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May 18 - 19, 2015KACST Headquarters - Conference Hall - Building 36King Abdullah Road - Riyadh, Saudi Arabia
Under the patronage of the Custodian of the Two Holy MosquesKing Salman Bin Abdulaziz Al-Saud
CONFERENCEMAGAZINE
The 3rd Saudi International Conference on Advanced Materials Technology 2015
4 The 3rd Saudi International Conference on Advanced Materials Technology 2015
DAY 1 Program
The 3rd Saudi International Conference on Advanced Materials Technology 2015 5
DAY1 MAY 18MONDAY
AMT CONFERENCE 2015
REGISTRATION 08:00 – 09:00
OPENING SESSION 09:00 – 09:30Holy Quran
Dr. Khaled A. AlOgab - Conference Chair, KACST - Saudi Arabia
H.H. Dr. Turki bin Saud bin Mohammad Al-Saud - President, KACST - Saudi Arabia
09:30 – 10:15Innovations in the Global Steel Industry and Contributions of Industry/University PartnershipsProf. David K. Matlock - University Emeritus Professor and the Armco Foundation Fogarty Professor in the George S. Ansell Department of Metallurgical and Materials Engineering at the Colorado School of Mines (CSM) 09:30 – 10:15
Coffee Break 10:15 – 10:30
SESSION 1.2 - LIGHTWEIGHT MATERIALS 10:30 – 12:00Session Chair: Dr. Khaled A. AlOgab - Manager, National Center for Advanced Materials Technology, KACST - KSA
1.1.1 Recent Developments in the Processing of Metals with Submicrometer Grain Sizes Prof. Terence G. Langdon - Professor of Materials Science, University of Southampton, UK and Professor of Engineering Emeritus, University of Southern California - USA 10:30 – 11:00
1.1.2 Severe Plastic Deformation: An Effective Approach for Grain Refinement , Improved Strength and Enhamced Ductility Prof. Ehab El-Danaf - Professor of Materials Science and Engineering in Mechanical Engineering Department, King Saud University (KSU) - Saudi Arabia 11:00 – 11:30 1.1.3 Light Weight Improved Metal-Composites Reinforced with Nanoparticulate Materials Dr. Marc Leparoux - Swiss Federal Laboratories for Materials Sciences and Technology (EMPA) 11:30 – 12:00
Prayer & Lunch 12:00 – 13:30
SESSION 1.3 - ADVANCED MATERIALS FOR WATER AND ENERGY APPLICATIONS 13:30 – 14:30Session Chair: Dr. Talal A. Aljohani - Research Assistant Professor, National Centre for Advanced Materials Technology, KACST - KSA
1.2.1 Nanomaterial Design Strategies for Capacitive Energy Storage Prof. Husam Al-Shareef - Professor of Materials Science and Engineering, King Abdullah University of Science & Technology (KAUST) - Saudi Arabia 13:30 – 14:00
1.2.2 Inorganic Membranes for Water Filtration and Desalination: Opportunities and Challenges Prof. Tahar Laoui - Professor of Materials & Manufacturing Engineering in Mechanical Engineering Dept., King Fahd University of Petroleum and Minerals (KFUPM) - Saudi Arabia 14:00 – 14:30
Keynote Speaker 1
SESSION 1.1
SESSION 1.2
6 The 3rd Saudi International Conference on Advanced Materials Technology 2015
H.H. Dr. Turki bin Saud bin Mohammad Al-SaudPresidentKing Abdulaziz City for Science and Technology (KACST) - KSA
Dr. Khaled A. AlOgabConference ChairKACST – KSA
Dr. Khaled A. AlOgabManagerNational Center for Advanced Materials Technology, King Abdulaziz City for Science and Technology (KACST) - KSA
Prof. Terence G. LangdonProfessor of Materials ScienceUniversity of Southampton, UK and Professor of Engineering Emeritus, University of Southern California - USA
Prof. Ehab El-DanafProfessorMaterials Science and Engineering in Mechanical Engineering Department, King Saud University (KSU) - Saudi Arabia
Dr. Marc LeparouxGroup Leader Nanopowder & CompositesSwiss Federal Laboratories for Materials Sciences and Technology (EMPA)
Prof. David K. MatlockUniversity Emeritus Professor and the Armco Foundation Fogarty ProfessorGeorge S. Ansell Department of Metallurgical and Materials Engineering at the Colorado School of Mines (CSM)
Session Chairman 1.1
Session 1.2.1
Session 1.1.1
KeynoteLecture 1
Session 1.2.2Session Chairman 1.2
Session 1.1.2 Session 1.1.3
OpeningCeremony
OpeningCeremony
Prof. Husam Al-ShareefProfessor of Materials Science and EngineeringKing Abdullah University of Science & Technology (KAUST) - Saudi Arabia
Dr. Talal A. AljohaniResearch Assistant ProfessorElectrochemistry and Materials Corrosion, National Centre for Advanced Materials Technology KACST - KSA
Prof. Tahar LaouiProfessorMaterials & Manufacturing Engineering in Mechanical Engineering Dept., King Fahd University of Petroleum and Minerals (KFUPM) - Saudi Arabia
MAY 18, 2015 - MONDAYDAY 1
The 3rd Saudi International Conference on Advanced Materials Technology 2015 7
BIOGRAPHY
• PresidentofKingAbdulazizCityforScienceandTechnology(KACST)
• HereceivedhisPHDinAeronauticsandAstronauticsfromStanfordUniversity.
• JoinedKingAbdulazizCityforScienceandTechnology(KACST)in1997asDirectorofthenewlyestablishedSpaceResearchInstitute.
• HebecametheVicePresidentofKACSTforResearchInstitutesin2004.
• Al-Saudservesas:
• ChairmanoftheScientificCouncilofKACST.
• ChairmanoftheSupervisoryCommitteefortheNationalScienceandTechnologyandInnovationsPlan(NSTIP).
• Chairman of the Supervisory Committee for King Abdullah Initiative for Solar WaterDesalination.
• Chairmanoftheboardsofseveraljointcentersofexcellenceincollaborationwithworld’sleadinguniversitiesandcompanies.
