一、专业概况
材料是人类赖以生存的物质基础,材料科学与工程是百业之基,奠定了海洋工程、新能源、信息技术、可再生资源、智能制造等领域科学研究和产业发展的基础,是一个涉及材料学、工程学、物理、化学等方面的宽口径、厚基础专业。伦敦玛丽女王大学材料专业是其最有影响力的学科专业之一,核心理念是围绕材料组织、结构、性能关系及材料设计、成型、应用等全流程为学生提供精英素质教育和卓越专业教育,多次被英国政府评为5星级,2011年全国学生联合会发起的调查显示其在全英排名第一。皇冠正规娱乐平台材料学科在教育部前三轮学科评估中分别位居第9、第6和并列第3,第四轮获评A类,第五轮学科评估取得重大突破,跻身第一方阵前列;2017年和2022年两度进入国家“一流学科”建设行列,ESI学科排名进入前0.28‰。拥有6个国家级科研与人才培养平台。
目前专业教师授课教师共计105名,其中英方教师18名,中方教师87名。英方18名教师中,教授1人,副教授3人,高级讲师6人,讲师8人;中方87名教师中,教授34人,高工1人,副教授/副研究员48人,讲师4人;其中国家级人才9人、省部级人才3人;所有教师中具有国(境)外留学或工作经历的教师共有85人。任课教师承担各类教改项目29项,2人获宝钢优秀教师奖,7人分获伦敦玛丽女王大学教育卓越奖、校长特别奖;获批国家级领军人才3名、国家级青年人才3名,3人当选英国材料、矿物与矿业学会会士,1人当选英国高等教育学会会士。
为了借鉴英国高等教育培养创新型本科人才的先进理念和模式,在本土为中国学生提供正宗的英式高等本科教育,经教育部批准,皇冠正规娱乐平台与伦敦玛丽女王大学进行中外合作办学,中西合璧,强强联合,成立伦敦玛丽女王大学工程学院,创办的材料科学与工程专业(080401H)充分利用两校在材料领域的优势教育资源和高水平国际合作平台,整体引进英方课程体系、教学内容、考核模式,依托双方优质师资进行合作办学,采用国际化教学模式,具备国际视野、通晓工程领域国际规则,以先进材料及其制备技术为特色,与材料学科、化工学科国际前沿交叉融合,本专业坚持培养具有家国情怀和社会责任感,具有坚实的自然科学基础、材料科学与工程专业基础和人文基础,专业竞争力强、综合素质高,具备创新意识和能力以及终生学习能力的复合型领军人才。
二、培养目标
培养目标:聚焦材料学科国际学术前沿,致力于人类文明进步与材料学科发展,以轻质高强、多功能等先进材料及其绿色智能制造技术为学术特色,以全球胜任为目标,培养具有家国情怀和社会责任感,掌握坚实的自然科学和材料科学与工程专业基础,具备国际视野,通晓工程领域国际规则,具有创新精神、团队合作和跨文化沟通能力,能够从事机械制造、生物医药等领域材料设计开发、生产制造、工程管理和科学研究及在重要国际学术机构和组织中任职的领军人才。
内涵1(人文素养):能够正确认识中国和世界,了解国际惯例、具备宽广的国际化视野,具有良好的人文科学素养、职业道德素养、社会责任感和环保与可持续发展观念,成为行业与社会进步的中坚力量。
内涵2(专业能力):具备学科专业知识和使用现代工具的能力,富有创新精神,具备对新材料、新技术、新工艺进行科学研究、设计和开发的创新能力,能对先进材料科学与工程领域的复杂工程问题进行综合分析、研究并提出解决方案。
内涵3(职业定位):熟悉行业发展现状及动态,能够独立从事或参与先进材料科学与工程领域材料设计、工艺设计、技术开发、生产及经营管理,胜任重要国际学术机构和组织的关键岗位。
内涵4(社会能力):具有良好的跨文化沟通交流能力、团队协作能力,能够在跨学科团队中担任负责人或骨干有效地发挥作用。
内涵5(自我发展):具备终身学习能力,能够及时了解学科国际前沿、行业和社会发展趋势,适应发展进步的要求,把握个人发展机遇。
三、思政育人
贯彻落实立德树人根本任务,用习近平新时代中国特色社会主义思想铸魂育人,着力培养学生成为具有家国情怀、低调务实、兼容并包,厚积薄发、服务国家的总工程师。充分发挥和利用材料科学与工程应用广泛、实用性强的特点,将课程知识点与国家重大工程,以及人物事迹有机结合,通过课上课外以及新媒体多维载体等多样化教学方式,明确思政育人目标,强化思想引领和价值塑造,把思想政治工作贯穿教育教学全过程,实现全员、全程、全方位的育人新格局。引导教师对接人类发展、社会进步、国家战略、科技前沿,深入挖掘课程中的育人元素,实现育人与专业教学的深度融合,以高质量课程建设支撑高质量专业建设,既要实现知识传授的过程生动,也要实现思政德育过程的接地气。培养学生具有扎实专业基础知识的同时,引导学生树立爱国主义精神,了解人与社会、人与自然的关系,理解工程伦理和可持续发展的理念和内涵,不断提高学生思想道德情操,提高学生服务国家服务人民的社会责任感和时代使命感。
四、毕业要求(学生核心能力)
1. 工程知识:掌握材料科学与工程专业所需的数学、自然科学、工程基础和专业知识,能够应用上述知识解决材料制备、表征、成型,及产品设计和应用开发的复杂工程问题。
(1)能将数学、自然科学、工程科学的语言工具,用于材料科学与工程领域复杂工程问题的表述。
(2)能针对材料科学与工程领域相关制备、加工及应用等具体过程,建立数学模型并求解。
(3)能够将数学、自然科学、工程基础和专业知识,用于推演、分析材料科学与工程领域中的复杂工程问题。
(4)能够将工程基础和专业知识与数学模型方法,用于材料科学与工程领域复杂工程问题解决方案的比较与综合。
2. 问题分析:能够应用数学、自然科学和工程科学的基本原理,识别和表达对材料及其制品性能产生影响的材料组成、结构、加工工艺及相关设备等复杂工程因素,并通过文献研究分析,获得有效结论。
(1)能够运用相关科学原理识别、判断材料在制备、表征、加工、性能测试和工程应用中的关键问题。
(2)能够掌握材料科学与工程领域的实验和计算方法,具备研究和分析金属材料、无机非金属材料、复合材料及其功能材料的组织、结构、性能关系的能力。
(3)能够对材料领域的复杂工程问题进行提炼、分析,比较评价多种解决方案的优劣,并对合理解决方案优化和改进。
(4)能够掌握文献检索和分析的方法,并将有效信息用于金属、无机非金属、复合材料、功能材料等材料的制备、加工和应用等多环节复杂工程问题的解决。
3. 设计/开发解决方案:能够针对材料在生产加工及性能调控中的复杂工程问题提出解决方案,开发设计满足特定需求的工艺流程和先进材料产品,能够在设计环节中体现创新意识,并综合考虑社会、健康、安全、法律、文化以及环境等因素。
(1)掌握材料科学与工程领域中产品制备、加工、应用相关的全周期设计/开发原理、方法和技术,了解影响设计目标和技术方案的全流程关键因素。
(2)能够针对特定需求,设计并制定材料领域中复杂问题的解决方案。
(3)能够对材料的制备、加工及应用中相关的工艺流程进行系统整合,在解决复杂工程问题的方案中体现创新意识,设计满足多种因素制约下的解决方案。
(4)能够在解决材料设计、制备、加工及应用相关复杂工程问题时,考虑安全、健康、法律、文化及环境等制约因素。
4. 研究:能够基于科学原理,采用科学方法对材料研发、生产加工过程中的复杂工程问题进行研究,具备实验设计、实验实施、产品检测、数据分析的能力,并能综合相关信息得到合理有效的结论。
(1)能够基于自然科学和材料领域的基本原理和专业知识,结合文献查阅,采用科学方法研究和分析材料设计、制备和加工过程中复杂工程问题。
(2)掌握基本的材料制备、表征、加工和性能测试方法及实验操作技能,具有选择研究路线和设计实验方案的能力。
(3)能够根据研究方案和路线设计,搭建实验装置或实验平台,安全地开展实验,正确地采集实验数据。
(4)能够分析和解释实验结果的能力,并通过信息综合得到合理有效结论,开展多学科交叉的前沿研究探索工作。
5. 使用现代工具:能够针对材料的设计、制备、加工等复杂工程问题,开发、选择与使用恰当的技术、资源、现代信息技术工具和工程工具,能够对相关复杂工程问题进行预测与模拟,并能够理解其局限性。
