上海交通大学：材料科学与工程学院《凝固原理》研究生课程教学大纲

上海交通大学研究生专业课程信息收集表InformationFormfor SJTUGraduateProfessionCourses课程基本信息BasicInformation（中文Chinese）凝固原理*课程名称CourseName（英文English）PrinciplesofSolidification*学分*学时348（1学分=16课时）Teaching HoursCredits*开课学期*是否跨学期个学期跨Spanningover秋季学期Fall否NoSemesterSemesters（含夏季学期）。Cross-semester?*课程分类*课程类型专业基础课ProgramCore全日制课程Forfull-timestudentsCourse TypeCourse TypeCourse*课程性质课程层次专业课SpecializedCourse硕士课程MasterLevelCourse CategoryTargeting Students*授课语言主要授课方式中文Chinese课堂教学InclassteachingInstructionTeaching MethodLanguage*成绩类型主要考核方式等第制Letter grading笔试WrittenExamGradeExamMethod*开课院系材料学院SMSESchool所属学科Subject工号ID姓名Name单位School联系方式E-mail负责教师李建国Person in charge材料学院SMSElijg@sjtu.edu.cnJianguo Li课程扩展信息ExtendedInformation（分段概述课程定位、教学目标、主要教学内容、先修课程等：不少于200字。）凝固作为制造工业中的基础理论学科，为学生掌握快速、近终型智能制造提供工艺设计理论基础。*课程简介课程主要以金属的凝固过程为例，介绍凝固的基本原理和凝固研究的最新进展。重点讲(中文)述凝固组织形成的一般规律、凝固界面形态转变的理论与实践、成分不均匀性及其形成Course Description规律、凝固过程常用的控制方法。简要介绍熔体、非晶固体的结构、非晶金属的形成和制备方法、过冷熔体的凝固行为、外场在凝固过程控制中的作用和应用。本课程以材料科学基础、材料加工原理、材料加工过程中的传输现象等课程为先修课程。（须与中文一致，翻译请力求信达雅。）As the fundamental theory of industrial manufacturing.solidification provides students with thebasicprinciplesofsmart casting with high-efficient nearnet shapeforming.In the course,solidification of liquid metal is taken as an example,boththefundamental theoryandtheadvancesinthesolidificationresearchareintroducedThegeneralprinciplesforthe*课程简介formation of solidification structure,forthetransition ofthe solidifying interfacial morphology(English)forthe solute redistributionand their controlling approaches will be emphasized.TheatomicCourse Descriptionstructure of liquid and amorphous solid. the formation and preparation of amorphous alloy.thesolidification behaviorofundercooled liquid.the external field effect on the solidification and itscontrol would also be introduced.To attend this course. fundamentals of materials science,principles of materials processing.transport phenomena in materials processing should be learned in advance1/42020.04

