工程教育专业认证背景下科研融入《材料测试技术》课程改革探索
Exploration of Integrating Scientific Research into the Curriculum Reform of Material Testing Technology under the Background of Engineering Education Professional Certification
摘要: 《材料测试技术》课程具有理论性、实践性、综合性、发展性较强的特点,及内容庞杂、知识面广、教学难度大等困难,本文从学习目标设定、教学内容与方法改革、建立多层次考核方式等多方面入手进行探讨。以工程教育认证三大理念为核心,对照我校人才培养方案毕业要求及指标点制定具体课程目标。将教师科研成果及科研项目与课程内容相结合,激发学生对课程的兴趣,加深对检测理论、方法的理解,培养学生解决实际问题的能力。通过多角度考核方式,全面考查学生的综合能力,评测学生在知识、技能和能力上能否达到预期目标。
Abstract: The course Material Testing Technology has the characteristics of theoretical, practical, comprehen-sive, and strong development, as well as the difficulties of complex content, wide knowledge range, and high teaching difficulty. This article explores from multiple aspects such as setting learning ob-jectives, reforming teaching content and methods, and establishing multi-level assessment methods. Based on the three major concepts of engineering education certification, specific course objec-tives are formulated in accordance with the graduation requirements and indicator points of our school’s talent training program. Integrating teacher research achievements and projects with course content to stimulate students’ interest in the course, deepen their understanding of testing theories and methods, and cultivate students’ ability to solve practical problems. By conducting a comprehensive assessment from multiple perspectives, students’ comprehensive abilities are comprehensively assessed to assess whether they can achieve the expected goals in terms of knowledge, skills, and abilities.
文章引用:李璇, 艾合买提•艾力, 李静, 周肖, 马玉苗, 罗霄. 工程教育专业认证背景下科研融入《材料测试技术》课程改革探索[J]. 教育进展, 2024, 14(1): 763-769. https://doi.org/10.12677/AE.2024.141119

参考文献

[1] 丛园, 王家慧. 工程教育专业认证背景下实验教学改革探索——以材料科学与工程专业为例[J]. 大学教育, 2022(5): 102-104.
[2] 贾延琳, 崔素萍, 席晓丽, 等. 工程教育认证背景下材料科学与工程专业教学改革与实践[J]. 高教学刊, 2023, 9(21): 128-131.
[3] 牛余忠, 孙昌梅, 马松梅, 等. 工程教育专业认证背景下毕业要求达成情况评价机制的建立与实施[J]. 高分子通报, 2022(7): 89-96.
[4] “新工科”建设复旦共识[J]. 复旦教育论坛, 2017, 15(2): 27-28.
[5] 朱丽丽, 董君. 应用型本科《材料现代测试方法》课程理论与实践教学探讨[J]. 广东化工, 2021, 48(6): 190+193.
[6] 郑浩, 李真, 刘建芳. 工程教育专业认证背景下《软件测试技术》课程改革与实践[J]. 电脑知识与技术, 2022, 18(22): 174-177.
[7] 段芳, 陈明清, 罗静. 工程教育专业认证视角下“高分子材料研究方法”课程教学改革与探索[J]. 高分子通报, 2021(7): 85-89.
[8] Ali, A., Jamal, R. and Abdiryim, T. (2021) One-Pot Self-Assembly Preparation of Thiol-Functionalized Poly(3,4-Ethy- lenedioxythiophene) Hollow Nanosphere/Au Composites, and Their Electrocatalytic Properties. RSC Advances, 11, 33425-33430.
https://doi.org/10.1039/D1RA06732J
[9] 范萍, 费正东, 钟明强, 等. 工程教育专业认证背景下《高分子科学实验》课程改革的探索[J]. 高分子通报, 2022(9): 113-118.
[10] 党海峰, 许伟娜. 新能源材料系《材料研究与测试方法》教学改革与探索[J]. 广东化工, 2022, 49(3): 189-190.
[11] 郭锦鹏, 余立. 面向工程教育专业认证的高校课程评价方法改革与实践[J]. 数字印刷, 2022(4): 117-123.

为你推荐