(1)了解材料科学与工程领域常用的现代仪器、工程工具、信息技术工具和模拟软件的工作原理和方法,理解其适用范围。
(2)能够选择和使用恰当的技术、方法和现代工具对材料的结构、性能进行分析、计算与设计,用于解决材料制备、加工与应用中的复杂工程问题。
(3)能够选用或开发现代工具,对材料设计、制备、加工及其结构与性能等方面的复杂工程问题进行模拟与预测,通过控制成分或加工参数调控产品性能,并能够理解其局限性。
6. 工程与社会:了解材料制备、加工及生产环节相关的法律法规,基于材料相关工程背景知识,能够对工程实践方案进行合理分析,评价材料科学与工程实践和复杂工程问题解决方案对社会、健康、安全、法律以及文化的影响,并理解应承担的责任。
(1)掌握材料制备、加工及生产过程的技术标准、知识产权、环境安全、法律法规等基本知识。
(2)具有材料科学相关的工程及社会实践经历,能够合理分析、评价材料科学与工程实践和复杂工程问题解决方案对社会、健康、安全、法律以及文化的影响,并理解应承担的责任。
7. 环境和可持续发展:针对材料科学自身特点,具有环境保护和可持续发展的意识,能够理解和评价针对复杂材料工程问题的工程实践对环境、社会可持续发展的影响。
(1)知晓和理解环境保护和可持续发展的理念和内涵,了解国家和各级部门与环境保护相关的政策和法律法规;能够理解和评价针对复杂材料工程问题的工程实践对环境的影响。
(2)具有可持续发展意识,了解国家的可持续发展战略,能够正确理解和评价材料科学与工程领域复杂工程问题的工程实践对社会可持续发展的影响。
8. 职业规范:具有家国情怀、人文社会科学素养、社会责任感,能够在材料科学与工程实践中理解并遵守工程职业道德和规范,履行责任。
(1)具有正确的世界观、人生观和价值观,具有家国情怀、人文知识、科学素养和社会责任感。
(2)理解“诚实公正、诚信守则”的工程职业道德和规范,并能在工程实践中自觉遵守,履行责任。理解材料科学与工程专业工程师对公众的安全、健康和福祉和生态环境的责任,并在工程实践中自觉履行职责。
9. 个人和团队:具备团队协作能力,理解多学科背景下团队的意义和作用及团队中每个角色的定位与责任,能够在团队中承担个体、团队成员以及负责人的角色。
(1)具备团队合作精神,理解多学科交叉融合下团队协作的意义和作用,能与团队中其他学科的成员有效沟通,能够在团队中独立或合作开展工作。
(2)理解材料研发、加工、生产团队中每个角色的定位与责任,在团队中积极承担个体、团队成员以及负责人的角色,协同团队成员完成任务,具备组织管理团队的能力。
10. 沟通:能够与国内外领域同行及社会公众围绕材料科学与工程的问题进行有效沟通和交流,包括撰写报告、陈述发言、清晰表达或回应指令,并具备一定的国际视野和跨文化背景下的学习、沟通和交流能力。
(1)能够通过绘制图纸、撰写报告、设计文稿、陈述发言以及答辩等书面和口头形式准确描述、清晰表达材料科学与工程领域相关的复杂工程问题,理解与业界同行及社会公众就复杂工程问题进行沟通和交流的差异性。
(2)具备较强的语言表达能力和外语听说读写能力,能够就材料的研究设计、加工、应用等问题,在跨文化背景下进行基本沟通、交流与合作,了解国内外本专业的发展趋势、研究热点,理解和尊重世界不同文化的差异性和多样性。
11. 项目管理:理解并掌握工程管理原理与经济决策方法,具有工程实习经历,并能在解决复杂材料制备、加工和工程应用等多学科环境中应用。
(1)具有材料制备、加工及应用全流程工程实践学习经历,理解并掌握材料科学与工程活动中涉及的重要工程管理原理与经济决策方法。
(2)能够将相关工程管理原理与经济决策方法应用于多学科环境下的工程活动中,在设计开发材料科学与工程领域的解决方案过程中,运用工程管理与经济决策方法。
12. 终身学习:具有自主学习和终身学习的意识,有不断学习和适应发展的能力。
(1)能够认识到不断学习的必要性和重要性,具有自主学习和终身学习的意识。
(2)能够针对个人和行业发展的需求,具有不断学习和适应发展的能力,包括材料科学与工程领域复杂工程问题的理解能力、分析归纳和提出问题的能力等。
五、学制与学位授予
学制:本科学制四年(4+0),按照学年学分制管理,最长学制不超过6年。
学历学位:学生通过全部规定课程并达到两校毕业要求,将同时获得皇冠正规娱乐平台本科毕业证书、工学学士学位证书,伦敦玛丽女王大学工学学士学位证书。
六、学分学时
总学分:172+X学分
其中:
课程类别 | 建议学分 |
通识通修课程 | 84学分 |
学科专业课程 | 88学分 |
合计学分 | 172学分 |
个性发展课程 | 建议修读6学分左右 |
素质拓展课程 |
七、课程体系设置
材料科学与工程专业(080401H)总学分172,总学时2974,包含课程模块学分分布如下:
引进外方 课程门数 | 21 | 总课程门数 | 53 | 占比 | 39.6% |
引进外方 专业核心课程门数 | 18 | 总专业核心 课程门数 | 25 | 占比 | 72% |
外方教师承担的专业核心课程的门数 | 18 | 总课程门数 | 53 | 占比 | 34% |
外方教师承担的专业核心课程的学时数 | 1016 | 总课程学时数 | 2974 | 占比 | 34.2% |
(通识通修课程、学科专业课程总学分≥172;个性发展课程、素质拓展课程建议修读6学分左右)
(一) 通识通修课程 84学分
1. 通识课程
(1)审美与艺术类 4学分
课程编码 | 课程名称 | 学分 | 学时 | 课程性质 | 备注 |
U30G11001 | 大学美育 | 2 | 32 | 必修 |
|
U30G11002 | 艺术导论 | 2 | 32 | 限选 | 艺术史论类 |
UQMG11008 | 科学与艺术 | 1 | 16 |
U30G11007 | 戏剧鉴赏 | 2 | 32 | 戏剧戏曲类 |
U30G11008 | 戏曲鉴赏 | 2 | 32 |
U30G11022 | 京剧艺术呈现 | 2 | 32 |
U30G11034 | 戏剧与时代精神 | 2 | 32 |
U30G11035 | 电影艺术与戏剧创作 | 1 | 16 |
U30G21004 | 戏剧表演与实践 | 2 | 32 |
U30G11011 | 中国文艺之美 | 1 | 16 | 文学类 |
U30G11005 | 影视鉴赏 | 2 | 32 | 影视类 |
U30G11018 | 影像中国—纪录片与跨文化传播 | 2 | 32 |
U30G21002 | 自媒体创作与艺术实践 | 2 | 32 |
U30G11021 | 壁画艺术工作坊 | 2 | 32 | 美术类 |
U30G11023 | 唐代壁画艺术 | 2 | 32 |
U30G21003 | 艺术的启示 | 1 | 16 |
U30G21005 | 线的艺术 | 2 | 32 |
U30G11004 | 美术鉴赏 | 2 | 32 |
U30G11036 | 古诗词艺术歌曲赏析 | 2 | 32 | 音乐类 |
U30G11037 | 电影中的古典音乐鉴赏 | 2 | 32 |
U30G11038 | 音乐人文诠释 | 2 | 32 |
U30G11009 | 舞蹈鉴赏 | 2 | 32 | 舞蹈类 |
U30G11025 | 图形艺术与创意思维 | 2 | 32 | 艺术设计类 |
说明:审美与艺术类课程包含必修课程《大学美育》和限定性艺术课组,共计4学分,所有学生必修《大学美育》课程,2学分;并在八类限定性艺术选修课组中修读完成至少2学分课程。其中大学美育、艺术导论、戏曲鉴赏、壁画艺术工作坊、美术鉴赏、舞蹈鉴赏等课程均统一使用马工程教材进行授课。
(2)文明与科技类、创新创业类、管理与领导力类、全球视野类、生态与可持续发展类、写作与沟通类等6学分,具体课程详见当学期开课列表。
课程编码 | 课程名称 | 学分 | 学时 | 课程性质 |
| 文明与科技类课组 | 6 | 96 | 限选 |
