辽宁工程技术大学材料科学与工程学院材料工程非全日制培养方案的内容如下,更多考研资讯请关注我们考研派网站的更新!敬请收藏本站。或下载我们的考研派APP和考研派微信公众号(里面有非常多的免费考研资源可以领取哦)[辽宁工程技术大学建筑与交通学院建筑与土木工程研究生培养方] [辽宁工程技术大学建筑与交通学院交通运输工程学科的介绍] [辽宁工程技术大学建筑与交通学院建筑学学科的介绍] [辽宁工程技术大学建筑与交通学院的师资力量] [辽宁工程技术大学建筑与交通学院的介绍] [辽宁工程技术大学机械工程学院机械工程系的介绍]
95%的同学还阅读了: [2020辽宁工程技术大学研究生招生简章] [辽宁工程技术大学研究生分数线[2013-2020]] [辽宁工程技术大学王牌专业排名] [辽宁工程技术大学考研难吗] [辽宁工程技术大学研究生院] [辽宁工程技术大学排名] [辽宁工程技术大学考研群] [辽宁工程技术大学研究生学费] [辽宁工程技术大学研究生奖学金] [考研国家线[2006-2020]] [2021年考研时间:报名日期和考试时间]
辽宁工程技术大学材料科学与工程学院材料工程非全日制培养方案正文
材料工程 (领域)专业学位硕士研究生培养方案Training Scheme of Prefessinal Master Degree Candidates for Material Engineering (Field)
专业代码:085204 学科门类:工学
Code of Specialty: 085204 Department of Discipline: Engineering
一、工程领域简介(Introduction to the Engineering Field)
材料工程领域依托材料科学与工程学科,从1978年金属材料热处理专业和相关研究方向开始建设,是我国较早开展金属材料强韧化机理研究的学科点。1998年获得“材料加工工程”学科硕士学位授予权、2000年获得“材料学”学科硕士学位授予权、2004年获得“材料工程”领域工程硕士授予权,2011年获得“材料科学与工程” 一级学科硕士学位授予权,2014年获得“矿物材料与矿用新材料”二级学科博士学位授予权,在无机非金属材料制备与改性,先进金属材料及成型技术等领域具有深厚的理论和工程应用基础。
本学科现有专任教师40人,其中教授7人,博士生导师4人,副教授14人,具有博士学位教师15人,博士后出站5人,在读博士12人。其中,辽宁省百千万人才千人层次2人,辽宁省青年骨干教师1人和校青年科技标兵1人。
近年来承担国家自然基金、教育部博士点基金等理论研究项目及企业委托重大横向课题100余项,授权国家发明专利24项,多项专利实现产业化。获得国家科技进步二等奖1项,省部级奖励6项。撰写专著及教材8部。在《Journal of Power Sources》、《Carbon》、《Chemical Engineering Journal》、《Applied Physics Letter》等国际顶级期刊与国内期刊发表论文700余篇。
学科拥有“辽宁省地矿工程特种材料工程研究中心”、“辽宁省材料类专业实验教学示范中心”和“煤炭行业矿物材料与矿用材料工程研究中心”三个省部级教学科研平台,学院与北航材料学院组建先进材料研究中心,拥有“材料分析测试中心”、“材料加工实验中心”、“高能束加工中心”三个校级院管实验室。实验中心拥有比较完善的实验教学仪器设备,现有扫描电镜、X射线衍射仪、高温金相、激光共聚焦显微镜、CO2激光加工器、等离子喷涂、电化学工作站、电子束焊机等大型设备,具备了解决材料科学应用基础问题与重大工程问题的能力,满足材料工程领域研究生培养的要求。
Relying on materials science and engineering disciplines, materials engineering field derived from the major of metal materials heat treatment and related research directions built in 1978, which is an ealier discipline about toughness mechanism of metal materials research in China. The grant for master degree of “Material Processing Engineering” and “Material Science” was awarded in 1998 and 2000, respectively, the grant for Master of Engineering of “Materials Engineering” was awarded in 2004, the first-level discipline of master degree “Materials Science and Engineering” was granted in 2011, and the second-level discipline of doctor degree “mineral materials and mining new materials” was granted in 2014. There are deep theoretical and engineering application foundation in the some disciplines, such as, preparation and modification of inorganic non-metallic materials, advanced metal materials and molding technology and other fields.
