Advanced Computaional Mechanics

Academic year

2025Year

Term

Second Semester

Course title

Advanced Computaional Mechanics

Class type

Lecture

Course title (ENG)

Advanced Computaional Mechanics

Class code・Class name・Teaching forms

Z1100016 Advanced Computaional Mechanics

Instructor

HE Jianmei

Credits

2.0Credits

Day and Time

Wed.4Period

Campus

Shinjuku Remote

Location

Relationship between diploma policies and this course

A) A high degree of specialized expertise　100%
B) The skills to use science and technology　0%
C) The ability to conduct research independently, knowledge pertaining to society and occupations, and sense of ethics required of engineers and researchers　0%
D) Creative skills in specific areas of specialization　0%

Goals and objectives

Outline from foundation to application on mathematical and technical aspects of numerical analysis and design calculations for static and dynamic problems with the help of computer power. It also covers the details related to the basic topics of nonlinear approximation analysis method (material nonlinearity, large deformation and contact problem, etc.), details of major general linear/nonlinear approximation analysis software widely used currently.

Prerequisites

Basic knowledge such as material dynamics, mathematical differential/integration and matrix, and being able to use simulation tools using the 3D CAD software Solidworks are assumed.

Method Using AL・ICT

Presentation

Class schedule

1. Guidance and overview of computational mechanics
2. Outline of mathematics and mechanics as foundation of computational mechanics in structural field
3. Overview of governing equations on initial value problem (time) and boundary value problem (space) of physical phenomena
4. Formulation of finite element analysis by considering static problem of linear elastic structures
5. Outline of time history analysis method and eigenvalue analysis method for dynamic problems
6. Outline of linear / nonlinear analysis of structural problems and coupled analysis between different fields
7〜11. Reading in turns about knowledge of structural design analysis using finite element method
・Various discretization analysis handled in computational mechanics
・Shape modeling of structural design analysis
・Material models used for structural design analysis
・Boundary conditions /loading conditions on structural design analysis
・Influence on accuracy of analytical results by finite element mesh
・Numerical solution of linear simultaneous equations
・Discussion and analysis on analytical results from the viewpoint of engineering
12~14. Perform simulation of final exercise problem and submit a report
15. Review of study contents

Evaluation

Interim report / Rancho presentation (50%); Final assignment training / report (50%).

Feedback for students

For inquiries regarding grades, please contact by email (at13148@ns.kogakuin.ac.jp).

Textbooks

特に指定しない

Reference materials

竹内則雄・樫山和男・寺田賢二郎共著：「計算力学 - 有限要素法の基礎」（森北出版）
久田,野口共著,「非線形有限要素法の基礎と応用」（丸善）

Office hours and How to contact teachers for questions

Wednesday 13:40~14:10 at Shinjuku school building A-1718
Email to: at13148@ns.kogakuin.ac.jp

Message for students

また材料力学の基礎，微分・積分またマトリックスなどの数学的基礎知識が必要となるので，予習するようにして下さい．

Course by professor with work experience

Applicable

Work experience and relevance to the course content if applicable

１．衛星システム構体系の概念設計において、有限要素法による固有振動解析
２．CFRPロケット燃料タンクの開発に関する要素技術検討において、有限要素法による応力解析
３．その他

Teaching profession course

Mechanical Engineering Program

Syllabus data