• ChairmanoftheSupervisoryCommitteeforTechnologyIncubators.
• AmemberoftheRegencyCouncilofAlFaisalUniversity,Riyadh.
• AmemberoftheAdvisoryCouncilfortheSchoolofEngineeringatStanfordUniversity.
• Chairman of the Board of Directors of the Technology Development and InvestmentCompany(TAQNIA).
H.H. Dr. Turki bin Saud bin Mohammad Al-SaudPresidentKing Abdulaziz City for Science and Technology (KACST) - KSA
Opening Session
8 The 3rd Saudi International Conference on Advanced Materials Technology 2015
BIOGRAPHY
Dr.AlOgabreceivedhisBachelors(1996)inMechanicalEngineeringTechnologyfromRiyadhCollegeofTechnology.AfterwhichhejoinedBurydahCollegeofTechnology(BCT),Burydah,KSA,andawardedascholarshiptopursuehisgraduatestudies.InDec.2000,hereceivedhisMScinMaterialsScienceandEngineeringfromWesternMichiganUniversity.In2004,hereceivedhisPhDinMetallurgicalandMaterialsEngineeringfromColoradoSchoolofMines.In2005,Dr.AlOgabrejoinedBCTandworkedasanassistantprofessor.FromNov2007untilSept2009,hewastheHeadoftheMechanicalTechnologyDepartmentatBCT.InOct2009,Dr.AlOgab joinedKingAbdulazizCity forScienceandTechnology (KACST).AtKACSTheservedastheDeputyDirectorfortheNationalProgramforAeronauticalTechnology,DirectorfortheNationalCenterforNon-DestructiveTesting,and,currently,heistheManageroftheNationalCenterforAdvancedMaterialsTechnology.Dr.AlOgabhaspublishedanumberofconferenceandjournalpapers.Hisresearchinterestsinvolveferrousandnonferrousphysicalmetallurgyandprocessingtechnology, ingeneral,andtolinkthefundamentalsofphysicalmetallurgywithindustrialapplications.In 2009, Dr. AlOgab received the Charles Hatchett Award, presented in the Institute ofMaterials,MineralsandMining (IOM3),London,UK,which isgiven for thebestpublishedresearchonthescienceandtechnologyofniobiumanditsalloys.
Dr. Khaled A. AlOgabConference ChairKACST – KSA
Opening Session
The 3rd Saudi International Conference on Advanced Materials Technology 2015
MAY 18, 2015 - MONDAYDAY 1
The 3rd Saudi International Conference on Advanced Materials Technology 2015 9
BIOGRAPHY
Prof.MatlockreceivedhisB.S.degreeinengineeringsciencefromtheUniversityofTexasatAustin(1968),andhisM.S.(1970)andPh.D.(1972)degreesinmaterialsscienceandengineeringfromStanfordUniversity.He isaUniversityEmeritusProfessorandtheArmcoFoundationFogartyProfessor in theGeorgeS.AnsellDepartment of Metallurgical and Materials Engineering at the Colorado School of Mines (CSM), Golden,Colorado. He joined theCSMfaculty in1972and is involved in teachingand research,primarily related tothemechanicalpropertiesofmaterials.HeisoneofthecofoundersoftheAdvancedSteelProcessingandProducts Research Center, an industry-university cooperative research center established at CSM in 1984.TheCentercurrentlyhas29corporatesponsorsand is recognizedasoneof themostsuccessful industry/universityresearchcentersintheworld.HeservedasCenterDirectorfrom1993untilhisretirementinMay2013.InretirementhecontinuestobeanactiveparticipantinallCenteroperations.Prof.MatlockisamemberoftheUSNationalAcademyofEngineering,aFellowoftheAmericanSocietyforMetals(ASM),aFellowofTMS(theMinerals,MetalsandMaterials Society),andaFellowoftheAmericanWeldingSociety(AWS).Inhis43yearcareeratCSMhisteachingandresearcheffortshaveledtomultipleawards fromCSMandprofessional societies including theAmerican Iron andSteel Institute,MetallurgicalSocietyofAIME,IronandSteelSociety,AssociationforIronandSteelTechnology,ASMInternational,AmericanWelding Society, the Society of Automotive Engineers, the American Nuclear Society, and the Institute ofMaterials,MineralsandMining.Hehasauthoredorco-authoredover400technicalpublications,mostlyrelated
tosteels.
ABSTRACT:
Currentlynewandenhancedsteelsarerequiredtomeetabroadrangeofsocietalneedsincluding,asexamples,moreefficienttransportationsystems,improvedandexpandedenergyproductionsystems,andinfrastructuredevelopmentandredevelopmentprojects. Asa result,multiple innovations in thesteel industryhavebeenrealized tosupport theneeds for economicsolutions for thesecriticalapplications. Thispresentationwillinclude an assessment of research innovations in the global steel industry as well as specific selectedresearchexampleschosentoillustratethebroadrangeofdevelopmentsthathaveevolvedrecentlyleadingtonewproducts.Whilecorporateresearchprogramsareimportant,emphasisherewillbeplacedonindustry/universitypartnershipsandtheirimportancetothesteelindustry.InformationisdrawnfromtheresearchoftheAdvancedSteelProcessingandProductsResearchCenter, an industry/university cooperative researchcentercurrentlyinits31styearofoperationattheColoradoSchoolofMines.Specificresearchexampleswillincludesheet,plateandbarsteels.Forexample,newlydevelopedadvancedhighstrengthsheetsteels(AHSS)withexcellentformabilitythathaveevolvedparticularlyforautomotiveapplicationswillbehighlighted.Thesenewhigh-strengthsteelsenablevehicleweightreductiontoimprovefueleconomyandleadtoenhancedcrashperformanceandpassengersafety.Asasecondexample,researchonhigh-strengthpipelinesteelswillbeusedtoillustratehowtheapplicationofadvancedanalyticaltechniques(e.g.electronbackscattereddiffraction–EBSD)hasprovidedenhancedunderstandingofthefundamentalfactorswhichcontrolstrengthandtoughnessinplatesteelsusedtofabricatehighstrengthpipe.Inaddition,anassessmentoffutureresearchopportunitiesforthesteelindustrywillbepresented.
