上海交通大学研究生专业课程信息收集表Information Formfor SJTU Graduate Profession Courses课程基本信息BasicInformation(中文Chinese)集成计算材料工程*课程名称Course Name(英文English)IntegratedComputational Materials Engineering*学分*学时232(1学分=16课时)Teaching HoursCredits*开课学期个学期*是否跨学期跨Spanningover秋季学期Fall否NoSemesterSemesters(含夏季学期)。Cross-semester?*课程类型专业前沿课ProgramFrontier*课程分类全日制课程Forfull-timestudentsCourse TypeCourseCourse Type*课程性质课程层次专业课SpecializedCourse博士课程Doctoral LevelCourse 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论文EssayGradeExamMethod*开课院系材料科学与工程学院SchoolofMaterialsScienceandEngineeringSchool所属学科材料科学与工程Subject工号ID单位School联系方式E-mail姓名Name负责教师Person in charge顾剑锋材料科学与工程学院gujf@sjtu.edu.cn课程扩展信息ExtendedInformation主要教学内容、先修课程等:不少于200字。(分段概述课程定位、教学目标课程定位:本课程是面博士研究生的一门专业前沿选修课,主要料科学讲述当前智能制造直论文的研究工作打下基础。掌握多尺度、多场耦合的工艺教学目标:针对典型过程分析,以及宏-微材料研究中主要教学内容:本误介绍ICME基本要素、概念、技术关键及国内外最新进用的地位和对提升高端制造的重要*课程简介作用。第二部分针对铸造、工艺,分别介绍其中的传热、相变、(中文)力学等物理过程和数学模型,直模拟分析所需输入的材料参数、工Course Description艺参数、初始条件和边界条件等,使得学生在掌握各单个工艺数值模拟的研究方向和进展的同时,能够规范地进行典型热加工工艺过程的规范模拟和分析。第三部分首先介绍介观模拟方法(相场法和元胞自动机法)的基本原理和应用,跨尺度耦合的算法设计原理,力求学生掌握针对典型热加工工艺进行宏-微观结合数值分析的基本框架。其次介绍铸造/锻造、铸造/热处理、锻造/热处理工艺间传递的场量,重点突出数据接口设计和数据传递,力求学生掌握针对两个以上工艺的全流程模拟进行开发方案的设计。先修课程:材料加工原理,有限元分析原理和方法,计算材料学Course orientation:This course is a frontier elective course for PhD students inmaterials science and engineering.It mainly describes the ICME technology in thefrontier of intelligent manufacturing, laying a foundation for further research of*课程简介doctoral dissertation.(English)Teaching objectives: This course introduces the key technology of ICME forCourse Descriptiontypical thermal processing technology,and helps master the process analysis ofmulti-scaleand multi-field coupling,as well as the basic framework ofmacro-microcombined numerical analysis,and its application inmaterials research1/42020.04
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)集成计算材料工程 (英文 English)Integrated Computational Materials Engineering *学分 Credits 2 *学时 Teaching Hours 32(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 专业前沿课 Program Frontier 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 博士课程 Doctoral 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 论文 Essay *开课院系 School 材料科学与工程学院 School of Materials Science and Engineering 所属学科 Subject 材料科学与工程 负责教师 Person in charge 姓名 Name 工号 ID 单位 School 联系方式 E-mail 顾剑锋 材料科学与工程学院 gujf@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。) 课程定位:本课程是面向材料科学与工程学科博士研究生的一门专业前沿选修课,主要 讲述当前智能制造前沿的 ICME 技术,为开展博士学位论文的研究工作打下基础。 教学目标:针对典型热加工工艺,介绍 ICME 关键技术,掌握多尺度、多场耦合的工艺 过程分析,以及宏-微观结合数值分析的基本框架,应用与材料研究中。 主要教学内容:本课程内容包括分三个部分。第一部分简要介绍 ICME 基本要素、概念、 技术关键及国内外最新进展,突出强调其在智能制造中的地位和对提升高端制造的重要 作用。第二部分针对铸造、锻造和热处理三种热加工工艺,分别介绍其中的传热、相变、 力学等物理过程和数学模型,并重点讲授有限元数值模拟分析所需输入的材料参数、工 艺参数、初始条件和边界条件等,使得学生在掌握各单个工艺数值模拟的研究方向和进 展的同时,能够规范地进行典型热加工工艺过程的规范模拟和分析。第三部分首先介绍 介观模拟方法(相场法和元胞自动机法)的基本原理和应用,跨尺度耦合的算法设计原 理,力求学生掌握针对典型热加工工艺进行宏-微观结合数值分析的基本框架。其次介绍 铸造/锻造、铸造/热处理、锻造/热处理工艺间传递的场量,重点突出数据接口设计和数 据传递,力求学生掌握针对两个以上工艺的全流程模拟进行开发方案的设计。 先修课程:材料加工原理,有限元分析原理和方法,计算材料学 *课程简介 (English) Course Description Course orientation: This course is a frontier elective course for PhD students in materials science and engineering. It mainly describes the ICME technology in the frontier of intelligent manufacturing, laying a foundation for further research of doctoral dissertation. Teaching objectives: This course introduces the key technology of ICME for typical thermal processing technology, and helps master the process analysis of multi-scale and multi-field coupling, as well as the basic framework of macro-micro combined numerical analysis, and its application in materials research