创新创业类课组 |
管理与领导力类课组 |
全球视野类课组 |
生态与可持续发展类课组 |
写作与沟通类课组 |
2. 公共基础课程
(1)思想政治理论类 18学分
课程编码 | 课程名称 | 学分 | 学时 | 课程性质 |
U44G11035 | 思想道德与法治 | 2.5 | 40 | 必修 |
U44G11037 | 毛泽东思想和中国特色社会主义理论体系概论 | 2.5 | 40 |
U44G11036 | 中国近现代史纲要 | 2.5 | 40 |
U44G11034 | 马克思主义基本原理 | 2.5 | 40 |
U44G11023 | 习近平新时代中国特色社会主义思想概论 | 3 | 48 |
U44G11013 | 形势与政策(1) | 0.5 | 8 |
U44G11014 | 形势与政策(2) | 0.5 | 8 |
U44G11015 | 形势与政策(3) | 0.5 | 8 |
U44G11016 | 形势与政策(4) | 0.5 | 8 |
U44G21001 | 思政实践课 | 2 | 32 |
U44G11003 | 中共党史 | 1 | 16 | 限选 (至少修读 1学分) |
U44G11005 | 改革开放史 | 1 | 16 |
U44G11011 | 社会主义发展史 | 1 | 16 |
U44G11012 | 新中国史 | 1 | 16 |
(2)军事类 4学分
课程编码 | 课程名称 | 学分 | 学时 | 课程性质 |
U34G11005 | 军事理论 | 2 | 36 | 必修 |
U34P41002 | 军事技能训练 | 2 | 120 | 必修 |
(3)体育与健康类 6学分
课程编码 | 课程名称 | 学分 | 学时 | 课程性质 |
U34G11004 | 大学生心理健康教育 | 2 | 32 | 必修 |
| 体育 (具体项目课程详见体育部当学期开设课程) | 4 | 144 | 限选 |
毕业时必须达到学校体育合格421X标准,即修满4个体育必修学分;掌握2项运动技能(其中一项为游泳);达到1项《国家学生体质健康标准》测试合格要求;学生本科期间可根据个人兴趣修读体育类素质拓展课程,获得X体育素质学分。
(4)安全教育类 1学分
课程编码 | 课程名称 | 学分 | 学时 | 课程性质 |
USCG11001 | 国家安全概论 | 1.5 | 24 | 限选 |
U65G11002 | 急救知识与技能 | 0.5 | 8 |
UOCG11006 | 解码国家安全 | 1.5 | 24 |
UOCG11007 | 人文与医学 | 1.5 | 24 |
UOCG11008 | 健康导航与科学用药 | 1.5 | 24 |
UOCG11032 | 大学生国家安全教育 | 1.5 | 24 |
UOCG11033 | 生命安全与救援 | 1.5 | 24 |
UOCG11034 | 食品安全与日常饮食 | 1 | 16 |
UOCG11035 | 移动互联网时代的信息安全与防护 | 1 | 16 |
UOCG11036 | 大国兵器 | 1.5 | 24 |
UOCG11037 | 现场生命急救知识与技能 | 0.5 | 8 |
UOCG11038 | 走近核科学技术 | 0.5 | 8 |
UOCG11039 | 辐射与防护 | 1 | 16 |
UOCG11075 | 兵棋 | 1 | 16 |
UOCG11076 | 海上作战与三十六计 | 1 | 16 |
UOCG11077 | 全球卫生导论 | 0.5 | 8 |
UOCG11080 | 实验室安全与防护 | 1 | 16 |
(具体课程详见当学期开课列表)
学院每学年开设不少于1次国家安全专题教育,每次不少于2学时,并做好记录备案工作。
(5)语言类 8学分
课程编码 | 课程名称 | 学分 | 学时 | 课程性质 |
UQMG12211/ QXU3103 | 科学工程英语概论 | 4 | 64 | 必修 |
QXU3104 | 科学工程英语应用 | 4 | 64 | 必修 |
(6)数学与自然科学类 37学分
课程编码 | 课程名称 | 学分 | 学时 | 课程性质 |
NXC3000 | 高等数学1 | 5.5 | 88 | 必修 |
NXC3004 | 高等数学2 | 5.5 | 88 | 必修 |
NXC3002 | 线性代数 | 3 | 48 | 必修 |
NXC3005 | 数学建模与计算 | 4 | 64 | 必修 |
NXC3001 | 大学物理 | 5 | 82 | 必修 |
QXU4004 | 工程化学 | 3.5 | 56 | 必修 |
NXC4012 | 工程力学 | 3.5 | 56 | 必修 |
QXU5010 | 表面与界面 | 3.5 | 56 | 必修 |
NXC4022 | 热力学与相变 | 3.5 | 56 | 必修 |
(二)学科专业课程 88学分
(1)大类平台课程 10.5学分
课程编码 | 课程名称 | 学分 | 学时 | 课程性质 |
QXU3112 | 专业工程技能学术培养 | 3.5 | 56 | 必修 |
UQMM12220/QXU4112 | 专业工程技能发展培养 | 3.5 | 56 | 必修 |
UQMM12230/QXU5112 | 专业工程技能应用培养 | 3.5 | 56 | 必修 |
(2)学科基础课程 14学分
课程编码 | 课程名称 | 学分 | 学时 | 课程性质 |
QXU4016 | 工程设计方法 | 3.5 | 56 | 必修 |
QXU4015 | 工程材料 | 3.5 | 56 | 必修 |
QXU4000 | 材料学1-结构与性能 | 3.5 | 56 | 必修 |
QXU4006 | 材料学2-加工与应用 | 3.5 | 56 | 必修 |
(3)专业方向课程 29学分
课程编码 | 课程名称 | 学分 | 学时 | 课程性质 |
QXU4002 | 材料化学 | 4 | 64 | 必修 |
NXC5015 | 结构表征 | 3.5 | 56 | 必修 |
NXC5026 | 金属I-变形与强化 | 3.5 | 56 | 必修 |
QXU5030 | 复合材料 | 3.5 | 56 | 必修 |
QXU5032 | 高分子材料物理性能 | 4 | 64 | 必修 |
NXC5036 | 金属II-合金与热处理 | 3.5 | 56 | 必修 |
QXU6004 | 工程设计中的材料选择 | 3.5 | 56 | 必修 |
QXU6008 | 材料和可持续性 | 3.5 | 56 | 必修 |
(4)专业选修课 14.5学分
QXU6032 | 先进陶瓷和玻璃材料 | 3.5 | 56 | 限选 |
NXC6029 | 断裂,疲劳与蠕变 | 4 | 64 | 限选 |
NXC6025 | 制造技术 | 4 | 64 | 限选 |
QXU6027 | 可再生能源技术 | 3 | 48 | 限选 |
(5)实践实训 10学分
包含认识实习、生产实习、创新创业项目、创新性实验项目、学科竞赛、科研实践类活动等。鼓励学生选择参与海外实习、课外实践、冬令营、夏令营等多种实践形式。其中劳动教育依托于生产实习(10学时)、夏季学期课程(6学时)。
课程编码 | 课程名称 | 学分 | 学时 | 课程性质 |
QXU4007 | 材料学实验I | 3.5 | 56 | 必修 |
QXU5017 | 材料学实验II | 3.5 | 56 | 必修 |
NXC0001 | 科研训练 | 1 | 16 | 必修 |
NXC0002 | 生产实习 | 2 | 80 | 必修 |
(6)毕业设计/论文 10学分
课程编码 | 课程名称 | 学分 | 学时 | 课程性质 |
QXU6030 | 材料专业毕业设计 | 10 | 160 | 必修 |
劳动教育主要依托毕业设计/论文,其中劳动教育学时16学时,引导学生锤炼劳动品质、养成劳动习惯,形成正确的劳动价值观。