Prof. David K. MatlockProfessorUniversity Emeritus and the Armco Foundation Fogarty Professor in the George S. Ansell Department of Metallurgical and Materials Engineering at the Colorado School of Mines (CSM
Keynote Lecture 1
Title Presentation: Innovations in the Global Steel Industry and Contributions of Industry/University Partnerships
Session Chairman 1.1
Dr. Khaled A. AlOgabManagerNational Center for Advanced Materials Technology, King Abdulaziz City for Science and Technology (KACST) - KSA
10 The 3rd Saudi International Conference on Advanced Materials Technology 2015
BIOGRAPHY
Education:B.Sc.,Physics,UniversityofBristol;Ph.D.,Metallurgy,ImperialCollege,UniversityofLondon
Membership of Academies:AcademyofSciencesofBashkortostanRepublic,Russia(1994);RoyalAcademyofEngineering,UK(2002);EuropeanAcademyofSciences(2008),AcademiaEuropaea(2014).
Academic Awards:D.Sc.inPhysics,UniversityofBristol(1980);HenryMarionHoweMedal,ASM International (2000); Doctor honoris causa, Russian Academy of Sciences (2003);SōmiyaAward,InternationalUnionofMaterialsResearchSocieties(2005);AlbertSauveurAchievementAward,ASMInternational(2007);BlaisePascalMedal,EuropeanAcademyofSciences(2008);,LeeHsunAward,ChineseAcademyofSciences(2009);HonoraryMedal“DeScientia etHumanitateOptimeMeritis,”AcademyofSciencesof theCzechRepublic(2009);ActaMaterialiaGoldMedal(2012).
ABSTRACT:
Theprocessingofmetalswithexceptionallysmallgrainsizeshasbecomeimportantoverthe last two decades because these ultrafine-grained metals exhibit high strength andsuperplasticformingcapabilities.Thispresentationdescribesrecentdevelopmentsinthisimportantareaofresearch.
Prof. Terence G. LangdonProfessorMaterials Science, University of Southampton, UK and Professor of Engineering Emeritus, University of Southern California - USA
Title Presentation: Recent Developments in The Processing of Metals with Submicrometer Grain Sizes
Session 1.1.1
The 3rd Saudi International Conference on Advanced Materials Technology 2015
MAY 18, 2015 - MONDAYDAY 1
The 3rd Saudi International Conference on Advanced Materials Technology 2015 11
Title Presentation: Severe Plastic Deformation: An Effective Approach for Grain Refinement, Improved Strength and Enhamced Ductility
BIOGRAPHY
I graduatedwith aBachelor degree fromMechanicalDesign andProductionDepartmentfrom the College of Engineering, Cairo University with Distinction with honor in 1991. IfinishedMyMasterofSciencedegreeinComputerAidedDesignandOptimizationofGearsin1994fromthesameDepartment.IthenjoinedDrexelUniversityinPhiladelphiaPA,USAin1994intheDepartmentofMaterialsSciencewhereIwasawardedmyPh.Ddegreein1998.Ihavereceivedthefollowingawards:•FirstrankawardforResearchExcellencefromCollegeofEngineering,KingSaudUniversity,2012.•HighlyCitedAuthorAward,2003,THOMSONISI.•BestAcademicachievement“HarryRogeraward”,1998,DrexelUniversity.•BestAcademicAchievement,1993,fromtheEngineeringSyndicateinCairo,Egypt.
ABSTRACT:
Twobasicandcomplementaryapproacheshavebeendeveloped for thesynthesisof ultrafinegrained(UFG)materialsandtheseareknownasthe‘‘bottom-up’’andthe‘‘top-down’’approaches.Inthe‘‘bottom-up’’approach,UFGmaterialsarefabricatedbyassemblingindividualatomsorbyconsolidatingnano-particulatesolids.The‘‘top-down’’approachisdifferentbecauseitisdependentupontakingabulksolidwitharelativelycoarsegrainsizeandprocessingthesolidtoproduceaUFGmicrostructurethroughheavystrainingorshockloading.Inordertoconvertacoarse-grainedsolidintoamaterialwithultrafinegrains,itisnecessarybothtoimposeanexceptionallyhighstraininordertointroduceahighdensityofdislocationsandforthesedislocationstosubsequentlyre-arrangetoformanarrayofgrainboundaries.Thepotentialofimprovingmechanicalpropertiesbyreducingthegrainsizetothenanostructuredregimehasbeenaggressivelyaddressed,andisthefocusofthispresentation.Thework,currentlypresented,addressescryomillingandsubsequentconsolidationofaluminumalloyspowders (99.7Al,6061and2024AA)asone technique thatrepresents thebottom-upapproach.Of the top-downapproach techniques investigatedare theequalchannelangularpressing(ECAP),highpressuretorsion(HPT),frictionstirprocessing(FSP),cryogenicshockloading,accumulativerollbonding(ARB)androtaryswaging(RS).Thepreviousprocessingtechniqueswereemployedonagroupofaluminumalloys(6082,5083,1050AA)andagroupoftitaniumalloys(CPTi,Ti54MAND10-2-3Tialloy).Alloftheseproceduresarecapableofintroducinglargeplasticstrainingandsignificantmicrostructuralrefinementinbulkcrystallinesolids.Theresultsfocusondocumentingtheevolutionofmechanicalproperties,microstructureandtexture.