Main content:The first part briefly introducesthe basic elements, concepts andkey technologies of ICME, and the latest developments at home and abroadhighlighting its position in intelligent manufacturing and its important role inpromoting high-end manufacturingThe second part introduces the physical process and mathematical model of heattransfer,phasetransformation,mechanics duringhot working process of castingforging and heat treatment,respectively.ThenecessaryinputsforFEM numericalsimulation are emphasized. such as material parameters.process parameters.initialconditions and boundary conditions,etc.Students are expectedtobefamiliar withresearch direction and progress of each individual process,and be ableto performsimulation and analysis of typical hot working process correctlyThe third part firstly introduces the basic principle and application of themesoscopic simulation method (phase field method and the cellular automatamethod) and design principle of multi-scales coupling algorithm. The basicframework of macro- micro combined numerical analysis for typical thermalprocess should be mastered. Secondly,the transferred field variables betweencasting/forging,casting/heat treatment,forging/heat treatment are introducedhighlighting the data interface design and data transfer. Students are expected tomaster thedesign of thedevelopment plan for thewhole process simulation of twoormoreprocesses.Prerequisite courses: Principles of Materials Processing,Finite Element Analysis(FEA),ComputationalMaterials Science.章节主要内容课学时教学方式第一章第一节ICME基本概念和发展历程2课堂讲述ICME概论第二节ICME在材料和热加工领域的应用第二章第一节传热的基本原理与解析液态成形过程数值4课堂讲述第二节流动与凝固的基本原理与解析模拟第三节铸造模拟与工程应用第三章第一节锻造成形的有限元计算原理4塑性成形过程数第二节集成锻造计算技术课堂讲述第三节典型成形模拟案例值模拟第一节热处理过程中的多场耦合模型*教学大纲第二节热处理工艺过程数值模拟原理及第四章(中文)实现Syllabus热处理过程数值6课堂讲述第三节模拟参数及其测试模拟第四节热处理模拟的发展方向、趋势及典型案例第五章第一节介观尺度模拟相场法第二节介观尺度模拟元胞自动机法多尺度耦合模拟10课堂讲述第三节跨尺度耦合原理与实施方法原理与技术第六章第一节热加工全流程模拟中的数据接口设计和数据传递多工艺衔接的全课堂讲述6第二节ICME在热加工全流程模拟典型应流程模拟技术用HoursChapterContentFormatSectionIBasic conceptandhistoryofChapter1ICME2Introduction oflecture*教学大纲Section2.ApplicationofICMEinthefieldICMEofmaterials thermal processing(English)Chapter2Section1,Basic principleand analysisoSyllabusNumericalheattransfersimulation of liquidSection2,Basicprincipleandanalysis of4lectureformingprocessflowand solidificationSection3.Casting simulation and2/42020.04
2 / 4 2020.04 Main content: The first part briefly introduces the basic elements, concepts and key technologies of ICME, and the latest developments at home and abroad, highlighting its position in intelligent manufacturing and its important role in promoting high-end manufacturing. The second part introduces the physical process and mathematical model of heat transfer, phase transformation, mechanics during hot working process of casting, forging and heat treatment, respectively. The necessary inputs for FEM numerical simulation are emphasized, such as material parameters, process parameters, initial conditions and boundary conditions, etc. Students are expected to be familiar with research direction and progress of each individual process, and be able to perform simulation and analysis of typical hot working process correctly. The third part firstly introduces the basic principle and application of the mesoscopic simulation method (phase field method and the cellular automata method) and design principle of multi-scales coupling algorithm. The basic framework of macro- micro combined numerical analysis for typical thermal process should be mastered. Secondly, the transferred field variables between casting/forging, casting/heat treatment, forging/heat