1 / 4 2020.04 上海交通大学研究生专业课程信息收集表 Information Form for SJTU Graduate Profession Courses 课程基本信息 Basic Information *课程名称 Course Name （中文 Chinese）凝固原理 （英文 English）Principles of Solidification *学分 Credits 3 *学时 Teaching Hours 48（1 学分=16 课时） *开课学期 Semester 秋季学期 Fall *是否跨学期 Cross-semester? 否 No 跨 Spanning over 个学期 Semesters（含夏季学期）。 *课程类型 Course Type 专业基础课 Program Core Course *课程分类 Course Type 全日制课程 For full-time students *课程性质 Course Category 专业课 Specialized Course 课程层次 Targeting Students 硕士课程 Master Level *授课语言 Instruction Language 中文 Chinese 主要授课方式 Teaching Method 课堂教学 In class teaching *成绩类型 Grade 等第制 Letter grading 主要考核方式 Exam Method 笔试 Written Exam *开课院系 School 材料学院 SMSE 所属学科 Subject 负责教师 Person in charge 姓名 Name 工号 ID 单位 School 联系方式 E-mail 李建国 Jianguo Li 材料学院 SMSE lijg@sjtu.edu.cn 课程扩展信息 Extended Information *课程简介 (中文) Course Description （分段概述课程定位、教学目标、主要教学内容、先修课程等；不少于 200 字。） 凝固作为制造工业中的基础理论学科，为学生掌握快速、近终型智能制造提供工艺设计 理论基础。 课程主要以金属的凝固过程为例，介绍凝固的基本原理和凝固研究的最新进展。重点讲 述凝固组织形成的一般规律、凝固界面形态转变的理论与实践、成分不均匀性及其形成 规律、凝固过程常用的控制方法。简要介绍熔体、非晶固体的结构、非晶金属的形成和 制备方法、过冷熔体的凝固行为、外场在凝固过程控制中的作用和应用。 本课程以材料科学基础、材料加工原理、材料加工过程中的传输现象等课程为先修课程。 *课程简介 （English） Course Description （须与中文一致，翻译请力求信达雅。） As the fundamental theory of industrial manufacturing, solidification provides students with the basic principles of smart casting with high-efficient near net shape forming. In the course, solidification of liquid metal is taken as an example, both the fundamental theory and the advances in the solidification research are introduced. The general principles for the formation of solidification structure, for the transition of the solidifying interfacial morphology, for the solute redistribution and their controlling approaches will be emphasized. The atomic structure of liquid and amorphous solid, the formation and preparation of amorphous alloy, the solidification behavior of undercooled liquid, the external field effect on the solidification and its control would also be introduced. To attend this course, fundamentals of materials science, principles of materials processing, transport phenomena in materials processing should be learned in advance

（建议列表形式，各列内容：章节、主要内容、课时数、教学方式等）序号章节主要内容课时数教学方式凝固-从技凝固现象：金属、有机、无机材料凝固：31课堂讲授艺到科学凝固的历史；凝固和自然科学其他方面的关系：凝固对材料的重要性金属熔体结2金属熔体结构及其与有机、无机材料的区课堂讲授.别构和凝固热力学熔体结构的表征；金属熔体凝固的热力学原理3单相合金的凝固过程中的热流：6课堂讲授凝固凝固过程成分的分凝和分布规律；非平衡凝固：界面稳定性，成分过冷原理，扰动理论和扰动分析：凝固界面失稳与凝固组织4多相合金的共晶合金凝固：共晶的形态，共生共长，共课堂讲授平面前沿凝晶生长的理论模型固5铸件和铸锭多元多相合金的凝固，铸锭的凝固，铸件的课堂讲授3*教学大纲的凝固凝固，焊接过程中的凝固问题(中文)6熔体的凝固观察熔体、凝固过程的吸放热、多相合金的实验参观Syllabus行为与偏析偏析行为，掌握基本的金相分析知识73熔体过冷和熔体的过冷、方法课堂讲授过冷熔体的过冷熔体的热力学性质凝固过冷熔体的凝固8定向凝固、定向凝固方法6课堂讲授单晶生长以单晶生长方法及金属3D3D打印过程中的凝固问题打印9凝固过程的凝固过程中流体的流动：流动与扩散的耦课堂讲授b流动与数值合，流动与溶质再分配，流动问题的数值建计算模，流动的数值计算10金属非晶的非晶金属的结构和性质，非晶金属的获得，课堂讲授3形成及其特玻璃形成温度性11凝固过程中的晶粒细化理论和方法，在生产晶粒细化课堂讲授实际中的应用12特种凝固技参观并了解定向凝固、单晶生长、3D打印等实验参观3术特种凝固技术3考试课程考试（须与中文一致，翻译请力求信达雅。）No.SectionsHoursTeaching methodContentsSolidification phenomena:metal,31Solidification-LectureFromcrafttoorganic,inorganicscienceThehistoryofsolidificationTherelationshipbetweersolidificationand the other*教学大纲disciplines(English)The importanceof solidification toSyllabusmaterials2Liquid structure3The structure difference amongLectureof metals andliquid metal, organic andthermodynamicsinorganic,Characterization on liquid metal;of solidificationThermodynamicsof solidification3Solidification of.6LectureHeatflowinsolidificatior2/42020.04

