上海大学材料学院硕士培养方案

材料科学与工程专业攻读硕士学位研究生

培养方案―、培养目标为适应我国国民经济发展和社会主义建设的需要，培养德、智、体全面发展的材料科学与工程学科高层次专门技术人才，本学科硕士研究生培养目标是：坚持党的基本路线，热爱祖国，尊纪守法，品德高尚，学风严谨，具有事业心和团队精神，立志为社会主义现代化建设事业服务。在本门学科上掌握宽广的基础理论和系统的专门知识，熟练掌握一门外国语；具有从事材料科学与工程方面工作的研究与开发能力，以及独立担负专门技术工作的能力。积极参加体育锻炼，身体健康。二、 学习年限硕士研究生的学习年限为二年半。在职研究生的学习年限可适当延长半年至一年。三、 主要研究方向材料相变及热力学金属材料的强韧化金属及合金中氢的行为非晶、纳米晶和粉体材料制备及应用材料的腐蚀及防腐碳基复合材料晶界工程新型特种钢模具材料的研究与应用现代表面工程和技术汽车用钢板的研究与应用新型铝合金材料与成型技术铸造合金及凝固技术薄膜电子材料与器件.信息功能复合材料及应用.电子陶瓷材料的制备、性能研究及应用17.微电子材料物理与化学18.材料智能化、机敏化、智能结构与系统光电子材料及器件先进功能材料（如磁性材料、储能材料、超导材料、核反应堆材料、光催化环境净化材料等）四、 课程设置（见表）五、 论文工作在课程修满48学分后，可申请进入论文课题研究，但也可根据导师的实际安排，入学后一边学习，一边逐渐进入课题工作；电子信息材料系的研究生在开题报告前应提交2篇与专业相关的科技综述报告。开题报告在第二学年第一学期进行，选题应与本专业的基础研究或国民经济中的重要问题相结合。开题报告应在5000字以上，开题报告应包括发展现状、选题意义、研究内容、进度安排以及预期成果等。开题报告应组织3名以上的高级职称教师进行评审，为公开性报告。在论文阶段的中期，进行阶段检查和期中考核，并做出书面论文阶段报告，报送上级管理部门，若离进度要求偏离较大予以黄牌警告。学位论文应注重创造性、学术性、正确性和应用性。在申请学位前，至少在国内外核心期刊上发表与学位论文相关的学术论文一篇（第一作者）；或有一项专利申请的证明或一项经省部级以上（含省部级）主持鉴定、验收的科研成果（排序前五名）。在完成论文并经过包括导师在内的3名高级职称教师认可后，组织论文预答辩和校内外同行专家评审答辩。

