ME440 Engineering Design via FEM 
This course introduces FEM (finite element method), and its application for mechanical engineering design and analysis at the undergraduate level. Basic principles of FEM are discussed with the aid of various mechanics examples, with the minimum usage of advanced math skills. Typical examples include the coverage of simple elements such as spring, truss and beam elements via the principle of virtual work, and the extension of this concept to the continuum mechanics problems. Students will be exposed to the intensive use of commercial FEM software during the practice hours to acquire various modeling and analysis techniques for practical applications. 

            

FEM쓳슜꽕怨
蹂 援먭낵紐⑹뿉꽌뒗 쑀븳슂냼踰뺢낵 씠瑜 씠슜븳 湲곌퀎怨듯븰쟻 꽕怨 諛 빐꽍쓣 븰遺 怨쇱젙뿉 留욊쾶 냼媛쒗븳떎. 怨좊벑 怨쇱젙쓽 닔븰쟻 湲곗닠 理쒖냼솕븯怨, 뿬윭 湲곌퀎슂냼쓽 삁젣瑜 넻빐 쑀븳슂냼踰뺤쓽 湲곗큹쟻씤 썝由ъ뿉 빐 끉븳떎. 媛긽씪쓽 썝由щ 넻빐 媛꾨떒븳 삁젣씤 뒪봽留, 듃윭뒪, 鍮 슂냼 벑뿉 빐 떎猷⑤ʼn, 뿰냽泥 뿭븰 臾몄젣濡 媛쒕뀗쓣 솗옣븳떎. 蹂 援먭낵紐⑹뿉꽌뒗 떎젣뿉꽌쓽 솢슜쓣 쐞븳 떎뼇븳 紐⑤뜽留 諛 빐꽍 湲곗닠쓣 븰뒿븯湲 쐞빐, 긽슜 냼봽듃썾뼱瑜 씠슜븳 떎뒿 떆媛꾩쓣 媛吏꾨떎.


ME523 Introduction to Fluid-Structure Interactions
This course covers essential elements of dynamics of elastic bodies, basic fluid mechanics, and their interactions. The course strives to offer a balanced coverage of theoretical aspects and modern computational methods for modeling, analysis and design of fluid-structure interaction systems focusing on hydroelastic analysis of floating bodies. Subjects on wave mechanics, hydrodynamics, and sloshing will be discussed with help of demonstrative computer codes.



쑀泥-援ъ“ 긽샇옉슜 媛쒕줎
蹂 援먭낵紐⑹뿉꽌뒗 깂꽦泥 룞뿭븰怨 쑀泥댁뿭븰, 洹몃━怨 洹 궗씠쓽 긽샇옉슜쓽 湲곕낯뱾쓣 떎猷щ떎. 遺쑀泥댁쓽 쑀깂꽦빐꽍뿉 以묒젏쓣 몢뼱, 湲곕낯 씠濡 肉먮쭔븘땲씪 쑀泥-援ъ“ 긽샇옉슜 떆뒪뀥쓽 紐⑤뜽留, 빐꽍/꽕怨꾩뿉 븳 諛⑸쾿濡좎쓣 냼媛쒗븳떎. 닔硫댄뙆뿭븰, 룞닔뿭븰, 뒳濡쒖떛 벑씠 떎猷⑥뼱吏怨 而댄벂꽣 肄붾뱶瑜 씠슜븳 닔移섑빐꽍 諛⑸쾿쓣 援ы쁽빐 蹂몃떎.


ME535 Finite Element Analysis of Structures  

The objective of this course is to teach the fundamentals of finite element analysis of linear/nonlinear problems in solids and structures. This course includes the theoretical foundations and appropriate use of finite element methods. Specially, we focus on the computer programming of finite element procedures. The methods studied in this course would be practical procedures that are employed extensively in the ocean, mechanical, civil and aeronautical industries. 



