Practice on Computer Aided Engineering Systems

Course title

Y0149300

Course description

In this section, we would learn material mechanics, mechanical mechanics, thermal engineering and fluid dynamics which are the foundation of CAE (Computer Aided Engineering) through exercises, analyze themselves. Furthermore, through analysis of the phenomenon that deformation and heat are coupled, we would learn the influence of temperature gradient on material deformation. Finally, conduct an optimal design exercise using CAE and understand the necessary conditions for using CAE in practice.

Purpose of class

1. To understand the matters of material dynamics (understanding by a simplified model) by three-dimensional analysis and recognizing the agreement and disagreement between them.
2.To understand the significance and limitations of the material dynamics model, and then using the two- and three-dimensional CAE Learn analytical techniques.

Goals and objectives

To learn CAE method based on finite element method for relationship between deformation and stress, heat transfer and influence of deformaion on heat transfer.
To execute and evaluation of these solutions of FEM simulation by using ANSYS software on deformation, stress and heat transfer.
To understand inportance of CAE for design by optimization technique.

Language

Japanese

Class schedule

	Class schedule	HW assignments (Including preparation and review of the class.)	Amount of Time Required
1.	Introduction; basic mechanics, exercise method	Study on Solid-Works software	50minutes
2.	Deformation and Stress 1; basic formula, formulation of tension and compression	Study on Solid-Works software	50minutes
3.	Deformation and Stress 2; explanation for ANSYS software, problem-1	Study on Solid-Works software	50minutes
4.	Deformation and Stress 2; bending deformation, problem-2	Study on Solid-Works software	50minutes
5.	Deformation and Stress 3; bending deformation using composite material, problem-3	Study on Solid-Works software	50minutes
6.	Thermal analysis 1; basic formula, formulation of heat transfer	Study on Solid-Works software	50minutes
7.	Thermal analysis 2;explanation for ANSYS software, problem-4	Study on Solid-Works	50minutes
8.	Thermal analysis 3; heat flux condition, effect of heat transfer	Study on Solid-Works software	50minutes
9.	Confirmation of these ploblems	Study on Solid-Works software	50minutes
10.	Heat and deformation 1; basic formula, formulation of thermal stress and heat analysis	Study on Solid-Works software	50minutes
11.	Heat and deformation 2;explanation for ANSYS software, problem-5	Study on Solid-Works software	50minutes
12.	Heat and deformation 3; heating and cooling process, bending deformation	Study on Solid-Works software	50minutes
13.	Design by CAE 1; optimal design, problem-6	Study on Solid-Works software	50minutes
14.	Design by CAE 2; problem-7	Study on Solid-Works software	50minutes
Total.	-	-	700minutes

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

	Study of CAE method	Total.
1.	20%	20%
2.	20%	20%
3.	20%	20%
4.	20%	20%
5.	20%	20%
Total.	100%	-

Evaluation method and criteria

Reports and interview.

Textbooks and reference materials

None specified

Prerequisites

linear algebra

Office hours and How to contact professors for questions

On Monday.

Relation to the environment

Environment-related course ( 5%)

Regionally-oriented

Non-regionally-oriented course

Development of social and professional independence

Course that cultivates a basic problem-solving skills

Active-learning course

Most classes are interactive

Last modified : Wed Oct 17 07:28:01 JST 2018