Prof. Ehab El-DanafProfessorMaterials Science and Engineering in Mechanical Engineering Department, King Saud University (KSU) - Saudi Arabia
Session 1.1.2
12 The 3rd Saudi International Conference on Advanced Materials Technology 2015
Title Presentation: Light Weight Improved Metal-Composites Reinforced with Nanoparticulate Materials
BIOGRAPHY
MarcLeparouxstudiedPhysicsandChemistryofMaterialsinRennes(France).HeobtainedhisPhDinAppliedSciences in 1995 inOrléans (France) on the chemical vapor synthesis of BoronNitride based interphasesforSiC/SiCceramiccomposites.ThePhDworkwasperformedatCNRStogetherwithan industrialpartner,theSnecmaGroup.HethenjoinedtheFraunhoferInstituteforMaterialsandLaserTechnologiesinDresden(Germany)wherehewasinchargeofthelaserassistedchemicalvapordepositionforcoatingfiberstobeusedincompositematerials.Inparallel,hedevelopedinfraredspectroscopytechniquesformonitoringgasphaseprocesses.HejoinedEmpainSwitzerlandin2001whereheinitiatedthenanoparticlethermalplasmasynthesisactivities.Hethenbuiltauniqueinductivelycoupledthermalplasmareactorallowingthein-situcharacterizationofthenanoparticlesynthesis.Thefacilityhasbeenusedforproducingalargevarietyofdifferentmaterialslikecarbides(SiC,TiC,WC,TaC,ZrC),carbonitrides(TiCN),oxides(Al2O3)andalsosomemetallicmaterials likeCu,Si,NiTi.Besidethesynthesisofnanoparticles,thereactorcanalsobeusedforspheroidizingmicroscaleparticlesorfunctionalizingpowders.Withtheseactivities,MarcLeparouxisinvolvedinalotoflargeprojectsinEuropeonbatteriesandcomposites.In2006,hestartedinparallelhisactivitiesonmetalmatrixcompositereinforcedwiththenanoparticlesheproduced.Hereportedamongthebestmechanicalstrengthsforaluminumalloysreinforcedwithnanoparticulatematerials.Inthisframework,aprojecttogetherwithKACSThasbeenlaunched.HeisleadingofficiallytheGroupNanoparticlesandNanocompositessincemorethan7years.
ABSTRACT:
A simple powder metallurgy approach is reported for producing metal matrix composites reinforced withnanoparticles showing outstandingmechanical strength and hardness. Themetal and nano-reinforcementpowders aremixed in a high energy ballmill and the resulting blends are hot compacted using a uniaxialpress.Highenergyballmillingwas indeedsuccessful indispersingdifferentnanoparticulatematerials intoanAlMg5alloymatrix.Carbonnanotubes(CNT)aswellasAl2O3orSiCnanoparticulatematerialscouldbethusdisperseduptoabove10vol%.Hardnessimprovementsbyafactorof4-from70to275HV20-couldbeachievedfortheaspressedcompositeswith5vol%CNT.Theultimatetensilestrength(UTS)increasedfrom290MPaforrawAlMg5to700and720MPawith1vol%aluminananofibersand0.5vol%CNTrespectively.Howeverthesehighstrengthcompositesdramaticallysufferedfromlowductility.Typically1%ofelongationatrupturecouldbemeasuredinthebestcases.Themillingconditionsliketheprocesscontrolagent,themillingtimeandthemillgeometryhavethenbeencarefully investigatedandtheiroptimizationallowedreachingareasonablecompromisebetweenhighstrengthandhighductility.ForinstancethecompositeAlMg5-0.5vol%nanoAl2O3(meandiameter20nm)showsthefollowingmechanicalproperties:500MPaultimatestrength,475MPayieldstrengthandanelongationatrupturearound10%.Alinearregressioncouldbedrawnbetweenthestrengthandthestrainofthecompositesreinforcedwithlessthan1vol%ofaluminananoparticles.Thesemechanicalpropertiesarecomparableorevenbetterthanthosereportedforcommercialavailablealloysforwhichacostlyspecialheatorworkhardeningtreatmentisrequired.
Session 1.1.3
Dr. Marc LeparouxGroup Leader Nanopowder & CompositesSwiss Federal Laboratories for Materials Sciences and Technology (EMPA)
The 3rd Saudi International Conference on Advanced Materials Technology 2015
MAY 18, 2015 - MONDAYDAY 1
The 3rd Saudi International Conference on Advanced Materials Technology 2015 13
Title Presentation: Nanomaterial Design Strategies for Capacitive Energy Storage
BIOGRAPHY
Prof.HusamAlshareefobtainedhisPh.D.degree inmaterialsscienceandengineeringatNorthCarolinaStateUniversity.Hethenspent2yearsaspostdoctoralscientistatSandiaNational Laboratories in Albuquerque, United States. He then embarked on a 10-yearcareer in the semiconductor industry, holding positions atMicronTechnology andTexasInstruments,Inc.Thereheworkedondevelopingnewmaterialsandprocessesforintegratedcircuit fabrication. In 2009he joinedKAUST,where he initiated an active research groupfocusingonemergingelectronicsandonenergyharvestingandstorage.Theauthorofmorethan250articles,hehasnearly80patents.HehaswontheUNDPUndergraduateFellowship,SethSpraguePhysicsAward,NorthCarolinaStateDean’sFellowship,U.S.DepartmentofEducationElectronicMaterialsFellowship,andtheSEMATECHCorporateExcellenceAward.HewasassociateeditorfortheJournalofElectronicMaterials(2011-2013)andistheeditor-in-chiefforMaterialsforRenewable&SustainableEnergy.Heservedasco-chairforthe2014MaterialsResearchSociety(MRS)FallMeeting,andisaseniormemberofIEEE.HisstudentsatKAUSThavewontheDowSustainabilityAward(twice),threeacademicexcellenceawards,IntelISEFAward,andSABIC’sPlasticElectronicsInnovationAward.Hisresearchhasbeenfeaturedinseveralmediaoutlets.
ABSTRACT:
Thetalkwillfocusonstrategiesthatwehavebeendevelopingtoimproveelectrodematerialperformanceincapacitiveenergystoragedevices,includingconventionalpseudocapacitors,hybrid supercapacitors, and microfabricated supercapacitors. The talk will cover thedevelopment of organic and inorganic electrodes that offer both macroporosity andmesoporosityusingin-situnucleationoncurrentcollectors.Theresultantmorphologiesofsuchelectrodesfacilitateelectrolytepermeation,reducedeviceresistance,andprovidelargesurfaceareasforfasterreactionkineticsattheelectrodesurface,therebyincreasingdevicecapacitance.Developmentofnegativeelectrodematerialsforthefabricationofhybridandasymmetriccapacitivedevices,whichworkathighervoltage,willalsobecovered.Finally,recentdevelopmentinflexibleandmicrofabricatedsupercapacitorsforself-powereddeviceapplicationswillbediscussed.