The discipline has 40 full-time teachers, including 7 professors, 4 doctoral supervisors, 14 associate professors, 15 teachers have doctorate, 5 teachers have postdoctorate experience, and 12 eachers have strived for doctorate. Among them, there are 2 Thousand talents level of Hundred-Thousand-Million talents of Liaoning Province, a young backbone teacher of Liaoning Province and a young science and technology model of university.
There are three provincial and ministerial level teaching and research platform, “Geological and Mineral Engineering Special Materials Engineering Research Center of Liaoning Province”, “Experimental teaching model center for materials major of Liaoning Province”, and “Mineral materials and mining materials engineering research center of coal industry”. The Advanced materials research center has been founded between our college and Materials College of Beihang University. There are three school-level laboratory, “Material analysis and testing center”, “Material processing experimental center”, and “High energy beam processing center”. The experimental center has relatively complete experimental teaching equipment, such as, scanning electron microscopy, X-ray diffractometer, high temperature metallographic, laser confocal microscopy, CO2 laser processor, plasma spraying, electrochemical workstation, electron beam welder and other large equipment. Those equipments can solve the scientific application basic problems of materials and major engineering problems, also meet the training requirements of postgraduate majored in the field of Materials Engineering.
In recent years, more than 100 research projects have been acted or completed, including theoretical research projects of the National Natural Science Foundation, the doctoral fund of National Education Ministry and other enterprise requirements projects. 24 national invention patents have been authorized, and many patents have been industrialized. There are one National scientific and technological progress award second prize, and 6 provincial and ministerial level award. Eight books or teaching materials have been published. Many research papers published in top international journals such as 《Journal of Power Sources》, 《Carbon》, 《Chemical Engineering Journal》, 《Applied Physics Letter》, and more than 700 papers published in domestic journals.
二、培养目标(Cultivation Objectives)
材料工程领域面向材料行业和相关工程部门,涉及金属材料、无机非金属材料、高分子材料和复合材料等行业部门。培养能够从事材料的研究和开发、材料的生产工艺和设备的开发和设计、材料的性能特性分析和试验、材料成品的检验和质量控制、材料制品的加工和改性、材料制造业的管理和技术经济分析等相关工作能力,具备基础扎实、素质全面、工程实践能力强并具有一定创新能力的应用型、复合型高层次工程技术和工程管理人才。
The field of materials engineering aims for the material industry and related engineering departments, involving metal materials, inorganic non-metallic materials, polymer materials and composite materials and other industry sectors. The graduate students engage in the research and development of materials, the development and design of the materials’ production process and equipments, the performance analysis and testing of materials, the inspection and quality control of materials products, the processing and modification of materials, the management of materials manufacturing and technical economic analysis, and other related work. We cultivate graduates with a solid foundation, a comprehensive quality, strong engineering practice ability, a certain degree of creativity application type, complex high-level engineering techique and management talents.
