シラバス参照/授業情報参照
シラバス参照/授業情報参照
シラバス参照/授業情報参照
| 更新日時 | 2025/04/04 14:37:03 |
|---|---|
| 科目分類 | 機械・電気電子工学コース開講科目 |
| 時間割コード | NSE5005 |
| 授業科目名 | Solid Mechanics固体力学特論 |
| 授業科目名(英語) | Solid Mechanics |
| 科目コード | NSE5005 |
| 科目ナンバー | |
| 主担当教員(所属) | 森本 卓也(総合理工学部機械・電気電子工学科) |
| 単位数 | 2.0 |
| 時間数 | 0.0 |
| 履修年次 | 1年,2年 |
| 開講学期 | 2025年度 前期 |
| 曜日・時限 | 他0 |
| 必修/選択/選択必修/自由 | |
| 履修資格 | |
| 各種教育プログラム名称 |
| 授業形態 | 講義 |
|---|---|
| 授業の目的 | In mechanics of materials, we have learned methods and concepts for stress analysis of simple one-dimensional shapes (bars, beams, shafts, columns, etc.). Still, in recent years we have come to use software that performs direct stress analysis using 3D shape data of products. In order to use such tools correctly, it is necessary to acquire the basic concepts and methods for appropriate modelling, setting of boundary conditions and evaluation of analysis results. In this course, students first learn the basics of three-dimensional solid mechanics and then the finite element method. Then, knowledge and techniques for practical structural analysis are acquired. |
| 授業の到達目標 |
(1) Understand the concepts and mathematical description methods of solid mechanics and be able to obtain simple deformation measures (e.g. stress, strain, and displacement). (2) Understand the concepts and methods of the finite element method, be able to carry out structural analysis, and evaluate the results appropriately. |
| 授業の内容および方法 |
01 1D elasticity problems: strong formulation 02 1D elasticity problems: weak formulation 03 1D elasticity problems: finite element approximation 04 1D elasticity problems: element stiffness matrix 05 1D elasticity problems: global stiffness matrix 06 1D elasticity problems: verification of results 07 Summary 08 Basics of 2D elasticity: stress and strain 09 Basics of 2D elasticity: equilibrium and constitutive laws 10 Finite element method for multi-dimensional elasticity 11 Finite element method for multi-dimensional elasticity 12 Finite element analysis: 1D trusses 13 Finite element analysis: 2D plane stress 14 Summary |
| 授業の進め方 | The course provides detailed explanations with emphasis on understanding the basic theory of solid mechanics and the finite element method. It also offers concrete ideas through examples and exercises. |
| 授業キーワード |
mechanics of materials, structural mechanics, elastic mechanics, solid mechanics, continuum mechanics, finite element method SDGs: 7 Affordable and Clean Energy; 9 Industry, Innovation, and Infrastructure. |
| テキスト(図書) | |
| 参考文献(図書) | |
| 参考文献(その他)・授業資料等 |
Materials will be distributed via Moodle. Fish, J. and Belytschko, T., A First Course in Finite Elements, Wiley, 2007. |
| 成績評価の方法およびその基準 | All submissions are evaluated comprehensively and a score of 60 or more (out of 100) is considered acceptable. |
| 履修上の注意 | It is desirable to have taken Mechanics of Materials. |
| オフィスアワー | Every Wednesday, 9th and 10th periods (Room 3-1115) |
| ディプロマポリシーとの関係区分 | |
| 使用言語区分 | 英語のみ |
| その他 | Shimane University Moodle will be used for distributing materials and submitting assignments, etc., so after you have registered for your courses using the Student Affairs Information System (Campus Square), please register for Moodle as follows. Please access the following URL to log in to Moodle and register for your courses by entering the registration key (sm). https://moodle.cerd.shimane-u.ac.jp/moodle_2025/course/view.php?id=1180 |
| 準備学修(予習・復習・宿題)に必要な学修の時間(1回の授業当たり) /Time required for homework |
4 hours |
|---|---|
| 授業の実施方法 /Types of classes |
遠隔授業(非同期型オンラインのみ)/Remote class(Asynchronous online only) |
| No. | 担当教員 | 担当教員所属 |
|---|---|---|
| 1 | 森本 卓也 | 総合理工学部機械・電気電子工学科 |