Prof. Husam Al-ShareefProfessor of Materials Science and EngineeringKing Abdullah University of Science & Technology (KAUST) - Saudi Arabia
Session Chairman 1.2
Dr. Talal A. AljohaniResearch Assistant ProfessorElectrochemistry and Materials Corrosion, National Centre for Advanced Materials Technology, KACST - KSA
NOT AVAILABLE
Session 1.2.1
14 The 3rd Saudi International Conference on Advanced Materials Technology 2015
Title Presentation: Inorganic Membranes for Water Filtration and Desalination: Opportunities and Challenges
BIOGRAPHY
DrTaharLaouiisProfessorofMaterials&ManufacturingEngineeringinMechanicalEngineeringDept. at King Fahd University of Petroleum andMinerals (KFUPM), Dhahran, Saudi Arabia. HereceivedhisPhDfromtheUniversityofWashington,Seattle,USAin1990.Keywordsdescribinghisresearchinterestsincludeprocessingofadvancedmaterialsandnanomaterialswithafocusonnanocompositesandhowtoenhanceuniformdispersionofnanoparticleswithinthematrixaswellastominimizegraingrowthforpowdermixturessubjectedtosinteringduringconsolidationbyusingnon-conventional techniques suchas spark plasmasintering. For thepast few years,heconductedresearchinjointcollaborationwithcolleaguesfromMechanicalEngineeringDept.atMIT, USA, and Chemical Engineering Dept. at KFUPM on the development of inorganic andcompositemembranes for water treatment and water desalination by exploring techniques tosynthesizeandcharacterizethetransportofwaterandionsthroughmacro-andnano-structuredmaterials such as zeolites, alumina-based ceramics, activated carbon and graphene. He is aFellowofTheInstituteofMaterials,MineralsandMining,memberofeditorialboardofMembranesjournal,andservedasareviewer/memberofthereviewcommitteeformanyjournalsandnational/internationalconferences.Hehaspublishedover120refereedjournal&conferencepapers.
ABSTRACT:
Cleanwaterhasbecomeanimportantcommoditytoduetogrowingworldpopulation,increasingindustrialplants,anddepletionofsomeconventionalfreshwaterresourcessuchaslakes,riversand groundwater. Therefore, water filtration/purification or water reuse and desalination haveemergedaskeyssolutionstoalleviatethewatershortageproblem.Amongthevarioustechnologiesusedtoproducedrinkablewater,membranebasedtechnologiesareincreasinglyadopted,inwhichmembranes are made from polymeric materials (commercially dominant due to its maturity),ceramicsandcomposites.However,polymericmembranessufferfromlowflux,excessivefouling,andlowresistancetochlorine,whileinorganic/ceramicmembranesofferpotentiallyhighpermeateflux,highsaltrejectionandenhancedfoulingresistance.Theyareparticularlysuitableforprocesseswithhightemperaturesandharshchemicalenvironmentsduetotheirhighthermal,chemicalandmechanicalstability.Ontheotherhand,theperformanceofceramicmembranesisdictatedbytheirmorphologyincludingporesize,shape,density,anddistributionandsurfacecharacteristics,whichare crucial to control during their fabrication. In this presentation, the opportunities offered byinorganicmembranesforuseinwatertreatmentanddesalinationwillbehighlightedalongwiththeassociatedchallengesanddifficulties.TheresearchactivitiestakingplaceatKingFahdUniversityof Petroleum&Minerals (KFUPM) in this area, in collaborationwith other universities such asMassachusettsInstituteofTechnology(MIT),willbediscussed.ItisworthmentioningthatsomeofthisresearchissupportedbyKingAbdulazizCityforScienceandTechnology(KACST),aspartoftheNationalScience,TechnologyandInnovationPlan,whichgratefullyacknowledged.
Prof. Tahar LaouiProfessorMaterials & Manufacturing Engineering in Mechanical Engineering Dept., King Fahd University of Petroleum and Minerals (KFUPM) - Saudi Arabia
Session 1.2.2
The 3rd Saudi International Conference on Advanced Materials Technology 2015
15The 3rd Saudi International Conference on Advanced Materials Technology 2015
16 The 3rd Saudi International Conference on Advanced Materials Technology 2015
DAY 2 Program
The 3rd Saudi International Conference on Advanced Materials Technology 2015 17
DAY2 MAY 19TUESDAY
AMT CONFERENCE 2015
REGISTRATION 08:30 – 09:30
09:30 – 10:15Twenty Years of Innovations in Friction Stir Welding: Path Travelled and Future OpportunitiesProf. Rajiv Mishra - Professor of Metallurgical Engineering, University of North Texas - USA 09:30 – 10:15
Coffee Break 10:15 – 10:30
SESSION 2.2 ADVANCED MATERIALS FOR EXTREME CONDITIONS 10:30 – 12:00Session Chair: Dr. Nasser A. Alkhomashi - Director of the Nuclear Science Research Institute KACST - Saudi Arabia
2.1.1 Surface Reactivity and Corrosion Mechanisms of Metals at the Nanoscale Prof. Philippe Marcus - Director of Research at CNRS (Centre National de la Recherche Scientifique) and Head of the Research Group of Physical Chemistry of Surfaces, Institut de Recherche de Chimie - Paris 10:30 – 11:00
2.1.2 Property-Performance Relationships in Heterogeneous Materials Prof. Magnus Nyden - Director of The Wark Research Institute, University of South Australia - Australia 11:00 – 11:30
2.1.3 A Novel Nano Rare Earth Material: From Corrosion Protection to Novel Biomedical Antioxidants Prof. Sudipta Seal - Director of Nanoscience Technology Center (tenure granting unit) and Advanced Materials Processing Analysis Center at UCF 11:30 – 12:00