材料科学与工程专业硕士研究生课程设置

类别课程编号课程名称学时学分开课学期备注激光材料4041智能材料4042必先进复合材料及其应用4041冶金熔体模型4041焦炉煤气制氢技术4041修新材料制备科学与技术4042电磁场在冶金和材料制备中应用4042课金属凝固4043冶金过程模型与仿真4043学术研讨课2应用随机过程4042数值分析4041数学物理方程4043应用统计分析4041选修校公共4042平台课现代数学基础0〜2|J0〜8学分有限元法及其应用4042高性能计算导论4042数据库理论与实践4041近代力学基础4042补材料科学基础60修本科物理化学60同等学历或跨学科考入的研究生需补修二课主干课固体物理60程固体化学60半导体物理60*按相应二级学科及导师的具体要求在给定范围内选择*学位课不少于22学分，文献阅读研讨课不少于16学分，总学分不少于48学分。MasterProgramforMaterialsScienceandEngineeringObjectiveoftheProgramCandidatesarerequiredtoloveMotherland,abidebylawanddisciplines,havesoundmoralintegrity,bereligiousinscientificattitudetowardsacademicwork,havestrongenterpriseandsenseofsolidarityandcollaboration.Theyshouldendeavortocontributetoscienceandthesocialistmodernizationdrive.Candidatesarealsorequiredtolayasolidfoundationinbasictheoreticandsystematicallyspecialknowledgeintheirownfields;tobeproficientinusingaforeignlanguage.Theyshouldbecapableofbeingengagedinresearchanddevelopmentinmaterialsscienceandengineering,andcapableofbeingputinindependentchargeofaspecialtechnologicaltask.Candidatesshouldtakeanactivepartinphysicalexercisesandhaveagoodphysique.DurationoftheProgramTheprogramlaststwoandahalfyears.Theperiodofstudyforthein-servicecandidatescanbeextendedtothreeyearsorthreeandahalfyears.MainInterestsPhasetransitionofmaterialandthermodynamicStrengtheningandtougheningthemetalmaterialHydrogenbehaviorinmetalsandalloysPreparationandapplicationofamorphous,nanocrystalandpowdermaterialsCorrosionandcorrosioncontrolofmaterialsCarbonbasedcompositeEngineeringofcrystallineinterfaceofalloysNewsteelswithspecialfunctionResearchandapplicationofdieandmouldmaterialsModernsurfaceengineeringandtechnologyResearchandapplicationofsteelplateinautomobileNewstylealuminumalloymaterialandformingtechniqueCastingalloyandsolidificationtechniqueFilmelectronicmaterialsanddevicesInformationfunctionalcompositematerialsandapplicationsElectronicceramicmaterialsfabrication,propertiesresearchandapplicationMicroelectricphysicalandchemistryMaterialintelligence,materialalertness,intelligentstructureandsystemPhotoelectronmaterialanddeviceAdvancedmaterialswithspecialfunction(magnetic,energystoring,superconductive,photo-catalysis)Courses(Seeattachedtable)ResearchandDissertationsAfteracquiringrequiredcredits,thecandidatesareeligibleforundertakingresearchonthesisortogetherwiththecoursesstudyaccordingtothearrangementoftheirsupervisor.Openingreportshouldbeperformedinthe1stsemesterofthe2ndyear.Selectingsubjectshouldcombinewiththefoundationofthismajorandtheimportanttechniqueproblemofthenationaleconomy.Openingreportshouldbemorethan5000words,includingthestatusquoofthedevelopment,thesignificanceoftheselectingsubject,theresearchcontent,thescheduleofthethesisworkandtheprospectiveresult.Openingreportshouldarrangemorethan3high-gradepostteacherstojudge,itisanopeningreport.Themedium-termexaminationshouldbeperformedinthemiddleoftheperiodofthethesis.Thestudentsshouldpresentawrittenreportforcheckingtheprogressofthethesisstudy.Ifthereisabiggishdepartureofthethesiswork,ayellowwarningwillbepresent.Thethesisshouldfocusonthecreativity,correctivity,andacademicandappliablepoint.Everystudentshouldatleastpublishonepaperindomesticcorejournalsrelevanttotheresearchprojectandshouldbethefirstauthorinthepublicationoraapplyingpatent(secondapplier)forapplythedissertationofthethesis.Afterthethesisfinishedandrecognizeby3high-gradepostteachersincludingtheadvisor,itisallowedtoperformthepre-answerandthejudgewiththeexpertofthesamemajor.CategoryCourseNumberCourseNamePeriodCreditTermRemarkseuCgDcmdAPoliticalTheoreticalCourseTheoryandPracticeofScientificSocialism3021NaturalDialectics4532FirstForeignLanguagePublicEnglish10031,2ProfessionalEnglish4023BasicandSpecializedCourseThermodynamicsofMaterials3031Fourcourses8—12pointsControlofMetalmicrostructure3032Principleofmetalsolidification3033DiffusionandPhaseTransformationinMaterials4041Microstructureandpropertyofmaterials4042PhysicsandChemistryforMicroelectronicMaterials4041CrystalPhysics4041ThinFilmsandDevices4041MaterialsScience—SolidStatePhysics(II)4041euCduRLiteratureReadingSeminarModernanalyticaltechniquesinmaterialsscience4041Choose6outoftheseExperimentaldesignofmaterialscience4042CorrosionandControlofMetals/Researchanddevelopmentoftitainiumdioxideinphtocatalysis4041MaterialsforhydrogenstorageandEnvironmentalEmbittlementofMetal4042Magneticmaterialsandmetastablematerials4043PrincipleofModernplasticforming4043NewMaterialsandSurfaceTreatmentTechnologyforDieandMould4041NewTypeofAluminumAlloyMaterialanditsFigurationTechnology4042CategoryCourseNumberCourseNamePeriodCreditTermRemarksHighstrengthsteelsheetsinautomobileapplication4043TechnologyforPhotoelectricDetection4042Micro-NanoelectronicMaterials&Devices4042SemiconductorMaterials4042NewIcmateriaslforpackaging4042FunctionalMaterialandTheirApplications4042SmartMaterials4043Electro-ceramicMaterialsandDevices4043Microwavedielectricmaterialsandrelativedevices4043InorganicCompositesandTheirApplications4043MetallurgicalMeltingModels4041Hydrogenproductionfromcokeovengas4041PreparationScienceandTechnologyofNewMaterialss4042UsingtheElectromagneticFieldinMetallurgyandMaterialProduction4042MetallicSolidification4043Modelingandsimulationofmetallurgicalprocess4043AcademicSeminar2eu&dAMainUndergraduateCourseFoundationofMaterialScience60Candidateswiththesameeducationallevelorfromotherdisciplinesshouldtaketwoormoremake-upcourses.PhysicalChemistry60SolidPhysics60SolidChemistry60SemiconductorPhysics60高分子化学与物理专业攻读硕士学位研究生

