1
课程详述
COURSE SPECIFICATION
以下课程信息可能根据实际授课需要或在课程检讨之后产生变动。如对课程有任何疑问,请
联系授课教师。
The course information as follows may be subject to change, either during the session because of unforeseen
circumstances, or following review of the course at the end of the session. Queries about the course should be
directed to the course instructor.
1.
课程名称 Course Title
材料科学与工程高等实验 I
Experiments for Advanced Materials Science and Engineering I
2.
授课院系
Originating Department
材料科学与工程系
Department of Materials Science and Engineering
3.
课程编号
Course Code
MSE345
4.
课程学分 Credit Value
1
5.
课程类别
Course Type
专业基础课 Major Foundational Courses
6.
授课学期
Semester
秋季 Fall
7.
授课语言
Teaching Language
英语 English 和中英双语 Bilingual
8.
他授课教师)
Instructor(s), Affiliation&
Contact
For team teaching, please list
all instructors
叶飞,材料科学与工程系,电子邮箱:yef3@sustech.edu.cn
李艳艳,材料科学与工程系,电子邮箱:liyy@sustech.edu.cn
Fei Ye ,Department of MSE, Email: yef3@sustech.edu.cn
Li Yanyan , Department of MSE, Email: liyy@sustech.edu.cn
9.
/
方式
Tutor/TA(s), Contact
NA
10.
选课人数限额(可不)
Maximum Enrolment
Optional
NA
2
11.
授课方式
Delivery Method
讲授
Lectures
习题//讨论
Tutorials
其它(具体注)
OtherPlease specify
总学时
Total
学时数
Credit Hours
32
12.
先修课程、其它学习要求
Pre-requisites or Other
Academic Requirements
MSE002 材料科学与工程基础实验
MSE002 Experiments for Fundamental of Materials Science and Engineering
13.
后续课程、其它学习规划
Courses for which this
course is a pre-requisite
MSE346 材料科学与工程高等实验 II
MSE346 Experiments for Advanced Materials Science and Engineering II
14.
其它要求修读本课程的学系
Cross-listing Dept.
NA
教学大纲及教学日历 SYLLABUS
15.
教学目标 Course Objectives
材料科学与工程高等实验 I 是材料专业的必修实验课程,本实验课程主要是培养学生材料学相关基础实验操作技能,学习
材料的合成与表征的常用方法,巩固学生材料学相关理论知识的理解,强化学生材料学理论与实践的结合应用,进而全面
提升学生的综合素质和应用能力。
“Experiments for Advanced Materials Science and Engineering I” is a required experimental course for materials
science. This course is mainly to cultivate students' basic experimental skills in materials science, to learn the methods
of synthesis and characterization of materials, to consolidate the students' understanding of the theory of materials
science, as well as to strengthen the combination of theory and practice of materials science, hence to improve the
student’ comprehensive quality and application ability.
16.
预达学习成果 Learning Outcomes
1. 掌握常用材料学基本实验技术和设备操作方法,并了解设备局限性。
2. 掌握通用评价材料性质性能的基本技术。
3. 具备设计实验获取材料性质性能数据,并进行数据分析能力。
4. 能够在实验过程中,理解并遵守实验组织、安全、环保等相关规定。
5. 在分组实验中,能够有效地表达和交流,合作完成实验。
6. 能够熟练应用英语完成实验报告和数据分析。
1. To master the basic experimental technology and equipment operation methods for materials science, and to
understand the limitations of equipment.
2. To master the basic techniques of universal evaluation of properties and properties of materials.
3. To design experiments to obtain properties and performance data of materials and conducting data analysis.
4. Be able to understand and comply with relevant regulations of experimental organization, safety and environmental
protection during the experiment.
5. Be able to effectively express and communicate in the group experiment, and cooperate to complete the experiment.
6. To use English to complete the experimental report and data analysis.
17.
课程内容及教学日历 (如授课语言以英文为主,则课程内容介绍可以用英文;如团队教学或模块教学,教学日历须注明
主讲人)
Course Contents (in Parts/Chapters/Sections/Weeks. Please notify name of instructor for course section(s), if
this is a team teaching or module course.)
3
1. 第一讲:材料的合成与表征介绍以及低温固相合成变色材料(4 学时)
1.1 介绍实验课程内容
1.2 介绍合成方法及表征技术
1.3 低温固相合成变色材料并进行表征
2. 第二讲: 钙钛矿结构磁制冷材料的合成与表征(8 学时)
2.1 溶胶-凝胶法合成磁制冷材料
2.2 使用扫描电镜进行材料的形貌表征
2.3 使用 X-射线衍射仪表征材料的结构
3. 第三讲: 聚合物基金属涂层的合成(4 学时)
3.1 掌握化学镀液的配制
3.2 学习化学镀实验流程
3.3 掌握金属涂层的表征
4. 第四讲:有机玻璃“琥珀”的合成与表征(8 学时)
4.1 掌握有机玻璃的制备方法并制备各种“琥珀”
4.2 使用紫外分光光度计(UV-vis)测定有机玻璃透光率
4.3 使用差示扫描量热仪(DSC)测定玻璃转化温度
5. 第五讲: 纳米氧化铈材料的合成与表征(8 学时)
5.1 自主设计氧化铈纳米材料的合成方案
5.2 对于合成的氧化铈材料利用所学手段进行表征
1. Lecture 1Synthesis and characterization of materials introduction and synthesis chromic materials (4 hours)
1.1 Introduce the content of the experiment course.
1.2 Introduce the methods of synthesis and characterization.
1.3 Synthesis and characterization of chromic materials.
2. Lecture 2Synthesis and characterization of magnetic refrigeration materials with perovskite structure (8 hours)
2.1 Synthesis magnetic refrigeration materials with sol-gel method.
2.2 Characterization of morphology with SEM.
2.3 Characterization of structure with XRD.
3. Lecture 3Preparation of polymer-based metal coating(4 hours)
3.1 Master the preparation of chemical plating solution.
3.2 Learn the procedure of chemical plating.
3.3 Master the characterization of metal coating.
4.Lecture 4Synthesis and characterization of PMMA (8 hours)
4.1 Master the preparation of PMMA and make all kinds of “Amber”
4.2 Learn the determination of light transmittance with UV-vis
4.3 Measure the T
g
with DSC.
5.Lecture 5Synthesis and characterization of cerium oxide nanoparticles(4 hours)
5.1 Design the synthesis scheme of cerium oxide nanoparticles.
5.2 Characterizing the cerium oxide nanoparticles by characterization methods what we have learned.
18.
教材及其它参考资料 Textbook and Supplementary Readings
自编讲义 Experimental manual
课程评 ASSESSMENT
19.
评估形式
Type of
Assessment
评估时间
Time
占考试总成绩百分比
% of final
score
违纪处罚
Penalty
备注
Notes
4
出勤 Attendance
10
课堂表现
Class
Performance
40
小测验
Quiz
0
课程项目 Projects
40
实验报告
平时作业
Assignments
0
期中考试
Mid-Term Test
0
期末考试
Final Exam
0
期末报告
Final
Presentation
0
其它(可根据需要
改写以上评估方
式)
Others (The
above may be
modified as
necessary)
10
预习报告
20.
记分方 GRADING SYSTEM
A. 十三级等级制 Letter Grading
B. 二级记分制(通过/不通过) Pass/Fail Grading
课程审 REVIEW AND APPROVAL
21.
本课程设置已经过以下责任人/委员会审议通
This Course has been approved by the following person or committee of authority