(三)个性发展课程(共6学分,至少4门课程,建议选修授课语言为英语的课程)
鼓励根据个人发展志愿和兴趣、爱好、特长,修读综合素养类课程、学科拓展类课程、学术深造类课程。
(1)综合素养类课程
建议学生选修英文授课课程,包含科学素养类课程、经管法类课程、人文素养类课程、艺术素养类课程四个模块,每学期开设的上述模块课程详见当学期选课手册。
A. 科学素养类课程:包含三航概论、环境、生物等自然科学。
课程编码 | 课程名称 | 学分 | 学时 | 课程性质 |
NXC1004 | 计算机基础 | 1 | 16 | 任选 |
NXC1011 | 工程素养-工程基础实践 | 2 | 32 | 任选 |
NXC1012 | 工程素养—智能机器人系统教学与创新实践 | 2 | 32 | 任选 |
每学期开设的上述模块课程详见当学期选课手册 |
B. 经管法类课程:包含经济、管理、法学等。
C. 人文素养类课程:包含哲学、伦理、历史、文化、语言、文学、社会、审美、人生与发展等。
课程编码 | 课程名称 | 学分 | 学时 | 课程性质 |
NXC1010 | 科技英语文献写作 | 1.5 | 24 | 任选 |
NXC1008 | 西方哲学史 | 2 | 32 | 任选 |
每学期开设的上述模块课程详见当学期选课手册 |
D. 艺术素养类课程:
课程编码 | 课程名称 | 学分 | 学时 | 课程性质 |
UQML21009 | 葡萄酒文化与艺术品鉴 | 1 | 16 | 任选 |
每学期开设的上述模块课程详见当学期选课手册 |
(2)学科拓展类课程:包括学院、全校其他学院及大类所开设课程。
课程编码 | 课程名称 | 学分 | 学时 | 课程性质 |
UQML11006 | 生物化学 | 2 | 32 | 任选 |
UQML11005 | 分析化学 | 2 | 32 | 任选 |
NXC1005 | 无机化学 | 2 | 32 | 任选 |
NXC1006 | 基础有机化学 | 2 | 32 | 任选 |
NXC1007 | 物理化学 | 2 | 32 | 任选 |
NXC1013 | 量子力学导论 | 2 | 32 | 任选 |
NXC1014 | 仪器分析 | 2 | 32 | 任选 |
每学期开设的上述模块课程详见当学期选课手册 |
(3)学术深造类课程:包括全校开出的各通识课程,以及研究生课程。修读超出本专业各模块学分要求的学分,均可计入本模块。
课程编码 | 课程名称 | 学分 | 学时 | 课程性质 |
NXC1015 | 人工智能时代的材料设计与优化 | 2 | 32 | 任选 |
UQML11007 | 固体物理学导论 | 2.5 | 40 | 任选 |
UQMM11008 | 高聚物结构与性能 | 2 | 32 | 任选 |
UQMG11001 | 燃料电池概论 | 1 | 16 | 任选 |
UQML11009 | 极端环境下材料的服役特性 | 2 | 32 | 任选 |
UQML21010 | 学习技能提升 | 1 | 16 | 任选 |
UQMM11001 | 材料科学与工程进阶 | 1.5 | 24 | 任选 |
(四)素质拓展课程
(1)思想教育活动
(2)公益活动
(3)创新创业活动
(4)文体活动
(5)劳动实践
(6)社会实践活动
备注:学院组织每名学生党员都要到延安开展一次红色实践教育;每名学生都要到国防院所开展至少一次实践调研;每名本科生参加至少一次学校出资海外实践研学。
Materials Science and Engineering
Education Plan for 2024 Undergraduates
(QMUL Engineering School)
1. Programme Outline
Materials are the physical foundation upon which human survival depends, and materials science and engineering form the basis of all industries.It builds the development foundation of many scientific research and industries, such as new energy, sustainable development, bio-science, health and medicine, information technology, and intelligent manufacturing. As a popular programme for undergraduates,Materials Science and Engineering in Queen Mary University of London (hereinafter as QMUL) covers metals, ceramics, polymers, and composite with the involvement of chemistry, materials and engineering. It is one of the most influential and distinct programmes in QMUL. We provide elite education and professional training for students with a thorough grounding in the structure of materials, the properties of materials, the performance of materials, the manufacturing processes and design, shaping and applications. It has been rated as 5-star programme by the British government for many times. A survey conducted by the National Union of Students in 2011 showed that it ranked top 1 in the UK. In the first three rounds of discipline evaluation conducted by the Ministry of Education of China, the Materials discipline at Northwestern Polytechnical University (NPU) was ranked 9th, 6th, and 3rd respectively. In the fourth round, it received an 'A' rating, and in the fifth round, it achieved a significant breakthrough, positioning itself at the forefront of the top tier. It was selected twice, in 2017 and 2022, for inclusion in the national "Double First Class" initiative for discipline development, with its ESI discipline ranking entering the top 0.28%. NPU has 6 national-level platforms for scientific research and talent training.