三、培养要求 (Cultivation Requirements)
1. 掌握马克思主义、毛泽东思想和邓小平理论的基本原理,认真贯彻习近平总书记系列讲话精神,落实科学发展观,树立正确的人生观、价值观;热爱祖国、遵纪守法、品行端正、学风严谨、努力为祖国建设服务。
2. 具备材料工程领域坚实的基础理论和系统的专门知识;掌握解决工程技术问题的先进方法,在装备制造业与冶金、化工、矿山及航空航天等领域从事金属材料、无机非金属材料的制备与加工、结构研究与分析、材料改性、新材料研发及经营管理等工作。
3. 掌握一门外国语,能比较熟练地阅读本学科领域的外文资料,并具有一定的写作能力。
4. 具有较强的计算机应用能力。能应用大型数据软件,进行具体工程领域的材料成分、组织结构、性能的简单建模、计算和分析预测能力。
1.Students are required to study basic principles of Marxism, Mao Zedong Thought and Deng Xiaoping Theory, and conscientiously implement the spirit of General Secretary Xi Jinping series of important speech. They are also expected to carry out the scientific concept of development, to set up correct outlook on life values, to love the motherland, and to abide by the law and social discipline. Other requirements for the students include well-behaved, academically rigorous, and would always serve the motherland first.
2.Students are required to have the knowledge of solid basic theories and systematic professions in material engineering field, to master the advanced techniques for resolving the engineering technique problem. The graduates are engaged in metal materials, inorganic non-metallic materials preparation and processing, structural research and analysis, material modification, new materials research and development and management work in the fields of equipment manufacturing and metallurgy, chemical industry, mining and aerospace.
3.Students are professional in a foreign language, and have developed reading and writing abilities a second language within their own profession.
4.Students are professional in computer skills. They can use large-scale data software to solve the problem of specific engineering areas, such as, material composition, tissue structure, the forecasting of performance, simple modeling, calculation and analysis.
四、研究方向(Research Orientation)
序号 Number |
名 称 Name |
研究方向的范围及特点概述 Overview of the scope and characteristics of research directions |
1 |
无机非金属材料制备与改性 Preparation and modification of inorganic non-metallic materials |
主要进行新型无机非金属材料及功能材料制备改性,第一性原理及EET计算、有限元计算研究,其中以矿物为原料研发新型储能材料是本研究方向的主要特色之一。 The research topics focus on the new inorganic nonmetallic materials and preparation & modification of functional materials, the first principle and EET calculation, and the finite element calculation. Among them, the development of new energy storage materials with minerals as the raw materials is one of the main features of this research. |
2 |
先进金属材料及成型技术 Advanced metal materials and processing technology |
主要进行先进合金材料和复合材料设计、熔化凝固及塑性成型理论、数值模拟,组织结构、力学性能、表面科学理论与表面改性技术的研究。其中强韧化理论、表面工程、新型合金是本方向的的主要特色。 The research topics focus on the advanced alloys and composition design, melting solidification and plastic forming theory, numerical simulation, organism-microstructure, mechanical property, surface science theory and surface modification technology. Among them, the strengthening and toughening theory, surface engineering and new alloy are the main features of this direction. |
五、学制与学习年限(Duration of Schooling and Length of Schooling)
学制:3年;学习年限:3-5年。
Duration of Schooling: 3 years;Length of Schoolling: 3-5 years.
六、培养方式(Cultivation Mode)
(1)非全日制硕士研究生,采取进校不离岗、不脱产的培养方式。课程学习实行学分制,其中公共课的学习、论文的选题、中期考核、学位论文中期报告、论文的预答辩和答辩等各个环节须在校内完成,累计时间不低于6个月。
(2)非全日制研究生的培养和学习,采用灵活多变的教学方式,强调自学,因材施教,注重工程实践能力的培养,至少有6个月以上的工程实践环节,要求依据开题内容,在本工程领域选择所在企事业单位或挂靠相关单位,进行与研究内容相关的工程调研、现场工程实践、具体材料成分工艺设计及性能分析表征等工作,提高研究生现场工程实践能力。
(3)实行双导师制培养,以校内导师为主,聘请企业内具有高级技术职称的专业工程技术人员担任副导师,负责现场实践、工业试验等环节的指导,参与论文的选题、开题及预答辩、答辩等个环节的培养工作。
(1)Part-time graduates study in school, need not resign his post and duty. The credit system is adopted for every course, in which the study of public courses, the mid-term examination, the interim report of the dissertation, the pre-defense and the defense of the thesis should be completed in the school, the cumulative time is not less than 6 months.