培养方案―、培养目标努力学习马列主义、毛泽东思想和邓小平理论，坚持党的基本路线，热爱祖国，遵纪守法，品德良好，学风严谨，具有较强的事业心和献身精神，积极为社会主义现代化建设服务。掌握坚实的理论基础和系统的专业知识，具有从事科学研究工作和独立担负专门技术工作的能力，熟练掌握一门外国语。积极参加体育锻炼，身体健康。本专业主要从事聚合物分子设计与合成、高性能先进高分子工程材料及复合材料、生物医用高分子材料、具有光、电、磁、催化、仿生等特性的功能高分子材料和环境友好高分子材料的制备、性能和应用的研究。研究课题大多为当前国际高分子界关注的热点，并有广阔应用前景。本专业培养的研究生具有进行高分子科学基础理论研究和设计开发高技术新型高分子材料的能力，毕业后适宜于从事高分子及相关领域的科学研究、教学、新产品开发和生产技术管理等方面的工作。二、 学习年限硕士研究生的学习期限为二年半三、 主要研究方向聚合物分子设计与合成高性能先进高分子材料功能高分子材料生物医用高分子材料环境友好高分子材料四、 课程设置（见表）五、 论文工作在修完校学位课程和学科点学位课程及其他应修课程以后，可申请进入论文课题研究，但在开题报告前应提交与论文课题相关的文献专题报告。开题报告的选题应与本专业的基础研究或国民经济中的重要技术问题相结合。开题报告应在5000字以上，包括发展现状、选题意义、研究内容、进度安排以及预期成果等。开题报告应组织3名以上的高级职称教师进行评审，提出具体的评价和修改意见，不通过者应限期重做，重做仍不通过者应中止培养。开题报告应在第一学年结束之前完成。在论文阶段的中期，进行阶段检查和中期考核。研究生应对论文进展和取得的成果等内容做出报告，并与导师就学位论文的完成情况、研究方法等进行交流和讨论。离进度要求偏离较大者，予以黄牌警告。论文完成后，导师应对论文质量严格把关，并签署导师意见，不符合要求者，不能同意提交预答辩。预答辩一般在正式答辩前两个月举行。预答辩小组由3名以上高级职称教师组成。预答辩小组对学位论文进行综合评价，预答辩未通过者应在三个月至半年时间内对学位论文进行修改，由导师审阅同意后再次进行学位论文预答辩。预答辩通过后，按《上海大学学位授予工作细则》进行论文答辩。研究生的论文依据《关于对研究生学位论文实行“双盲”评议抽样检查的规定》进行随机“双盲”评审。