쑀븳슂냼援ъ“빐꽍
蹂 援먭낵紐⑹쓽 紐⑹쟻 쑀븳슂냼踰뺤쓣 씠슜븳 꽑삎/鍮꾩꽑삎 怨좎껜 諛 援ъ“빐꽍쓽 湲곗큹瑜 媛瑜댁튂뒗 寃껋씠떎. 蹂 援먭낵紐⑹뿉꽌뒗 씠濡좎쟻씤 湲곗큹 肉먮쭔 븘땲씪 쑀븳슂냼踰뺤쓽 쟻젅븳 궗슜踰뺤쓣 媛瑜댁튇떎. 蹂 援먭낵紐⑹뿉꽌 諛곗슫 諛⑸쾿뱾 빐뼇떆뒪뀥 肉먮쭔 븘땲씪 湲곌퀎, 빆怨 넗紐⑷났븰 諛 궛뾽 벑뿉 愿묐쾾쐞븯寃 궗슜맆 닔 엳떎. 삉븳, 쑀븳슂냼빐꽍踰뺤쓣 而댄벂꽣 봽濡쒓렇옒諛띿쓣 넻븯뿬 吏곸젒 援ы쁽빐蹂몃떎. 蹂 援먭낵紐⑹뿉꽌뒗 媛긽씪쓽썝由, 쑀븳슂냼젙떇솕, 꽑삎/鍮꾩꽑삎빐꽍諛⑸쾿, 쟻젅븳 쑀븳슂냼紐⑤뜽留, 쑀븳슂냼빐쓽 쟻젙꽦룊媛 벑쓣 떎猷щ떎.


ME532 Advanced Analysis of Solids and Structures  
The objective of this course is to provide the unified understanding of both solid mechanics and structural engineering. First, the course teaches the fundamental concepts of solid mechanics (deformation, strain, stress, strength, elasticity and plasticity) and the governing equations. Then, the reduction procedures lead the concepts of structural mechanics (tensioning, bending, shearing and twisting) and the simplified governing equations for structural members. Through the lectures, various solution procedures (displacement and stress methods, principle of virtual work, energy methods and direct stiffness method) are introduced to assess the response of solids and structures. Finally, the course deals with further topics on the nonlinear analysis, collapse and structural stability.



怨좊벑援ъ“빐꽍
蹂 援먭낵紐⑹쓽 紐⑺몴뒗 怨좎껜뿭븰뿉꽌 援ъ“뿭븰뿉 씠瑜대뒗 湲곕낯쟻씤 媛쒕뀗뱾怨 빐꽍諛⑸쾿뱾뿉 愿븳 넻빀맂 씠빐瑜 二쇰뒗 寃껋씠떎. 슦꽑, 蹂 怨쇰ぉ뿉꽌뒗 怨좎껜뿭븰쓽 湲곕낯 媛쒕뀗뱾(蹂삎, 蹂삎瑜, 쓳젰, 媛뺣룄, 깂꽦, 냼꽦)怨 洹 吏諛곕갑젙떇쓣 떖룄엳寃 떎猷④퀬, 泥닿퀎솕맂 媛꾨왂솕 怨쇱젙쓣 넻븯뿬 援ъ“뿭븰쓽 媛쒕뀗뱾(씤옣, 쑉, 쟾떒, 鍮꾪由)怨 援ъ“遺옱뱾쓽 吏諛곕갑쟻떇쓣 씠걣뼱 궦떎. 뿬윭媛吏 湲곕낯쟻씤 怨좎껜 諛 援ъ“臾쇱쓽 빐꽍湲곕쾿뱾(蹂쐞踰, 쓳젰踰, 媛긽씪쓽썝由, 뿉꼫吏踰, 吏곸젒媛뺤꽦룄踰)쓣 떎猷щ떎. 삉븳, 鍮꾩꽑삎빐꽍, 遺뺢눼빐꽍 諛 援ъ“븞젙꽦빐꽍 벑 怨좊벑쟻씤 二쇱젣뱾쓣 깘援ы븳떎.