(2)The training and study of part-time graduates adopt flexible teaching methods, emphasizing self-study, teaching students according to their specialties, pay attention to the cultivation of engineering practice ability, at least 6 months of engineering practice, graduates should be required to base on the contents of start project, select some enterprises or institutions or affiliated units related to their engineering field, and perform some works about project research, site engineering practice, specific material composition process design and performance analysis and characterization to improve the on-site practical engineering ability of graduate students.
(3)The graduates have two tutors, mainly supervised by tutor in school. A deputy tutor acted by a senior technician with professional engineering and technical personnel is responsible for on-site practice, industrial test and other aspects, participating in the topic selection of the thesis, open questions and pre-defense, defense and other aspects.
七、课程设置与学分要求(Curriculum And Course Credits)
课程类别 Course Type |
课程 编号 Course No. |
课程名称 Course Name |
学分 Credit |
学时 课内/试验 Class/test |
开课 学期 Semester Classes |
开课单位 Class Department |
备注 Remarks |
|
Academic Degree Courses 学位课 |
Common Courses 公共课 |
Z019901 |
中国特色社会主义理论与实践 Theory and Practice of Socialism with Chinese Characteristics |
2 | 40 | 1 | 马克思主义学院 | 必选 |
Z019902 |
工程应用外语 Engineering Applied Foreign Languages |
2 | 40 | 1 | 外国语学院 | |||
Z019903 |
工程应用数学 Engineering Applied Mathematics |
2 | 40 | 1 | 理学院 | |||
Z019904 |
信息检索 Information retrieval |
1 | 20 | 2 | 图书馆 | |||
Z019905 |
知识产权 intellectual property right |
1 | 20 | 2 | 公共管理与法学院 | |||
Z019906 |
专业外语与文献阅读 Specialty foreign languages and document reading |
1 | 20 | 2 | 研究生院 | |||
Basic Courses 基础课 |
Z0203001 |
材料物理化学 Materials physics and chemistry |
2 | 40 | 2 | 材料科学与工程学院 | 必选 | |
Z0203002 |
材料成型与加工理论 Theory of material processing and processing |
2 | 40 | 2 | 材料科学与工程学院 | |||
Specialized courses 专业课 |
Z0303001 |
材料表征及性能测试 Material characterization and performance test |
2 | 40 | 2 | 材料科学与工程学院 | ||
Z0303002 |
材料科学研究进展 Advances in Materials Science |
2 | 40 | 2 | 材料科学与工程学院 | |||
Selective courses 选修课 |
Z1203001 |
复合材料 Composite |
2 | 40 | 2 | 材料科学与工程学院 | 任选二门,4学分 | |
Z1203002 |
材料成型技术 Material processing technology |
2 | 40 | 2 | 材料科学与工程学院 | |||
Z1203003 |
无机非金属材料 Inorganic non-metallic materials |
2 | 40 | 2 | 材料科学与工程学院 | |||
Z1203004 |
材料表面工程技术 Material surface engineering technology |
2 | 40 | 2 | 材料科学与工程学院 | |||
Compulsory Part 必修环节 |
Z4103001 |
开题及选题报告 Opening Report And The Topic |
1 | 20 | 材料科学与工程学院 |
4学分 |
||
Z4103002 |
实践总结报告 Practice Summary Report |
1 | 20 | 材料科学与工程学院 | ||||
Z4103003 |
中期考核 Mid-term Examination |
1 | 20 | 材料科学与工程学院 | ||||
Z4103004 |
学术报告 Academic Report |
1 | 20 | 材料科学与工程学院 | ||||
合计 Total |
25 |
本文来源:http://m.okaoyan.com/liaoninggongchengjishudaxue/yanjiushengyuan_271662.html