Prayer & Lunch 12:00 – 13:30
SESSION 2.3 ADVANCED MATERIALS PROCESSING TECHNOLOGIES 13:30 – 15:00Session Chair: Dr. Hamad A. Albrithen - Department of Physics and Astronomy Materials and Surface PhysicsCollege of Sciences, KSU - Saudi Arabia
2.2.1 Thermoset Based Lightweight Construction Materials Christian Dreyer - Deputy Director - Fraunhofer Research Institution for Polymeric Materials and Composites PYCO - Germany 13:30 – 14:00
2.2.2 Development of Nanostructured Composite Coatings by the HVOF Spraying Process Prof. Tahir Khan - Professor of Materials Engineering and holds the Qatar Petroleum Chair in Materials in the Department of Mechanical & Industrial Engineering, Qatar University - Qatar 14:00 – 14:30
2.2.3 Focused Beam Induced Materials Processing Prof. Patrik Hoffmann - Head of the Laboratory of Advanced Materials Processing at Empa, Swiss Federal Laboratories for Materials Sciences and Technology 14:30 – 15:00
SESSION 2.1
SESSION 2.1
SESSION 2.2
Keynote Speaker 2
18 The 3rd Saudi International Conference on Advanced Materials Technology 2015
Dr. Nasser A. AlkhomashiDirectorNuclear Science Research Institute KACST - Saudi Arabia
Prof. Rajiv MishraProfessorMetallurgical Engineering, University of North Texas - USA
Prof. Magnus NydenDirectorThe Wark Research Institute, University of South Australia - Australia
Dr. Hamad A. AlbrithenDepartment of Physics and Astronomy Materials and Surface Physics College of Sciences, KSU – Saudi Arabia
Prof. Philippe MarcusDirector of ResearchCNRS (Centre National de la Recherche Scientifique) and Head of the Research Group of Physical Chemistry of SurfacesInstitut de Recherche de Chimie - Paris
Christian Dreyer Deputy DirectorFraunhofer Research Institution for Polymeric Materials and Composites PYCO - Germany
Session 2.2.1 Session 2.2.2 Session 2.2.3Session Chairman 2.2
Session 2.1.2 Session 2.1.3Session Chairman 2.1
KeynoteSpeaker 2
Session 2.1.1
Prof. Tahir KhanProfessorMaterials Engineering and holds the Qatar Petroleum Chair in Materials in the Department of Mechanical & Industrial Engineering, Qatar University - Qatar
Prof. Sudipta SealDirectorNanoscience Technology Center (tenure granting unit) and Advanced Materials Processing Analysis Center at UCF
Prof. Patrik HoffmannHead of the Laboratory of Advanced Materials Processing at EmpaSwiss Federal Laboratories for Materials Sciences and Technology
The 3rd Saudi International Conference on Advanced Materials Technology 2015 19
Title Presentation: Twenty Years of Innovations in Friction Stir Welding: Path Travelled and Future Opportunities
BIOGRAPHY
RajivS.Mishra:Dr.Mishra(Ph.D.inMetallurgyfromUniversityofSheffield)isaProfessoratUniversityofNorthTexasfromSept.2011.BeforethatheservedasCurators’ProfessorofMetallurgicalEngineeringintheDepartmentofMaterialsScienceandEngineeringattheMissouriS&T.HeisalsotheUNTSiteDirectoroftheNSFI/UCRCforFrictionStirProcessingandaFellowofASMInternational.Hehasreceivedanumberofawardswhichinclude:theBruntonMedalforthebestPh.D.dissertationintheSchoolofMaterialsfromtheUniversityofSheffieldin1988,theYoungMetallurgistAwardfromtheIndianInstituteofMetalsin1993,AssociateoftheIndianAcademyofSciencesin1993,theFacultyExcellenceAwardsfromtheUniversityofMissouri-Rolla(2001-2007),andco-recipientofAlexanderSchwarzkopfPrizeforTechnologicalInnovationawardedtotheCenterforFrictionStirProcessingbyNSF-IUCRCDirectorsAssociation.Hehasauthoredorco-authored266papersinpeer-reviewedjournalsandproceedingsandisprincipalinventoroffourU.S.patents.Hiscurrentpublicationbasedh-indexis41andhispapershavebeencitedmorethan7100times.Hehasco-authoredabookonfrictionstirweldingandprocessing,andeditedorco-editedtwelveTMSconferenceproceedings.Heisaco-authoroffourshortbookson(1)ResidualStressesinFrictionStirWelding,(2)FrictionStirProcessingforEnhancedLowTemperatureFormability,(3)FrictionStirSuperplasticityforUnitizedStructures,and(4)FrictionStirWeldingofDissimilarAlloysandMaterials,publishedbyButterworth–Heinemann.Heserveson theeditorialboardofMaterialsScienceandEngineeringAandScienceandTechnologyofWeldingandJoining.
ABSTRACT:
Theinventionoffrictionstirweldinginvolvedastrongtechnologicalpullandtheinitialphaseinvolvedadoptionofthisinnovativetechnologyforsolidstatejoiningof‘non-weldable’highstrengthaluminiumalloys.Currentlythespectrumofapplicationsisquitewide.Thistalkwillpresentanoverviewofthepathofprogressinthelasttwentyyears.Illustrativeexampleswillbepresentedtoprovidelinkagesbetweenthecurrentstatusandchallengesforthefuturegrowth.Particularemphasiswillbeonhighstrengthaluminiumalloys,magnesiumalloys,titaniumalloysandsteels.Emergingpotentialfordissimilaralloysanddissimilarmaterialswillbehighlightedinrelationshipwiththefundamentalmetallurgicalissuesandmechanicalapproaches.Hybridprocesses that decouple theheat input frommaterial flowarebeingpursued to either overcome the limitations or expand the process domain. A very shortoverviewon frictionstirprocessingwillbe included tocapture thepotentialofderivativeprocesses.