2 / 4 2020.04 *教学大纲 (中文) Syllabus （建议列表形式，各列内容：章节、主要内容、课时数、教学方式等） 序号 章节 主要内容 课时数 教学方式 1 凝固 -从技 艺到科学 凝固现象：金属、有机、无机材料凝固； 凝固的历史； 凝固和自然科学其他方面的关系； 凝固对材料的重要性 3 课堂讲授 2 金属熔体结 构和凝固热 力学 金属熔体结构及其与有机、无机材料的区 别； 熔体结构的表征； 金属熔体凝固的热力学原理 3 课堂讲授 3 单相合金的 凝固 凝固过程中的热流； 凝固过程成分的分凝和分布规律； 非平衡凝固：界面稳定性，成分过冷原理， 扰动理论和扰动分析； 凝固界面失稳与凝固组织 6 课堂讲授 4 多相合金的 平面前沿凝 固 共晶合金凝固：共晶的形态，共生共长，共 晶生长的理论模型 3 课堂讲授 5 铸件和铸锭 的凝固 多元多相合金的凝固，铸锭的凝固，铸件的 凝固，焊接过程中的凝固问题 3 课堂讲授 6 熔体的凝固 行为与偏析 观察熔体、凝固过程的吸放热、多相合金的 偏析行为，掌握基本的金相分析知识 3 实验参观 7 熔体过冷和 过冷熔体的 凝固 熔体的过冷、方法 过冷熔体的热力学性质 过冷熔体的凝固 3 课堂讲授 8 定向凝固、 单晶生长以 及 金 属 3D 打印 定向凝固方法 单晶生长方法 3D 打印过程中的凝固问题 6 课堂讲授 9 凝固过程的 流动与数值 计算 凝固过程中流体的流动：流动与扩散的耦 合，流动与溶质再分配，流动问题的数值建 模，流动的数值计算 6 课堂讲授 10 金属非晶的 形成及其特 性 非晶金属的结构和性质，非晶金属的获得， 玻璃形成温度 3 课堂讲授 11 晶粒细化 凝固过程中的晶粒细化理论和方法，在生产 实际中的应用 3 课堂讲授 12 特种凝固技 术 参观并了解定向凝固、单晶生长、3D 打印等 特种凝固技术 3 实验参观 课程考试 3 考试 *教学大纲 （English） Syllabus （须与中文一致，翻译请力求信达雅。） No. Sections Contents Hours Teaching method 1 Solidification￾From craft to science Solidification phenomena: metal, organic, inorganic; The history of solidification; The relationship between solidification and the other disciplines The importance of solidification to materials 3 Lecture 2 Liquid structure of metals and thermodynamics of solidification The structure difference among liquid metal, organic and inorganic; Characterization on liquid metal; Thermodynamics of solidification 3 Lecture 3 Solidification of Heat flow in solidification 6 Lecture

single phaseSolute redistribution duringalloyssolidificationNon-equilibrium solidificationinterfacial stability, constitutionalundercooling,Perturbation during solidification,Instability of the interface andsolidification structureXPlanarSolidification of eutectic alloys:theLecture3solidificationnofmorphology ofeutectic alloy,couplemultiphasegrowth, J-K modelalloys5Solidification of multi-phase alloys,Castingsand3Lecturesolidification insolidification of casting ingots andcastingcastings, solidification duringwelding6To observe the liquid metal;3TheLab toursolidificationthe exo and endo thermic behavior,of liquidthe segregation of multiphasemetal and itsalloys,to know the metallographicsegregationknowledge7Undercooling of3Undercoolingof liquid metal andLectureliquid metalthe approaches for undercooling,and theThermodynamic properties ofsolidification ofliquid metal;undercooledSolidification of undercooled liquidmetalliquid metal8Solidification behavior during6LectureUnidirectionalsolidification,unidirectional solidification, singlesingle crystalcrystal growth, 3D printing of metalgrowth,3Dprinting of metal96Liquid flow during solidification;LectureLiquid flowduringThe coupling between liquid flowand diffusion;solidificationand itsLiquid flow and solutenumericalredistributionModeling for liquid flow,calculationNumerical calculation of liquidflow310TheformationThe structure and properties ofLectureand features ofmetallic glass;The fabrication of metallic glass;the metal glassTheformationtemperature11Grain refinementThe theory of grain refining during3Lecturethe solidification and its applicationapproaches,The industrial application of grainrefining12Special3To observe and know the specialLab toursolidificationtechnology as unidirectionaltechnologysolidification, the single crystalgrowth, and 3D printingExam3Exam（课程考核方式、考核标准等：不少于50字）*课程要求平时作业=20%(中文)课堂讨论=30%Requirements期终考试=50%3/42020.04