treatment are introduced, highlighting the data interface design and data transfer. Students are expected to master the design of the development plan for the whole process simulation of two or more processes. Prerequisite courses: Principles of Materials Processing, Finite Element Analysis (FEA),Computational Materials Science. *教学大纲 (中文) Syllabus 章节 主要内容 课学时 教学方式 第一章 ICME概论 第一节ICME基本概念和发展历程 第二节ICME在材料和热加工领域的应用 2 课堂讲述 第二章 液态成形过程数值 模拟 第一节传热的基本原理与解析 第二节流动与凝固的基本原理与解析 第三节铸造模拟与工程应用 4 课堂讲述 第三章 塑性成形过程数 值模拟 第一节锻造成形的有限元计算原理 第二节集成锻造计算技术 第三节典型成形模拟案例 4 课堂讲述 第四章 热处理过程数值 模拟 第一节热处理过程中的多场耦合模型 第二节热处理工艺过程数值模拟原理及 实现 第三节模拟参数及其测试 第四节热处理模拟的发展方向、趋势及典 型案例 6 课堂讲述 第五章 多尺度耦合模拟 原理与技术 第一节介观尺度模拟——相场法 第二节介观尺度模拟——元胞自动机法 第三节跨尺度耦合原理与实施方法 10 课堂讲述 第六章 多工艺衔接的全 流程模拟技术 第一节热加工全流程模拟中的数据接口 设计和数据传递 第二节ICME在热加工全流程模拟典型应 用 6 课堂讲述 *教学大纲 (English) Syllabus Chapter Content Hours Format Chapter 1 Introduction of ICME Section 1, Basic concept and history of ICME Section 2, Application of ICME in the field of materials thermal processing 2 lecture Chapter 2 Numerical simulation of liquid forming process Section 1, Basic principle and analysis of heat transfer Section 2, Basic principle and analysis of flow and solidification Section 3, Casting simulation and 4 lecture
engineeringapplicationSectionFiniteelementcalculationChapter3principle offorgingformingNumericalSection2,Integratedforging computinglecturesimulation ofplastictechnologyformingprocessSection3,Typicalforming simulation casesSectionI,Multi-field coupling model inheattreatmentprocessChapter4Section2.NumericalsimulationprincipleNumericalandrealizationof heattreatment process6lecturesimulation of heatSection 3,Simulation parameters andtheirtreatmentprocesstestsSection 4,Developmentdirection,trend andtypical casesofheattreatmentsimulationSection1,Mesoscopicscalesimulation--Chapter5phase field methodPrinciple andSection2.Mesoscopicscalesimulation--10technology ofmulti-lecturecellular automata methodscale couplingSection3,Cross-scalecouplingprinciplesimulationand implementationmethodChapter6Section Data interfacedesign and dataThewholeprocesstransferin thewholeprocess simulation of6thermal machininglecturesimulationtechnology of multi-Section2,Typical applicationofICME inprocess connectionthewholeprocessofthermalprocessing(课程考核方式、考核标准等:不少于50字)1.基于授课内容进行扩展性阅读和知识整理,在本学期内完成1个读书报告(3000字以*课程要求上):(中文)2.在课程结束前学生进行课堂的PPT演讲和汇报,不少于15分钟。Requirements最终根据学生在读书报告、演讲报告的综合表现给予期末成绩。Areadingreport(3000 words atleast inChinesecharacter)relatedto theknowledgeof the1.*课程要求lecturesshouldbesubmitted:(English)2APPTpresentation isrequiredat least15minutesfor eachstudent bytheend of this courseRequirementsAcomprehensiveperformancereviewwill bereleasedbasedonaboveitems(教材、教参、网站资料等。)教材无主要的参考资料(学生任选一本):Integrated Computational Materials Engineering (ICME):Implementing ICME in theAerospace,Automotive, and Maritime Industries,The Minerals, Metals & MaterialsSociety(TMS),2013*课程资源2钢热加工数值模拟手册,顾剑锋译,机械工业出版社,2016(中文)3塑性有限元法及其在金属成形中的应用,陈如欣,胡忠民编,重庆大学出版社,1989:Resources4.MultiscaleMethods-Bridging the Scales in Scienceand Engineering,Edited by JACOBFISH,OxfordUniversityPress.20105.Modeling materials: continuum, atomistic, and multiscale techniques, Ellad B. TadmorRonaldE.Miller.CambridgeUniversityPress.2011另外,每章将推荐经典的研究文献至少三篇,要求学生从阅读原文着手体会科学思想的发展过程。Text Book:NoMain References:*课程资源Integrated Computational Materials Engineering (ICME):Implementing ICME in the1(English)Aerospace,Automotive,and Maritime Industries,The Minerals,Metals & MaterialsResourcesSociety(TMS),20132Handbook of Thermal Processing of Steels,TranslatedbyJianfengGU,China MachinePress,20163/42020.04