Keynote Lecture 2
Prof. Rajiv MishraProfessorMetallurgical Engineering, University of North Texas - USA
Dr. Nasser A. AlkhomashiDirectorNuclear Science Research Institute KACST - Saudi Arabia
Session Chairman 2.1
MAY 19, 2015 - TUESDAYDAY 2
20 The 3rd Saudi International Conference on Advanced Materials Technology 2015
Title Presentation: Surface Reactivity and Corrosion Mechanisms of Metals at the Nanoscale
BIOGRAPHY
Prof. PhilippeMarcus is Director of Research at CNRS (CentreNational de la Recherche Scientifique) andHeadoftheResearchGroupofPhysicalChemistryofSurfacesofInstitutdeRecherchedeChimieParis,EcoleNationale Supérieure de Chimie de Paris, Chimie ParisTech, France. Dr.Marcus received his Ph. D. (1979)inPhysicalSciences fromUniversityPierreandMarieCurie,Paris,France. Hisfieldof research issurfacechemistry, surface electrochemistry, and corrosion science, with emphasis on the understanding of thestructureandpropertiesofmetalandalloysurfaces.Hisresearchinterestsincludethegrowthmechanismsand structure of oxide layers on metals and alloys in gaseous and aqueous environments, adsorption ofinorganic, organic and biomolecules, themechanisms of corrosion ofmetals and alloys at the nanoscale,passivity,passivitybreakdownand localizedcorrosion, initialstagesofhigh temperatureoxidation,and theapplications of advanced surface analyticalmethods such as X-ray Photoelectron Spectroscopy, ScanningTunnellingMicroscopyandSpectroscopy,andTime-of-FlightSecondaryIonsMassSpectrometry.Dr.Marcushas published over 400 papers in scientific journals, books and conference proceedings in the areas ofcorrosionscience,surfacechemistryandelectrochemistry,surfaceanalysisandmaterialsscience,plustwobooks “CorrosionMechanisms in Theory and Practice” and “AnalyticalMethods in Corrosion Science andEngineering”.Hehasgivenover100invitedlecturesatInternationalConferences.HeservesorservedontheeditorialboardoffivemajorjournalsinElectrochemistryandCorrosion:ElectrochimicaActa,CorrosionScience,MaterialsandCorrosion,CorrosionEngineering,Science,andTechnology,andCorrosionReviews.Pr.Marcushasreceivedanumberofawardsandhonors,includingthe2005UhligAwardfromtheElectrochemicalSociety,the2008WhitneyAwardfromNACEInternational,theCavallaroMedaloftheEuropeanFederationofCorrosionin2008,theU.R.EvansAwardoftheUKInstituteofCorrosionin2010,theLeeHsunAwardoftheInstituteofMetalsResearchof theChineseAcademyofSciences in2012.Hewas theD.B.RobinsonDistinguishedSpeakeroftheUniversityofAlberta,Edmonton,Canadain2013.HeisanelectedFellowoftheElectrochemicalSociety(2005)andoftheInternationalSocietyofElectrochemistry(2009).
ABSTRACT:
Thesurfaceofmaterialsofteninteractswiththeenvironment,whichmaybeagas(e.g.air)oraliquid(e.g.water). This interaction can be detrimental to the material and cause its degradation by corrosion. Thedegradationofmaterialsincorrosiveenvironmentsleadstomacroscopicmanifestations,butthemechanismsmustbeunderstoodattheatomornanometerscale.InthislectureIwillreviewvariousaspectsrelatedtotheroleofthesurfacestructureandcompositionofalloysoncorrosion,andthekeyissueofcorrosionprotectionbysurfaceoxidelayers(passivefilms).Thefollowingpointswillbeaddressed:-Theeffectofgrainboundariesandgrainboundarystructureonlocalizeddissolutionorpassivation-Theearlystagesofinteractionofmetalsurfaceswithwater-ThecompositionandstructureofpassiveoxidefilmsonmetalsandtheroleofalloyingelementsThedatathatwillbepresentedhavebeenobtainedondifferentmetalsandalloys,includingstainlesssteelsandaluminiumalloys,usingadvancedsurfaceanalyticaltechniques,X-rayphotoelectronspectroscopy(XPS),timeofflightsecondaryionmassspectrometry(ToF-SIMS),scanningtunnelingmicroscopy(STM),combinedwithelectrochemicalmethods.
Prof. Philippe MarcusDirector of ResearchCNRS (Centre National de la Recherche Scientifique) and Head of the Research Group of Physical Chemistry of Surfaces, Institut de Recherche de Chimie - Paris
Session 2.1.1
The 3rd Saudi International Conference on Advanced Materials Technology 2015
The 3rd Saudi International Conference on Advanced Materials Technology 2015 21
Title Presentation: Property-Performance Relationships in Heterogeneous Materials
BIOGRAPHY
MagnusisSwedishwithanMScfromUmeåUniversity1995andaPhDfromLundUniversityin1998inthefieldofNMRdiffusioninheterogeneouspolymersolutionsandgels.Hewasan assistant professor under the guidance of Prof. Krister Holmberg at the departmentof applied surface chemistry, Chalmers University of Technology in Gothenburg, Swedenbetween1999-03andbecameaprofessoratthesamedepartmentin2006beforemovingtoAustraliain2012.HeisthedirectorofTheWarkResearchInstituteattheUniversityofSouthAustralia, Adelaide, South Australia. TheWark is internationally recognized for colloid &interfacescienceintheareasofenergyconversion,mineralsprocessingandnanomedicine.Magnus’mainresearchinterestissoftmatterandinparticular,heterogeneousmaterialsofindustrialimportance.Hisresearchreliesofcrossingdisciplines,inparticularattheinterfacebetweenchemistry,physicsandmathematics.
ABSTRACT:
Theworldisconstantlyinpursuitofnewmaterialsandwewantasfaraspossiblesourcenaturalmaterials,withouttheneedforenergyintensiveprocessing.Wehavedevelopedanewmathematicalframeworkthatenablespredictionofmaterialpropertiesevenifthematerialsarehighlyheterogeneouswithdistributionsinmaterialpropertiesandperformance.Weshowproof-of-principleforpolydispersequantumdotsandpolymersandpointtoaapplicationsofimportancetothewiderfieldofmaterialsscience.