3 / 4 2020.04 single phase alloys Solute redistribution during solidification Non-equilibrium solidification: interfacial stability, constitutional undercooling, Perturbation during solidification, Instability of the interface and solidification structure 4 Planar solidification of multiphase alloys Solidification of eutectic alloys: the morphology of eutectic alloy, couple growth, J-K model 3 Lecture 5 Castings and solidification in casting Solidification of multi-phase alloys, solidification of casting ingots and castings, solidification during welding 3 Lecture 6 The solidification of liquid metal and its segregation To observe the liquid metal; the exo and endo thermic behavior; the segregation of multiphase alloys; to know the metallographic knowledge 3 Lab tour 7 Undercooling of liquid metal and the solidification of undercooled liquid metal Undercooling of liquid metal and the approaches for undercooling; Thermodynamic properties of liquid metal; Solidification of undercooled liquid metal 3 Lecture 8 Unidirectional solidification, single crystal growth, 3D printing of metal Solidification behavior during unidirectional solidification, single crystal growth, 3D printing of metal 6 Lecture 9 Liquid flow during solidification and its numerical calculation Liquid flow during solidification; The coupling between liquid flow and diffusion; Liquid flow and solute redistribution Modeling for liquid flow; Numerical calculation of liquid flow 6 Lecture 10 The formation and features of the metal glass The structure and properties of metallic glass; The fabrication of metallic glass; The formation temperature 3 Lecture 11 Grain refinement The theory of grain refining during the solidification and its application approaches; The industrial application of grain refining 3 Lecture 12 Special solidification technology To observe and know the special technology as unidirectional solidification, the single crystal growth, and 3D printing 3 Lab tour Exam 3 Exam *课程要求 （中文） Requirements （课程考核方式、考核标准等；不少于 50 字） 平时作业=20% 课堂讨论=30% 期终考试=50%

（须与中文一致，翻译请力求信达雅。）*课程要求Homework=20%(English)Classdiscussion=30%RequirementsFinalexam=50%（教材、教参、网站资料等。）M.C. Flemings: Solidification Processing.中译本：凝固过程*课程资源胡汉起：金属凝固原理（中文）周尧和等：凝固技术ResourcesW. Kurz: Fundamentals of solidification中译本：凝固原理ME.Glicksman.Principles of solidification（须与中文一致，请力求信达雅。）M.C.Flemings: Solidification Processing.Chinese version:Solidification processing*课程资源Hanqi Hu, Principles of liquid metal solidification (in Chinese)(English)Yaohe Zhou,et. al. solidification technology (in Chinese)ResourcesW.Kurz:Fundamentals of solidificationChinese version:Fundamentals of solidificationM.E.Glicksman,Principles of solidification备注Note4/42020.04

4 / 4 2020.04 *课程要求 （English） Requirements （须与中文一致，翻译请力求信达雅。） Homework=20% Class discussion=30% Final exam=50% *课程资源 （中文） Resources （教材、教参、网站资料等。） M.C. Flemings: Solidification Processing; 中译本：凝固过程 胡汉起：金属凝固原理 周尧和等：凝固技术 W. Kurz: Fundamentals of solidification 中译本：凝固原理 M.E. Glicksman, Principles of solidification *课程资源 （English） Resources （须与中文一致，请力求信达雅。） M.C. Flemings: Solidification Processing; Chinese version：Solidification processing Hanqi Hu, Principles of liquid metal solidification (in Chinese) Yaohe Zhou, et. al, solidification technology (in Chinese) W. Kurz: Fundamentals of solidification Chinese version：Fundamentals of solidification M.E. Glicksman, Principles of solidification 备注 Note