QMES international faculty team comprises 105 teachers in total, with the 18 teachers from QMUL and 87 from NPU. Among the 18 teachers from QMUL, there is 1 professor, 3 associate professors, 6 senior lecturers, and 8 lecturers. Within the 87 teachers from NPU, there are 34 professors, 1 senior engineer, 48 associate professors/associate researchers, and 4 lecturers. Among them, there are 9 national-level talents and 3 provincial/ministerial-level talents. Out of all teachers, 85 have experience of studying or working abroad. The teaching staff are involved in 29 various educational reform projects, with 2 receiving the Baosteel Outstanding Teacher Award and 7 others receiving awards for educational excellence from Queen Mary University of London, including special awards from the principal. There are 3 national-level leading talents, 3 national-level young talents, 3 elected as fellows of the UK Institute of Materials, Minerals and Mining, and 1 elected as a fellow of the Higher Education Academy in the UK.
In order to learn from the advanced concept and model of training innovative undergraduate talents in British higher education and provide Chinese students with an authentic British-style higher education in their homeland, NPU and QMUL have launched a joint educational institution named Queen Mary University of London Engineering School, Northwestern Polytechnical University (hereinafter referred to as QMES), which was approved by the Ministry of Education of China. QMES, builds on the acknowledged expertise and experience of the two universities and their complementary research strengths in materials science, engineering, chemical and fully uses educational resource advantages and high-level international cooperation platforms of both universities to provide a high quality degree level education in the programme of Materials Science and Engineering (080401H). We draw on the academic expertise of both institutions and adopt an international teaching mode with curriculum system, teaching materials, and assessment methods from the UK. We aim to cultivate interdisciplinary leading talents who possess an international perspective and recognition of international rules in the field of engineering. With advanced materials and their preparation technology as the core, our programme integrates with the international frontiers of materials science and chemical engineering disciplines. We aim to nurture individuals with patriotism and social responsibility, as well as solid foundations in natural sciences, materials science and engineering, and humanities. Our graduates have strong professional competitiveness, high comprehensive competence, innovative consciousness and capabilities, and lifelong learning abilities.
2. Aims of the Programme
Focused on the international academic forefront of materials science, committed to the progress of human civilization and the development of the materials science discipline, this programme aims to cultivate interdisciplinary leading talents with a strong sense of national pride and social responsibility, possessing a solid foundation in natural science, materials scienceand engineering, and humanities, and possessing the abilities of innovation and lifelong learning. We aim to develop interdisciplinary leading talents who can engage in design and development, manufacturing, engineering management, and scientific research in fields such as mechanical manufacturing, electronic information, telecommunications, computing, and biopharmaceuticals related to materials and chemical engineering. Students who have completed their studies will be able to pursue higher degrees and research within universities in China and internationally or careers in world famous enterprises and international organization.
(1) Humanistic Literacy
Graduates can accurately understand China's characteristics and compare them internationally, developing a comprehensive and objective understanding of modern China while engaging globally. They are familiar with international norms and have a broad global perspective. Graduates should possess good literacy in humanities, professional ethics, social responsibility, and environmental awareness, as well as a concept of sustainable development. They should be capable of handling their positions competently and actively serving their industries and society, becoming qualified constructors of socialist undertakings and reliable successors.
(2) Professional Competence
Graduates should possess the ability to proficiently apply specialized knowledge in their disciplines and utilize modern tools. They should demonstrate innovative spirit, with the capability to conduct scientific research, design, and development of new materials, technologies, and processes. Additionally, they should have engineering skills for equipment transformation and upgrading. They should be able to comprehensively analyze and research complex engineering problems in the field of advanced materials science and engineering, and propose solutions.
(3) Career Orientation
Graduates should be familiar with the current status and trends of industry development, and capable of participating in or independently engaging in material research, process design, technological development, market expansion, development planning, production, and business management in the field of advanced materials science and engineering. Graduates have the capability to pursue further studies at world-renowned universities or to work for globally renowned companies and international organizations.
(4) Social Skills
Graduates should have a high level of English proficiency, capable of proficiently reading professional English materials, engaging in professional writing, and technical communication in English. Graduates should have excellent communication skills, interpersonal skills, and teamwork abilities. They are able to effectively collaborate in cross-cultural and interdisciplinary teams, playing a pivotal role as technical backbone or primary leaders.
(5) Self-development
Graduates should have innovative thinking, awareness, and capabilities, equipped with the ability to identify, analyse, and solve problems. They possess strong lifelong learning abilities, capable of continuously learning, adapting, and creating new ideas, methods, and products in ever-changing environments. In both learning and practice, they are brave in exploration and daring in innovation, driving technological innovation and social development.
3. Ideological Education
Implement the fundamental task of establishing virtues and educating people, use the thought of socialism with Chinese characteristics in the new era to shape the soul and educate people, and strive to cultivate students to become chief engineers who embody patriotism, humility, pragmatism, inclusiveness, steady accumulation, and vigorous development, all while serving the nation. By making full use of the wide application and strong practical characteristics of materials science and engineering, bridge the module knowledge to national major projects and personage deed through in-class and extracurricular diversified teaching methods, as well as new media carriers to strengthen the guidance of value and foster the ideological and political education through the whole process of teaching. It is necessary to not only make the teaching vivid, but also to make the process of ideological and political moral education concrete so as to convince people with reasonable facts. Guide teachers to align with human development and social progress, national strategies, and technological frontiers, delve into the education elements within the curriculum, and achieve a deep integration of education with professional teaching. Guide students to establish patriotism while teaching them solid professional knowledge in order to improve students' ideological and moral sentiments, enhance their sense of social responsibility and mission to serve the country and the people, as well as to improve their understanding of the relationship between individuals and society, individuals and nature, and to grasp the concepts and implications of engineering ethics and sustainable development.
4. Graduation Requirements (Core Abilities of Students)
4.1 Engineering Knowledge:students will master mathematics, natural science, engineering fundamentals, and professional knowledge required for Materials science and Engineering. Students will have the ability to apply that knowledge to solve complex engineering problems in the design, synthesis, processing, and application of materials.
(1) Students will have the ability to use the terminology of mathematics, natural science, and engineering science to express complex engineering problems in the field of materials science and engineering.
(2) Students will have the ability to establish and solve mathematical models for specific processes related to the preparation, processing, and application in the field of materials science and engineering.
(3) Students will have the ability to apply mathematics, natural science, engineering fundamentals, and professional knowledge to derive and analyse complex engineering problems in the field of materials science and engineering.