高分子化学和物理专业硕士研究生课程设置类别课程编号课程名称学时学分开课学期备注学位课政治理论课科学社会主义理论与实践3021自然辩证法4532第一外国语公共英语10031,2专业英语4023专业基础课专业课聚合物结构与性能4041高分子分析和表征4041高等高分子化学4042必修课文献阅读研讨课高分子纳米复合材料进展4041高性能工程塑料及复合材料4042导电性高分子及其复合材料4042反应性高分子导论4041生物医用及环境友好高分子4043聚合反应工程4043学术研讨课2校公共平台课应用随机过程4042选修0-2门0-8学分数值分析4041数学物理方程4043应用统计分析4041现代数学基础4042有限元法及其应用4042高性能计算导论4042数据库理论与实践4041近代力学基础4042补修课本科主干课高分子化学50同等学历或跨专业学生需补修高分子物理50TrainingProgramforMasterCandidatesin

PolymerChemistry&PhysicsCultivationAimsFirst,candidatesarerequiredtostudyhardinMarxism,Leninism,MaoZedongThoughtandDengXiaopingTheory.Theyshouldadheretotheparty’sbasiclines,bepatrioticandabidebylawanddisciplines.Basedonasoundmoralintegrity,arigorousandscientificattitudetowardsacademicwork,andastrongsenseofdedication,theyshouldendeavortocontributetotheongoingsocialistmodernizationdrive.Candidatesmusthaveafirmtheoreticalfoundationintheirspecialfieldsandbroadbackgroundinrelatedareas.Theyshouldbecompetentinundertakingindependentresearchanddevelopment,andcapableofmakingoriginalcontributionstotheirscientificandtechnologicaldiscipline.Theyshouldbeproficientinaforeignlanguage.Candidatesmusttakeanactivepartinphysicalexercisesandkeepfit..Thespecialtyfocusesontheresearchofpolymerdesignandsynthesis,advancedpolymermaterialsandcompositematerials,biomedicalpolymermaterials,functionalpolymermaterialswithoptical,electricalandmagneticproperties,aswellasenvironmentallyfriendlypolymermaterials,exploringnewtheory,newskillaswellasnewtechnology.Theresearchsubjectscovermostfocusinpresentpolymerfieldandenjoyabroadprospectofapplication.Thegraduatesinthespecialtyarecompetentinresearchingpolymerbasictheoryanddesigningnewhighpolymermaterials,Theywillbequalifiedforresearch,teaching,newproductiondevelopingandmanufacturingtechnologymanagementinpolymerfield.DurationfortheprogramTheprogramformaster’sdegreelaststwoandahalfyears.SubjectsforResearchPolymer-MatrixCompositeMaterialsFunctionalPolymerPlasticsCurriculum(Seethetablebelow)BiomedicalPolymerMaterialsEnvironmentallyFriendlyPolymerMaterialsThesisHavingfinishedschoolcourse,academicsubjectcourseandothernecessarycourses,thecandidatesareeligibleforundertakingresearchtowardsaMasterthesis,buttheyarerequiredtosubmit,priortothepreliminaryconference,3comprehensivereportsrelatedtothesistopic.Thetopicistoevolvearoundthefundamentalresearchormajortechnicalissuesofthisspecialtyinthenationaleconomy.Thereportofthepreliminaryconferenceshouldbewithaminimumof5000words,coveringthesituationofdevelopment,thesignificanceofthetopic,researchcontent,thespecificscheduleandanticipatedresults,ect.Thepreliminaryconferenceistobeassessedbyatleast3lecturerswithseniortitles,whowillofferspecificassessmentandadviceforrevision.Thosewhodon'tpasstheevaluationwillrewritethereportwithinasettime,andthosewhofailagainwilllosetheeducationopportunity.Phase-by-phaseexaminationsaretobeconductedonthethesis.Thecandidatesshouldmakereportsonitsprocessandachievementanddiscusswiththeirtutorssuchproblemsasresearchprocessandresearchmethods.Giventhegreatdiscrepancybetweentheactualheadwayandthecriteria,awarningwillbegiven.Afterthethesisiscompleted,thetutorshouldstrictlyexaminethethesisandofferhisadvice.Thesisunderstandardcan'tbeallowedtosubmitforpreliminarydefence,whichnormallytakesplacetwomonthsearlierthantheformalone.Thesiswillbeevaluatedbypreliminarydefencepanel,includingatleast3lecturerswithseniortitles.Thosewhofailthepreliminarydefenceshould,afteritsrevision,havehisthesisrejudgedwithinsixmonths.Formalthesisdefenceisheldaccordingto“ShanghaiUniversityAcademicDegree-conferringDetailedCodes”.CategoryCourseNumberCourseNamePeriodCreditTermRemarkse&CgDcmdAPoliticalTheoreticalCourseTheoryandPracticeofScientificSocialism3021NaturalDialectics4532FirstForeignLanguagePublicEnglish10031,2ProfessionalEnglish4023BasicandSpecializedCourseStructureandPropertiesofPolymers4041PolymeranalysisandCharacterization4041Advancedpolymerchemistry4042euCduRLiteratureReadingSeminarDevelopmentofPolymer&NanoCompoundMaterial4041High-qualityEngineeringPlasticsandCompoundMaterial4041ConductingPolymeranditsCompoundMaterial4042IntroductiontoreactivePolymers4042BiomedicalandEnvironmentallyFriendlyPolymers4043PolymerizationReactionEngineering4043AcademicSeminar2euCdAMainUndergraduateCoursePolymerChemistry2ormorecoursesforgraduateswhosespecialtiesdon'tconformtotheirundergraduatemajorsandequivalencydiplomaholdersPolymerPhysics微电子学与固体电子学专业攻读硕士学位研究生培养方案（一）―、培养目标本专业主要从事现代信息材料包括微电子材料、发光与光电材料、光显示材料及其器件等研究，探索新理论、新技术和新工艺，研究课题大多涉及国际前沿领域。本专业培养研究生具有设计与制备现代信息材料及器件的基础和研究能力，毕业后适宜于从事涉及信息产业的科学研究、教学和管理工作。二、 学习年限硕士研究生学习年限为二年半。在职研究生的学习年限可适当延长半年至一年。三、 主要研究方向微电子材料物理与化学发光与光电材料、有机发光显示四、 课程设置（见表）五、 论文工作在课程修满48学分后，可申请进入论文课题研究，但在开题报告前应提交2篇与专业相关的科技综述报告。开题报告在第二学年第一学期进行，选题应与本专业的基础研究或国民经济中的重要问题相结合。开题报告应在5000字以上，包括发展现状、选题意义、研究内容、进度安排以及预期成果等。开题报告应组织3名以上的高级职称教师进行评审，为公开性报告。在论文阶段的中期，进行阶段检查和中期考核，若离进度要求偏离较大予以黄牌警告。在完成论文并经过包括导师在内的3名高级职称教师认可后，组织论文预答辩和校内外同行专家评审答辩。在申请学位前，至少在三大检索上发表与学位论文相关的学术论文一篇（第一作者）；或有一项专利证明或一项经省部级以上（含省部级）主持鉴定、验收的科研成果（排序前五名）。

