基于3D打印技术的粉末冶金工艺学课程教学探索  

Study on 3D-printed Technology in Powder Metallurgy Technology Curriculum Teaching

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作  者:黄俊俊[1] 赵娣芳[1] 韩成良[1] 李明华[1] 谢劲松[1] HUANG Jun-jun ZHAO Di-fang HAN Cheng-liang LI Ming-hua XIE Jing-song(Department of Chemical and Materials Engineering, Hefei College, Anhui Hefei 230601, China)

机构地区:[1]合肥学院化学与材料工程系,安徽合肥230601

出  处:《广州化工》2017年第15期191-192,207,共3页GuangZhou Chemical Industry

基  金:合肥学院2016年教学研究重点项目;粉体材料科学与工程专业卓越工程师培养计划(2012zjjh041);安徽省教学研究一般项目(2016jyxm0882);大学生创客实验室建设计划(2016ckjh171)

摘  要:3D打印技术使粉末冶金工艺远远超出传统材料和生产工艺的范围,是集材料、机械、力学和设计等综合性技术,极大弥补传统金属粉末成型工艺不足。根据3D打印技术和传统粉末冶金工艺技术特点,提出在粉末冶金工艺学教学过程中融合3D打印技术,介绍3D打印技术特点和提出并设计基于3D打印技术的粉末冶金工艺学教学框架,开展"基于3D打印技术视野下的粉末冶金工艺学"课堂教学,为高兴相关教师提供借鉴并提高粉末冶金工艺教学水平和应用型人才的质量。3D printing technology of power metallurgy process is far beyond the scope of materials and metallurgy, which is always across multiple disciplines (such as materials and metallurgy and mechanical) technology, and greatly makes for the traditional metal power forming process. According to the3 D printing technology traditional power metallurgy process technology characteristics, 3D printing in power metallurgy technology education fusion technology was introduced. In addition, 3D printing technology characteristic were introduced and framework of classroom teaching was designed, and "the fusion of 3 D printing technology of power metallurgy technology education" of class room teaching was also carried out to provide reference for first-line teachers, improve the level of power metallurgy teaching and the quality of applied, talents.

关 键 词:粉末冶金 教学改革 3D打印 应用型人才 

分 类 号:H19[语言文字—汉语]

 

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