(4) Students will have the ability tocompare and synthesize engineering fundamentals and professional knowledge with mathematical modeling methods for solutions to complex engineering problems in the field of materials science and engineering.
4.2 Problem Analysis: students will have the ability to use the basic principles of mathematics, natural sciences and engineering sciences to identify and express complex engineering problems of material composition, structure, production processes and related equipment of materials and their products, obtaining effective conclusions through literature research and analysis.
(1) Students will have the ability in utilizing relevant scientific principles to identify and judge key issues in the synthesis, modification, moulding and processing, performance testing and engineering applications of materials.
(2) Students will have the ability in refining and modelling complex engineering problems in the synthesis, modification, moulding and processing, performance testing and engineering applications of materials, clarifying key stages and parameters.
(3) Students will have the ability in refining, analyzing and evaluate complex engineering problems in the field of materials, rationalizing, optimizing and improving solutions.
(4) Students will have the ability to search and analyze literature, and apply effective information to solve complex engineering problems in the preparation, processing and application of materials.
4.3 Design/Development of Solutions: students will have the ability to propose solutions to complex engineering problems in the production and processing of materials and the regulation of their properties, developing designs for processes and advanced material products to meet specific needs, demonstrating innovation in the design process and considering social, health, safety, legal, cultural and environmental factors.
(1) Students will master relevant design/development principles, methods and techniques in the field of materials, and understand factors affecting design objectives and technical solutions.
(2) Students will have the ability to design and develop solutions to complex problems in the field of materials and select appropriate processing and equipment for specific needs.
(3) Students will have the ability to systematically integrate relevant processes in the preparation, processing and application of materials, demonstrating a sense of innovation in solutions to complex engineering problems, and figuring out solutions under various constraints.
(4) Students will have the ability of taking safety, health, legal, cultural and environmental constraints into consideration during the design, development and solving of complex engineering problems in materials.
4.4 Research: students will have the ability to conduct research based on scientific principles and using scientific methods on complex engineering problems in the process of research and development, production and processing of materials, with abilities in experimental design, implementation, product testing, data analysis, and synthesizing relevant information to reach reasonable and effective conclusions.
(1) Students will have the ability to research and analyze complex engineering problems in the R&D and production of materials using scientific methods based on fundamental principles and professional knowledge in natural sciences and materials fields, combined with literature review.
(2) Students will have knowledge in basic synthesis, characterization, moulding processing and performance testing methods and experimental operation skills, with the ability in choosing research methods and designing experimental programmes.
(3) Students will have the ability to build an experimental set-up or experimental platform, carrying out experiments safely, and collecting experimental data correctly according to the research programme and methods.
(4) Students will have the ability to analyze and interpret experimental results and synthesize information to reach reasonable and valid conclusions, and engage in interdisciplinary and cutting-edge research exploration.
4.5 Use of Modern Tools: Students will have the ability to develop, select and use appropriate technologies, resources, modern information technology tools and engineering tools for complex engineering problems in the design, synthesis, moulding and processing of materials, predicting and simulating relevant complex engineering problems and understanding their limitations.
(1) Students will understand the working principles and methods of modern instruments, engineering tools, IT tools and simulation software commonly used in materials science and engineering field, understanding their application areas.
(2) Students will have the ability to select and use appropriate techniques, methods and modern tools to analyse, calculate and design the structure and properties of materials, solving complex engineering problems in the preparation, processing and application of materials.
(3) Students will have the ability to develop or select modern tools for the simulation and prediction of complex engineering problems in the preparation, processing and moulding, as well as in the structure and properties of materials and their products, controlling parameters and regulating performance, understanding their limitations.
4.6 Engineering and Society: students will understand the laws and regulations related to the preparation, production and moulding processing of materials, will have the ability in analyzing engineering practice scenarios based on a background knowledge of engineering related to materials, evaluating the social, health, safety, legal, and cultural impacts of materials science and engineering practice and solutions to complex engineering problems, and understanding the responsibilities involved.
(1) Students will have basic knowledge of technical standards, intellectual property rights, environmental safety, laws and regulations in the preparation, production and moulding process of materials, and have the initial ability to deal with crises and emergencies.
(2) Students will have experiences in engineering and social practices related to materials, and the ability in analyzing and evaluating the social, health, safety, legal and cultural impacts of materials science and engineering practices and solutions to complex engineering problems, as well as understanding the responsibilities to be assumed.
4.7 Environment and sustainable development: Have a strong awareness of environmental protection and sustainable development based on the characteristics of materials, and be able to understand and evaluate the influences of engineering practices on complex material engineering problems to the environment and sustainable development of society.
(1) Know and understand the concept and connotation of environmental protection and sustainable development, understand policies and legal regulations related to environmental protection at the national and various levels; be capable of understanding and evaluating the impact of engineering practices on complex material engineering problems on the environment.
(2) Have strong sense of sustainable development, being aware of the national strategy of sustainable development. Correctly understand and evaluate the impact of engineering practices on complex engineering problems in the field of materials on the sustainable development of society.
4.8 Professional ethics: Possess a sense of patriotism, humanities and social science literacy, and social responsibility. Capable of understanding and adhering to engineering professional ethics and standards in materials science and engineering practices, and also fulfilling responsibilities.
(1) Have a correct world view, outlook on life and values, possessing a sense of patriotism, humanistic knowledge, scientific literacy, and social responsibility.
(2) Understand the engineering professional ethics and norms of honesty, fairness andintegrity, and consciously abide them in engineering practices. Understand the responsibility of materials science and engineering professional engineers to the public's safety, health and welfare, and the ecological environment, and consciously fulfill duties in engineering practice.
4.9 Individual and team: Possess team collaboration abilities, understand the significance and role of teams in a multidisciplinary context ,and the positioning and responsibilities of each role in the team, capable of taking on the roles of an individual, team member, and leader within a team.
(1) Possess team spirit, understand the significance and role of team collaboration under multidisciplinary integration. Capable of effectively communicating with members of other disciplines within the team. Capable of working independently or in cooperation within the team.
(2) Understand the positioning and responsibilities of each role in the materials research and development team, and production team.Actively take on the roles of an individual, team member, and leader within the team, collaborate with team members to complete tasks, possessing the ability to organise and manage a team.
4.10 Communication: Capable of effectively communicating and exchanging views on issues related to materials science and engineering with peers both domestically and internationally and with the general public, including writing reports, making statements, clearly expressing or responding to instructions, and possessing a certain international outlook and cross-cultural background learning, communication, and exchange abilities.
(1) Capable of accurately describing and clearly expressing complex engineering problems related to materials science and engineering through drawings, reports, design manuscripts, speeches, and defences in both written and oral forms, understanding the differences in communication and exchange on complex engineering problems with industry peers and the general public.
(2) Possess strong language expression abilities and foreign language listening, speaking, reading, and writing abilities, capable of basic communication, exchange, and cooperation on the research, development, design, and application of materials in a cross-cultural context, understanding domestic and international development trends, research hotspots in the field, understanding and respecting the differences and diversity of cultures around the world.
4.11 Project management: Understand and master the principles of engineering management and economic decision-making methods, have engineering practice experience, and apply them in solving complex synthesis, processing, and engineering application problems of materials in a multidisciplinary environment.
(1) Have engineering practice learning experiences, understand and master important engineering management principles and economic decision-making methods involved in materials science engineering activities.