微电子学与固体电子学专业硕士研究生课程设置（一）类别课程编号课程名称学时学分开课学期备注学位课政治理论课科学社会主义理论与实践3021自然辩证法4532第一外国语公共英语10031,2专业英语4023专业基础课专业课固体发光4041微电子器件原理4041材料科学学一固体物理II4041必修课文献阅读研讨课现代材料分析测试技术4042光电探测技术4042微纳电子材料与器件4042新型集成电路封装材料4042有机电致发光器件4042压电材料及应用4042学术研讨课2校公共平台课应用随机过程4042选修0-2门0-8学分数值分析4041数学物理方程4043应用统计分析4041现代数学基础4042有限元法及其应用4042高性能计算导论4042数据库理论与实践4041近代力学基础4042补修课程本科主干课固体物理60同等学历或跨学科考入的硕士生补修二门固体化学60半导体物理60CultureSchemeofMicroelectronicsandSolidElectronicsforMasterStudentsCulturePurposeThismajorfocusesonresearchofmoderninformationmaterialsincludingmicroelectronicmaterials,lighteningandphotoelectricmaterials,OLEDmaterialanditsdevicestoseeknewtheory,newtechnologyandnewprocessandmostresearchsubjectsareinglobalfrontiers.Studentsgraduatedshouldpossesstheoreticalfoundationandresearchabilitiesindesignandfabricationofmoderninformationmaterials,suitableforsuchcareersasscienceresearch,teachingandmanagementininformationdomain.ThefixednumberofyearThefixednumberofyearforMasterStudentsistwoandahalfyears.Thefixednumberofyearfortheon-the-jobMasterStudentsmayproperlyprolonghalforoneyear.ResearchareasPhysicsandChemistryofmicroelectronicsmaterialsLighteningandphotoelectricmaterialsOrganiclighteningdisplayCoursesforMasterStudents(intable)ThesisworkStudentsmayapplytoentertheperiodofthethesisresearchafter48creditsfinished,butbeforeopeningreportoneshouldsubmittwopieceoftechnicalreviewreportrelatedwiththemajor.Openingreportshouldbeperformedinthe1stsemesterofthe2ndyear.Selectingsubjectshouldcombinewiththefoundationofthismajorandtheimportanttechniqueproblemofthenationaleconomy.Openingreportshouldbemorethan5000words,includingthestatusquoofthedevelopment,thesignificanceoftheselectingsubject,theresearchcontent,thescheduleofthethesisworkandtheprospectiveresult.Openingreportshouldarrangemorethan3high-gradepostteacherstojudge,itisanopeningreport.Themedium-termexaminationshouldbeperformedinthemiddleoftheperiodofthethesis.Ifthereisabiggishdepartureofthethesiswork,ayellowwarningwillbepresent.Afterthethesisfinishedandrecognizeby3high-gradepostteachersincludingtheadvisor,itisallowedtoperformthepre-answerandthejudgewiththeexpertofthesamemajor.Beforeapplyingthemaster'sdegree,applicantshouldnotpublishedlessthan1paperinthe3internationalfamoussearchessystems(1stauthor)or1patent(before5thinorder).

