威尼斯888手机版

工程力学专业培养方案

Super User发布于:2014/01/12

一、培养目标及要求

本专业培养学生具有一定的工程知识,宽广的力学专业知识,具备工程结构分析软件的应用和开发能力,掌握现代力学实验与测试技术的复合型力学人才。培养的学生能够在机械、土木、航空航天、材料、能源、交通、造船、水利、化工等工程领域从事科学研究、科技创新与工程设计工作,也可担任高等院校力学教师。

二、学制、毕业基本要求及学位授予

1、本科基本学制4年,弹性学习年限3-6年,按照学分制管理。

2、工程力学专业学生毕业最低学分数为173学分,各类别要求学分数如下表:

课程类别

学分要求

一、全校公共通识教育课程:

46

其中1:通识课程

37

其中2:文化素质教育课程

8

其中3:开放实验

1

二、学科通识教育课程

58.5

其中1:学科A组

27.5

其中2:学科B组

31

三、专业教育课程

≧43.5

其中1:专业核心课程

25.5

其中2:专业选修课程

≧10

其中3:专业拓展课程

≧8

四、集中实践环节

25

3、符合学位授予条件的学生,授予工学学士学位。

三、专业所属一级学科

力学

四、课程设置及学分分布

(一)通识教育阶段课程(104.5学分)

通识教育阶段课程包括全校公共通识教育课程(46学分)和学科通识教育课程(A组27.5学分+B组31学分)两部分,公共通识相教育课程按《湖南大学通识教育课程实施方案》执行。学科通识教育A组课程按《湖南大学学科通识教育课程实施方案》大理类A组课程执行。学科通识教育B组课程如下:

课程编码

课程名称

学分

10040

概率论与数理统计A

3.5

04500

工程图学(1)

3

07219

电工技术

3

09553

大学化学概论

2

30129

基础写作B

2

10135

复变函数

2.5

10310

积分变换

1

10144

数学物理方程

2

10301

场论

2

12001

理论力学A

5

12003

材料力学A

5

(二)专业教育阶段课程(≧43.5学分)

1、专业核心课程(25.5学分 )

课程编码

课程名称

学分

12500

弹性力学

4.5

12018

流体力学

5.5

12019

振动力学

4

12017

板壳力学

3

12014

计算力学

5.5

12504

实验应力分析

3

2、专业选修课程(≧10学分)

要求学生从以下课程中选修10个或更多学分。

课程编码

课程名称

学分

课程组1

12033

计算机辅助设计

2

12502

简明结构力学

2

12507

振动测试技术

2

12521

工程软件及应用

2

12016

专业英语

2

课程组2

12033

计算机辅助设计

2

12507

振动测试

2

12521

工程软件及应用

2

12542

航空航天概论

2

12541

飞行器结构与强度

2

3、专业拓展课程(≧8学分)

建议学生从以下课程中选修,也可从各学院提供的除文化素质教育类以外的课程中选修,但所选课程与已修课程或即次开设的必修课程内容不能有从属关系。

课程编码

课程名称

学分

课程组件1

12540

材料科学基础

2

12506

金属力学

2

12029

断裂力学

2

12508

塑性力学

2

课程组件2

12515

结构疲劳分析与有限元仿真

2

12543

空气动力学基础

2

12029

断裂力学

2

12508

塑性力学

2

(三)集中实践环节(25学分)

课程编码

课程名称

学分

12901

专业实习

2

12902

毕业实习

2

84902

金工实习B

2

84911

电工电子实习A

2

12528

计算力学课程设计

1

12529

实验应力分析课程设计

1

12531

工程软件及应用课程设计

1

12526

振动力学课程论文

1

12527

流体力学课程论文

1

12530

专业综合实验

2

12036

毕业设计(论文)

10

总计

25

Engineering Mechanics

I. Objectives and Requirements

This program aims at the cultivation of interdisciplinary professionals with academic background in engineering and mechanics, capability for the application and development of engineering structural analytical software, and a mastery of the expertise for modern mechanical experimentation and testing technology. The graduates will be qualified for scientific research, science and technology innovation, engineering design in industries like machine-building, civil engineering, building materials, energy, transportation, aerospace, ship-building, water conservancy and chemical engineering, as well as teaching in institutions of higher learning.

II. Length of Schooling, Graduation Requirements, and Degree Awarded

1. The length of schooling is usually 4, but flexibly 3-6 years based on the credit system.

2. The minimum credits for the program are 173, which are distributed as follows:

Category

Credit

I. University General Education Courses

46

1. General Courses

37

2. Cultural Quality Courses

8

3. Open Experimentations

1

II. Disciplinary General Education Courses

58.5

1. Group A

27.5

2. Group B

31

III. Specialized Courses

≧43.5

1. Core Courses

25.5

2. Elective Courses

≧10

3. Extension Courses

≧8

IV. Intensive Practicum

25

3. Those who satisfy the above requirements will be awarded Bachelor of Science or Engineering.

III. First-level Discipline

Engineering mechanics

IV. Curriculum and Credit Distribution

1. General Courses(104.5 credits)

The general courses consist of two parts: university general education courses (46 credits), and disciplinary education courses (27.5 credits for Group A and 36 credits for Group B). The former is to be fulfilled in accordance with “The Implementation Scheme of the General Education Courses of Hunan University”, and Group A of the latter with “The Implementation Scheme of the Disciplinary General Education Courses of Hunan University for Science (Group A)”. Disciplinary General Education Courses for Group B are as follows:

Code

Course

Credit

10040

Probability Theory & Mathematical Statistics

3.5

04500

Engineering Graphics (1)

3

07219

Electric Technology

3

09553

Introduction to University Chemistry

2

30129

Basic Writing B

2

10135

Complex Variables Functions

2.5

10310

Integral Transformation

1

10144

Mathematics Physics Equation

2

10301

Field Theory

2

12001

Theoretical Mechanics

5

12003

Mechanics of Materials

5

2. Specialized Courses(≧43.5 credits)

1) Core Courses(25.5 credits)

Code

Course

Credit

12500

Elastic Mechanics

4.5

12018

Fluid Mechanics

5.5

12019

Mechanics Vibrations

4

12017

Theory of Plates and Shells

3

12014

Computational Mechanics

5.5

12504

Experimental Stress Analysis

3

2) Elective Courses(≧10 credits)

Students are suggested to select at least 10 credits from the courses below or from the courses provided by other majors in the College, but the courses selected can not be overlapped with those completed and the compulsory courses to be taken.

Code

Course

Credit

Group 1

12033

Computer Aided Design

2

12502

Simple Structural Mechanics

2

12507

Vibration Measurement Technique

2

12521

Engineering Software Application

2

12016

Subject Based English

2

Group 2

12033

Computer Aided Design

2

12507

Vibration Measurement Technique

2

12521

Engineering Software Application

2

12542

Introduction to Aerospace

2

12541

Structure and Strength of Flight Vehicle

2

3) Extension Courses(≧8 credits)

Students are suggested to select from the courses below or from the elective courses provided by the College, excluding cultural quality courses, but the courses selected can not be overlapped with those completed and the compulsory courses to be taken.

Code

Course

Credit

Group 1

12540

Foundation to Materials Science

2

12506

Mechanical Metallurgy

2

12029

Fracture Mechanics

2

12508

Plastic Mechanics

2

Group 2

12515

Fatigue Analysis and FEM Simulation of Structure

2

12543

Foundations of Aerodynamics

2

12029

Mechanics of Fracture

2

12508

Plastic Mechanics

2

3. Intensive Practicum(25 credits)