(2) Capable of applying related engineering management principles and economic decision-making methods in engineering activities in a multidisciplinary environment, using engineering management and economic decision-making methods in the process of designing and developing solutions in the field of materials science and engineering.
4.12 Lifelong learning: Possess the awareness of self-learning and lifelong learning, with the ability to continuously learn and adapt to development.
(1) Have good mental and physical health, Capable of recognising the necessity and importance of continuous learning, possessing the awareness of self-learning and lifelong learning.
(2) Capable of continuously learning and adapting to the needs of personal and industry development, including the ability to understand complex engineering problems, analyse, summarise, and pose questions in the field of materials science and engineering.
5. Qualification and Degree Certificate
Official length of the programme: 4+0 years’ study in accordance with the credit management system, the maximum length of study shall not exceed 6 years.
Qualification and certificate: After students have successfully passed all modules and meet the graduation requirements of two universities, they will be awarded diploma by NPU, BEng degree by NPU, and BEng degree by QMUL.
6. Credits and Hours
Total credits:172+X credits
Includes:
Type of module | Credits |
General education modules | 84 |
Technical discipline modules | 88 |
Total credits | 172 |
Personality Development Modules | 6 |
Extension practices |
7. Curriculum Structure and Credits
The total credits for the Materials Science and Engineering major (080401H) are 172, with a total study time of 2974 hours. The distribution of credits for the modules is as follows:
Number of modules from QMUL introduced | 21 | Total number of modules | 53 | Percentage | 39.6% |
Number of core modules from QMUL introduced | 18 | Total number of core modules | 25 | Percentage | 72% |
Number of core modules taught by QMUL lecturers | 18 | Total number of modules | 53 | Percentage | 34% |
Hours for core modules taught by QMUL lecturers | 1016 | Total hours for modules | 2974 | Percentage | 34.1% |
(General education modules and technical discipline modules: 172 credits;Personality Development Modules and extension practices : X credits)
7.1 General education modules 84credits
1). General Studies modules
(1) Aesthetics and Art modules 4 credits
Module Code | Module Name | Credit | Hour | Category | Note |
U30G11001 | College aesthetic education | 2 | 32 | Compulsory module |
|
U30G11002 | Art appreciation | 2 | 32 | Elective compulsory | Art history modules |
U30G12001 | The Path of Chinese Aesthetics(Eng) | 2 | 32 |
U30G11020 | Appreciation Course of Classical Poetry and Music | 2 | 32 | Music modules |
U30G11007 | Appreciation of Drama | 2 | 32 | Drama modules |
U30G11008 | Appreciation of Chinese Opera | 2 | 32 |
U30G11022 | Beijing opera | 2 | 32 |
U30G11016 | The beauty of Chinese literature and art | 2 | 32 | Literature modules |
U30G11005 | Film and Television Appreciation | 2 | 32 | Film and television modules |
U30G11018 | Video China-Documentary and Cross-cultural Communication | 2 | 32 |
U30G11021 | Mural Art Workshop | 2 | 32 | Art modules |
see the current semester modules |
| Dance modules |
see the current semester modules |
| Art design modules |
All students should take the compulsory module—college aesthetic education (2 credits) and at least 2 credits in the other eight elective compulsory modules designated by the Ministry of Education.
(2) Civilization and Technology, Innovation and Entrepreneurship, Management and Leadership, Global Perspectives, Ecology and Sustainable Development, Writing and Communication," each module worth 6 credits. Please refer to the module offerings for the current semester for specific details.
Module Code | Module Name | Credit | Hour | Category |
| Civilization and Technology | 6 | 96 | Elective |
Innovation and Entrepreneurship |
Management and Leadership |
Global Vision |
Ecology and Sustainable Development |
Writing and Communication |
Note: Students can choose modules from one or more categories listed above and should take at less 6 credits. The module list in each semester will be published by the University.
2). Public Basic Modules
(1) Ideological and political theory modules 18 credits
Module Code | Module Name | Credit | Hour | Category |
U13G11007 | Marxism General Principle | 2.5 | 40 | Compulsory |
U44G11004 | Fundamental of Mao Ze Dong Thoughts | 2.5 | 40 | Compulsory |
U44G11001 | Essentials of Chinese Modern History | 2.5 | 40 | Compulsory |
U13G11012 | Ethics and Fundamental of Law | 2.5 | 40 | Compulsory |
U44G21001 | Ideological and Political Practice | 2 | 32 | Compulsory |
U44G11013 | Situation and Policy(1) | 0.5 | 8 | Compulsory |
U44G11014 | Situation and Policy(2) | 0.5 | 8 | Compulsory |
U44G11015 | Situation and Policy(3) | 0.5 | 8 | Compulsory |
U44G11016 | Situation and Policy(4) | 0.5 | 8 | Compulsory |
U44G11009 | Outline of Xi Jinping Thought on Socialism with Chinese Characteristics for a New era | 3 | 48 | Compulsory |
U44G11003 | History of the Communist Party of China | 1 | 16 | Elective compulsory |
U44G11012 | History of the People's Republic of China | 1 | 16 |
U44G11005 | History of Reform and Opening Up | 1 | 16 |
U44G11011 | History of the Development of Socialism | 1 | 16 |
Students much take all compulsory modules listed in the above, in total 18 credits. Situation and Policy (1)(2)(3)(4) four modules must be taken in 4 academic years (Semester 1 to Semester 7) respectively with 8 hours (0.5 credit) in each year, in total 32 hours (2 credits). Students must choose to study at least one module from the modules "History of the Communist Party of China", "History of the People's Republic of China", "History of Reform and Opening Up" and "History of the Development of Socialism", and take at least 1 credit.
(2) Military modules 4 credits
Module Code | Module Name | Credit | Hour | Category |
U34G11005 | Military Theory | 2 | 32 | Compulsory |
U34P41002 | Military Training | 2 | 32 | Compulsory |
(3) Sports and Mental health modules 6 credits
Module Code | Module Name | Credit | Hour | Category |
U34G11004 | Students Mental Health Education | 2 | 32 | Compulsory |
| For specific programme modules, see the current semester modules offered by the Physical Education Department | 4 | 128 | Elective compulsory |
Students can freely choose different modules according to their majors, physical conditions, interests and physical basis. Students must meet the 421X standard of school physical education qualification upon graduation, that is, complete 4 credits; students should be proficient in 2 sports skills and obtain a skill certificate (one of which is swimming); during the undergraduate period, students can study physical quality development module according to their personal interests and obtain X credits. Students are suggested to choose sports modules during first 4 semesters.
(4) National Security Education 1 credit
National security education is a compulsory public fundamental module with the requirements of attending no less than 1 credit (2 hours) in one academic year. The module list in each semester will be published by the University.