MicroelectronicsandSolidElectronicsCourses

forMasterStudentsCategoryCourseNumberCourseNamePeriodCreditTermRemarkseuCegDmdaAPoliticalTheoreticalCourseTheoryandPracticeofScientificSocialism3021NaturalDialectics4532FirstForeignLanguagePublicEnglish10031,2ProfessionalEnglish4023Basic andSpecializedCourseSolid StateLuminescence4041MicroelectronicDevicesPrinciples4041MaterialScience-SolidPhysicsII4042eruocdrqRLiteratureReadingSeminarAnalysis andCharacterizationofMaterials4042Technology forPhotoelectricDetection4042NewIcmateriaslforpackaging4043Micro-NanoelectronicMaterials&Device4043OrganicElectroluminescentDevice4043PiezoelectricMaterialsandApplications4042AcademicSeminar2ACMainUndergraduateCourseSolidStatePhysics60Candidateswiththesameeducationallevelorfromotherdisciplinesshouldtaketwoormoremake-upcourses.SolidStateChemistry60SemiconductorPhysics60钢铁冶金专业攻读硕士学位研究生

培养方案―、培养目标现代冶金技术发展的特点是在其他学科的渗入下，不断深化和发展，因此本学科点将培养在冶金和金属材料加工制备方面具备广阔和坚实的理论基础，具有一定独立研究能力的复合型人才。在本科生培养以通才教学为特色的前提下，硕士生教学的目标为系统地掌握有关的专业知识，完成研究方法和自学能力的进一步训练，初步具备独立从事有关科技工作的能力（包括较熟练的阅读有关的外文资料的能力），具有良好科学素养。硕士论文应表现出一定的创新性。二、 学习年限硕士研究生的学习年限为二年半。三、 研究方向纯净钢及二次精炼还原及资源综合利用铁合金精炼特冶及冶金反应工程冶金熔体物理化学过程数学模拟、控制及专家系统电磁冶金、连铸及凝固四、 课程设置（见表）五、 论文工作在课程修满44学分后，可申请进入论文课题研究。在导师指导下确定研究课题，应在第一学年结束前进行开题报告，学位论文应与本学科的基础研究或与国民经济中的重大技术问题相结合，开题报告应在5000字以上，内容包括发展现状、选题意义、研究内容、技术路线、进度安排和预期成果等。开题报告应公开进行，由3名以上高级职称教师进行评审。在论文阶段的中期，进行阶段检查和中期考核，若离进度要求偏离较大者，予以黄牌警告。在完成论文后，应由包括导师在内三名高级职称教师进行预答辩，预答辩通过者方可进行正式答辩，预答辩必须在正式答辩前二个月进行。预答辩未通过者应在三个月至半年时间内进一步对学位论文做出修改，由导师审阅同意后再次进行学位论文预答辩。学位的申请须按《上海大学研究生学位授予科研成果量化指标》的要求执行。学位论文依据《关于对研究生学位论文实行“双盲”评议抽样检查的规定》，实行双盲评审。

