V&V process in Systems Engineering B	60minutes
		Making a summary of experimental results	45minutes
		Making a report	45minutes
14.	V&V: simulation of large deformation problem	Making a simulation model and its analysis	120minutes
14.	V&V: simulation of large deformation problem	Making a report	45minutes
Total.	-	-	2700minutes

Relationship between 'Goals and Objectives' and 'Course Outcomes'

	Function model	Structure model	Total.
1.	20%	20%	40%
2.	20%	20%	40%
3.		20%	20%
Total.	40%	60%	-

Evaluation method and criteria

Carrying out comprehensive evaluation using reports (function and structure models) of exercise subject. If the report consisted of exercise subject’s content, analysis procedure and method, consideration, and conclusion, moreover the reason is described through understanding lecture explanation, Those reports will be evaluated as 60%.

Textbooks and reference materials

Lecture materials

Prerequisites

Taking Exercises in Applied design

Office hours and How to contact professors for questions

Monday, 12:40-13:10

Regionally-oriented

Non-regionally-oriented course

Development of social and professional independence

Course that cultivates an ability for utilizing knowledge
Course that cultivates a basic problem-solving skills

Active-learning course

Most classes are interactive

Course by professor with work experience

Work experience	Work experience and relevance to the course content if applicable
Applicable	To perform syllabus planning based on experience and needs of our company period, and setting an exercise problem to obtain CAE technical ability.

Education related SDGs:the Sustainable Development Goals

9.INDUSTRY, INNOVATION AND INFRASTRUCTURE
12.RESPONSIBLE CONSUMPTION & PRODUCTION

Last modified : Fri Mar 18 22:24:21 JST 2022