(5) Language modules 8 credits
Module Code | Module Name | Credit | Hour | Category |
UQMG12211/QXU3103 | English for Science and Engineering | 4 | 64 | Compulsory |
QXU3104 | Communication in Science and Engineering | 4 | 64 | Compulsory |
(6) Mathematics and Natural Science 37 credits
Module Code | Module Name | Credit | Hour | Category |
NXC3000 | Advanced Math 1 | 5.5 | 88 | Compulsory |
NXC3004 | Advanced Math 2 | 5.5 | 88 | Compulsory |
NXC3002 | Linear Algebra | 3 | 48 | Compulsory |
NXC3005 | Mathematical Modelling and Computing | 4 | 64 | Compulsory |
NXC3001 | General Physics | 5 | 82 | Compulsory |
QXU4004 | Engineering Chemistry | 3.5 | 56 | Compulsory |
NXC4012 | Mechanical Modelling | 3.5 | 56 | Compulsory |
NXC4022 | Thermodynamics and Phase Transformations | 3.5 | 56 | Compulsory |
QXU5010 | Surfaces and Interfaces | 3.5 | 56 | Compulsory |
7.2 Technical discipline Modules 88 credits
(1) Interdisciplinary Platform Modules 10.5 credits
Module Code | Module Name | Credit | Hour | Category |
QXU3112 | Academic and Professional Engineering Skills | 3.5 | 56 | Compulsory |
UQMM12220/QXU4112 | Developing Professional Engineering Skills | 3.5 | 56 | Compulsory |
UQMM12230/QXU5112 | Business and Professional Skills in Engineering | 3.5 | 56 | Compulsory |
(2) Discipline Elementary Modules 14 credits
Module Code | Module Name | Credit | Hour | Category |
QXU4016 | Engineering Design Methods | 3.5 | 56 | Compulsory |
QXU4015 | Engineering Materials | 3.5 | 56 | Compulsory |
QXU4000 | Materials Science 1-structure and properties | 3.5 | 56 | Compulsory |
QXU4006 | Materials Science 2-processing and applications | 3.5 | 56 | Compulsory |
(3) Discipline Core Modules 29 credits
Module Code | Module Name | Credit | Hour | Category |
QXU4002 | Chemistry for Materials | 4 | 64 | Compulsory |
NXC5015 | Structural Characterisation | 3.5 | 56 | Compulsory |
NXC5026 | Metals I-Deformation and Strengthening | 3.5 | 56 | Compulsory |
QXU5030 | Composite Materials | 3.5 | 56 | Compulsory |
QXU5032 | Physical Properties of Polymers | 4 | 64 | Compulsory |
NXC5036 | Metals II-Alloy Systems and Heat Treatment | 3.5 | 56 | Compulsory |
QXU6004 | Materials Selection in Engineering Design | 3.5 | 56 | Compulsory |
QXU6008 | Materials and Sustainability | 3.5 | 56 | Compulsory |
(4) Discipline Elective Module 14.5 credits
Module Code | Module Name | Credit | Hour | Category |
QXU6032 | Advanced Ceramic and Glass Materials | 3.5 | 56 | Elective compulsory |
NXC6029 | Fracture, Fatigue and Creep | 4 | 64 | Elective compulsory |
NXC6025 | Manufacturing Processes | 4 | 64 | Elective compulsory |
QXU6027 | Renewable Energy Technology | 3 | 48 | Elective compulsory |
(5) Comprehensive Practice 10 credits
Students can participate in a variety forms of scientific research training including innovation and entrepreneurship programme and experiment, academic competition, and scientific research project. Students are also encouraged to participate in a variety forms of practice such as overseas practice, international internship, winter and summer schools. Education on labour replies on industrial practice (10 hours) and summer school (6 hours).
Module Code | Module Name | Credit | Hour | Category |
QXU4007 | Experiments in Materials 1 | 3.5 | 56 | Compulsory |
QXU5017 | Experiments in Materials 2 | 3.5 | 56 | Compulsory |
NXC0001 | Scientific Research | 1 | 16 | Compulsory |
NXC0002 | Production Practice | 2 | 32 | Compulsory |
(4)Final project/Thesis for Graduation 10 Credits
Module Code | Module Name | Credit | Hour | Category |
QXU6030 | Materials Project | 10 | 160 | Compulsory |
This project/thesis also supports education on labour with 16 hours to guide students to develop their labor habits and correct labor values.
7.3 Personality Development Modules (6 credits, at least 3 modules)
Students are encouraged to choose the modules taught in English and from the following categories based on their own development and interests.
(1) Comprehensive Literary Module
It is suggested that students should choose the modules taught in English from the following four categories. The module list in each semester will be published by the University.
A. Scientific literacy modules: subjects on natural science such as introduction to aeronautics, astronautics and navigation, environment, biology, etc.
Module Code | Module Name | Credit | Hour | Category |
NXC1004 | Fundamentals of Computer | 1 | 16 | Elective |
NXC1011 | Engineering Literacy-Basic Engineering Practice | 2 | 32 | Elective |
NXC1012 | Engineering Literacy—Teaching and Innovative Practice of Intelligent Robot System | 2 | 32 | Elective |
Details of the above-mentioned modules offered each semester can be found in the course selection handbook for the respective semester. |
B. Modules on economics, management and law: including economy, management, legal education, etc.
C. Humanities modules: including philosophy, ethics, history, culture, language, literature, society, aesthetics, life and development, etc.
Module Code | Module Name | Credit | Hour | Category |
NXC1008 | History of Western Philosophy | 2 | 32 | Elective |
NXC1010 | Scientific English Literature Writing | 1.5 | 24 | Elective |
Details of the above-mentioned modules offered each semester can be found in the course selection handbook for the respective semester. |
D. Art literacy modules:
Module Code | Module Name | Credit | Hour | Category |
UQML21009 | Wine Culture and Tasting Art | 1 | 16 | Elective |
Details of the above-mentioned modules offered each semester can be found in the course selection handbook for the respective semester. |
(2) Discipline Extension Module
Module Code | Module Name | Credit | Hour | Category |
UQML11006 | Biochemistry | 2 | 32 | Elective |
UQML11005 | Analytical Chemistry | 2 | 32 | Elective |
NXC1005 | Inorganic Chemistry | 2 | 32 | Elective |
NXC1006 | Fundamentals of Organic Chemistry | 2 | 32 | Elective |
NXC1007 | Physical Chemistry | 2 | 32 | Elective |
NXC1013 | Introduction to Quantum Mechanics | 2 | 32 | Elective |
NXC1014 | Instrumental Analysis | 2 | 32 | Elective |
Details of the above-mentioned modules offered each semester can be found in the course selection handbook for the respective semester. |
It includes all modules set up by other Schools and major categories.
(3) Advanced Academic Module
It includes general modules offered by the University and postgraduate modules. Credits beyond the ones required by the education plan of the programme can be included in this category.
Module Code | Module Name | Credit | Hour | Category |
NXC1015 | Interpersonal and Communication Skills | 2 | 32 | Elective |
UQML11007 | Introduction of Solid State Physics | 2.5 | 40 | Elective |
UQMM11008 | The Structure and Properties of Polymers | 2 | 32 | Elective |
UQMG11001 | Introduction to Fuel Cell | 1 | 16 | Elective |
UQML11009 | Service Characteristics of Materials Under Extreme Conditions | 2 | 32 | Elective |
UQML21010 | Improving Your Study Skills | 1 | 16 | Elective |
UQMM11001 | Advanced Materials Science and Engineering | 1.5 | 24 | Elective |
7.4 Extension Practices
To encourage students to participate in all kinds of activities linked with ideological education activities, public benefit activities, innovation and entrepreneurship activities, recreational activities, labor Practice, social practice activities. The activities list will be published.