钢铁冶金专业硕士研究生课程设置类别课程编号课程名称学时学分开课学期备注学位课政治理论课科学社会主义理论和实践3021自然辩证法4532第一外国语公共英语10031,2专业英语4023专业基础课专业课冶金热力学4041,2冶金动力学4042,3必修课文献阅读研讨课冶金熔体模型4041新材料制备科学与技术4042电磁场在冶金和材料制备中应用4042金属凝固4043冶金过程模型与仿真4043高温合金及钛合金4041学术研讨课2校公共平台课应用随机过程4042选修0-2门0-8学分数值分析4041数学物理方程4043应用统计分析4041现代数学基础4042有限元法及其应用4042高性能计算导论4042数据库理论与实践4041近代力学基础4042FerrometallurgyCultivationaimThedevelopmentofmodernmetallurgicaltechnologyhasbeenmarkedbyitsintegrationwithotherdisciplinesforfurtherdevelopment,sothisspecialtyisdesignedtotrainversatilepersonnelwhohaveabroadandsolidtheoreticalfoundationofmetallurgyandmetallicmaterialprocessingandwhohavegreatabilitiesforindependentresearch.Afterreceivingageneralistundergraduateeducationinthisspecialty,theMScandidatesshouldbecapableofmasteringtheknowledgerelatedtothisspecialty,enhancingtheirself-taughtandresearchabilities(includingtheabilitytoreadforeignmaterialsinaproficientmanner),andacquiringgoodqualitiesforscientificwork.TheMSthesisshoulddisplayaconsiderableamountoforiginality.DurationoftheProgramTheprogramusuallylasts2.5years.ResearchfieldsSteelRefiningandMetalMeltingEnvironmentalProtectionandComprehensiveUtilizationofResourcesDuringtheMetallurgicalProcessMetallurgicalProcessinthePhysicalFieldSpecialMetallurgyandMetallurgicalReactionEngineeringPhysicalChemistryofMetalMeltingMathematicalAnlogforProcessandControl&theExpertSystemContinuousCastingandSolidificationCurriculum(seethetablebelow)ThesisOnlyafteracquiringthecreditpointsasrequiredcanthecandidatesembarkontheirMSthesiswritingortheirproposedproject.Bytheendofthefirstacademicyears,allcandidatesshouldconsulttheirsupervisorsaboutchoosingatopicfortheirMSthesisorprojectandsubmitakickoffreportfortheirthesisorproject.Thedegreethesisshouldbelinkedtothebasicresearchwithinthisspecialtyorsomeimportanttechnicalproblemsinthenationaleconomy.Aproposalofnolessthan5000wordsmustbesubmittedwithinoneyearfortheregularfull-timecandidates,ortwoyearsforthecontinuousmaster-doctoralcandidatesorpart-timestudents,whichcontainsareviewoftheliterature,significanceofthetopic,problemstobestudied,keypointsandspecialfeatures,expectedresultsandpossibleinnovations.Thenumberofcitedreferencesmustbenolessthan50.Thecandidatesshoulddelivertheirproposalinthepresenceof3or5teachers,includingatleast3professorsorassociateprofessors,whowillassessit.Inthemiddleoftheresearch,thecandidateshouldreview,andprovideareporton,his/herworkcarriedoutaccordingtotheplaninordertomakesurethattheresearchgoesproperly.Awarningisgivenifmajordiscrepancyfromtheplanisfound.Havingcompletedthethesisandpassedthepreliminarydefenseandafternecessarymodifications,thedissertationisevaluatedbynolessthanthreeseniorexaminers,includingexternalprofessor(s),incloselyrelatedfields.Aformaldefensesessionishelduponapprovalofthedissertationbyboththeinternalandexternalexaminers.Incasethecandidatefailsthepreliminarydefense,he/sheisgiven3to6monthstorevisehis/herthesis.Onlyafterthesupervisorreviewshis/hermodifiedthesisandthinksthatitisuptotherequirementscanhe/sheapplyfortheformaldefense.Theapplicationshouldproceedinaccordancewith“TheQuantificationIndexonResearchAchievementsofShanghaiUniversityforMaster’sandDoctoralCandidates.”Ananonymousreviewofthethesisispracticedinthelightofthestipulationsspecifiedin“RegulationsConcerningAnonymousReviewingofSampledDegreeThesesorDissertations.”CurriculainSteelMetallurgyCategoryCourseNumberCourseNamePeriodCreditTermRemarkse&CgDcmdAPoliticalTheoreticalCourseTheoryandPracticeofScientificSocialism3021NaturalDialectics4532FirstForeignLanguagePublicEnglish10031,2ProfessionalEnglish4023BasicandSpecializedCourseMetallurgicalThermodynamics4041,2MetallurgicalDynamics4042,3euCduRLiteratureReadingSeminarMetallurgicalMeltingModels4041PreparationScienceandTechnologyofNewMaterialss4042UsingtheElectromagneticFieldinMetallurgyandMaterialProduction4042MetallicSolidification4043Modelingandsimulationofmetallurgicalprocess4043HightemperaturealloyandTitaniumalloy4041AcademicSeminar2有色金属冶金专业攻读硕士学位研究生

培养方案一、 培养目标本专业主要从事有色金属冶金过程开发和有色金属新材料制备技术的研究，培养学生掌握有色金属冶金专业扎实的基础理论和系统的专业知识，同时使学生能够具有较强的自学能力和独立开展科学研究的素养，具有较强的计算机应用能力和较高的科技英语水平，以适应新时代对高级人才的需要。二、 学习年限硕士研究生的学习年限一般为两年半三、 主要研究方向有色金属电解和湿法冶金有色金属及其化合物超细粉体材料粉末冶金有色金属提取与精炼强磁场下电化学、复合镀有色金属新材料的制备及应用四、 课程设置五、 论文工作在课程修满规定的学分后，可申请进入论文课题研究。在导师的指导下确定研究课题，在第二学年第二学期前进行开题报告，选题应与本学科的基础研究或与国民经济中的重大技术问题相结合，开题报告应在5000字以上，内容包括发展近况、选题意义、研究内容、技术路线、进度安排和预期成果等。开题报告应公开进行，有3名以上高级职称教师进行评审。在论文阶段的中期，进行阶段检查和中期考核，若离进度要求偏离较大者，予以黄牌警告。在完成论文并经包括导师在内的3名高级职称教师认可后，组织校内外同行专家评审答辩。

有色金属冶金专业硕士研究生课程设置类别课程编号课程名称学时学分开课学期备注学位课政治理论课科学社会主义理论与实践3021自然辩证法4532第一外国语公共英语10031,2专业英语4023专业基础课专业课有色冶金过程物理化学及其控制4041必选冶金动力学4042必修课文献阅读研讨课有色金属湿法冶金4041新材料制备科学与技术4041有色金属电解冶金方向文献阅读4042电磁场在冶金和材料制备中应用4042铝合金及其冶金质量控制文献阅读4043纳米硬质合金制备技术文献阅读4043学术研讨课2校公共平台课应用随机过程4042选修0-2门0-8学分数值分析4041数学物理方程4043应用统计分析4041现代数学基础4042有限元法及其应用4042高性能计算导论4042数据库理论与实践4041近代力学基础4042Trainingschemeofgraduatestudentmajoredinnonferrous

metallurgyCultivationaimThespecialtyisengagedinprocessdevelopmentandresearchonpreparationtechnologyofnewmaterialsofnonferrousmetals.Thegraduatestudentsaretrainedtomastersteadybasictheoryandsystematicprofessionalknowledgeofnonferrousmetallurgy.Theyarealsorequiredtobewithstronger