Session 2.1.2
Prof. Magnus NydenDirectorThe Wark Research Institute, University of South Australia - Australia
MAY 19, 2015 - TUESDAYDAY 2
22 The 3rd Saudi International Conference on Advanced Materials Technology 2015
Title Presentation: A Novel Nano Rare Earth Material: From Corrosion Protection to Novel Biomedical Antioxidants
BIOGRAPHY
ProfessorSudiptaSeal isDistinguishedProfessor at theUniversity ofCentral Florida. In 1997,hehasjoinedtheAdvancedMaterialsProcessingandAnalysisCenter(AMPAC)andMechanicalMaterials Aerospace Engineering at the UCF. Professor Seal received his BS (BTech-Hons) in(1990)fromIndianInstituteofTechnology(KGP)inMetallurgyandMaterialsEngineering,andMSinMetallurgyfromUniversityofSheffield(91-92),UK,andPh.D.fromtheUniversityofWisconsin(UWM) in Materials Engineering. After that, he joined Lawrence Berkeley National Laboratory,UniversityofCalifornia,BerkeleyandwasinvolvedinthedevelopmentofScanningtransmissionX-raymicroscopyandspectroscopyandScanningphotoemissionspectroscopy.ProfessorSealiscurrentlytheDirectorofNanoscienceTechnologyCenter(tenuregrantingunit)andAdvancedMaterialsProcessingAnalysisCenteratUCFandProfessorofMaterialsScienceandEngineeringandholdsasecondaryjointappointmentatUCFCollegeofMedicine.In2014,heiselectedasanInterimChairoftheMaterialsScienceandEngineeringDepartment.Hehasalsobeenselected toseveraldistinguished fellowshipsandawards.He is the recipientof FellowofAmericanSocietyofMaterials (FASM)andFellowof theAmericanAssociationofAdvancementofScience(FAAAS),andfellowofotherdistinguishedsocieties.Hehas44issuedpatents.
ABSTRACT:
Nanomaterials, especially rare earth oxidematerials (nano tomicro size particles), have beenshowntoeffectivelyprotectstainlesssteelsandotheralloysfromhightemperaturedegradation.However, recently we discovered the unique antioxidant properties of these rare earth oxidenanoparticles,whereitprotectsmammaliancellsagainstdamagecausedbyincreasedreactiveoxygenornitrogenspecies,andhasbeenshowntoactaseffectivesuperoxidedismutasemimeticinvitro.Theredoxabilityofrareearthoxideshasbeenusedinawiderangeofapplicationssuchas threeway catalysis, oxygen buffer systems, sensors and corrosion prevention.While thesenanostructures have beenwidely used inmany inorganic applications, their role in biology ascatalystisnotexploredfully.Thispresentationwillprovideabriefoverviewoftheapplicationsoftheseuniquenanostructuresintreatmentofdisorderscausedbyreactiveoxygenspecies(ROS).Itwasfoundthattheredoxkineticsofregenerativeoxidenanoparticlescanbecontrolledwiththetypeofmediumandtheirimplicationsinnanobiomedicineispresented.
Prof. Sudipta SealDirectorNanoscience Technology Center (tenure granting unit) and Advanced Materials Processing Analysis Center at UCF
Session 2.1.3
The 3rd Saudi International Conference on Advanced Materials Technology 2015
The 3rd Saudi International Conference on Advanced Materials Technology 2015 23
Title Presentation: Thermoset Based Lightweight Construction Materials
BIOGRAPHY
Dr.ChristianDreyer,born1971inIdar-Oberstein,Germany,obtainedhisDiplomadegreeinChemistryfromtheTechnicalUniversityofKaiserslautern,Germany,in1996withathesisaboutTriazineContainingDendrimers.HeobtainedafurtherdegreeinAnalyticsandSpectroscopyfromtheUniversityofLeipzig,Germanyin1999beforereceivinghisPh.D. inPolymerChemistry fromtheBrandenburgUniversityofTechnologyofCottbus,Germanyin2002,honoredwiththeprizeforthebestPh.D.thesis.From1996-2006heworkedasascientistattheFraunhoferInstituteforReliabilityandMicrointegrationinTeltow.In2002heworkedasavisitingscientistattheClemsonUniversity,SC,USA.Dr.Dreyerjoinedin2006theautomotivesupplierLEONI,Nuremberg,Germanyasheadofthechemical laboratoryoftheCentralResearchandDevelopmentDepartment.Since2011heisDeputyDirectoroftheFraunhoferResearchInstitutionforPolymericMaterialsandComposites,Teltow.Hisresearchinterestsaredevelopment,synthesis,characterizationandprocessingofthermosetsforlightweightconstructionand(integrated)opticalapplications.Dr.Dreyerisalsoresponsibleforalternativecuringmethodsofthermosettingresins;includingUV-curing,IR-Curing,E-BeamandMicrowave-Technology.ChristianDreyerisauthororcoauthorof75papersandhas34patents.
ABSTRACT:
Thermosetbased lightweightconstructionmaterialsareused inmany industriesduetotheirhigh(thermo)mechanical performance. However, the cross-linked structure of the thermosets, which is responsible fortheirgoodperformance,isnotalwaysanadvantage.Conventionalrecyclingandrepairmethodsareoftennotapplicableforthermosettingpolymers.Themostfrequentlyusedrecyclinganddisposalmethodsforthermosetcomposites,whicharelandfilling,burningorgrindingintoarawpowder,arenotefficient.Thestate-of-the-artrepairmethodsaremostlybasedonremovingthedamagedareabygrindingormilling,followedbystickingnewlayersevenifthecompositeisonlyde-laminated.Inthecaseofadelamination,itwouldbemoreefficienttoremovethedam-agedmatrixwithoutdamagingtheendlessfibers.ForthisreasonFraunhoferPYCOdevelopedasimple,efficientandquickrecyclingandrepairmethodforcyanate-andcyanate-epoxide-basedcomposites.Cyanatesare formedviacyclotrimerization reaction fromat leastdifunctionalcyanatemonomers,showinghighglasstransitiontemperatures,thermalsta¬bilityandhighme-chanicalstrengthaswellasalotofotherexcellentproperties.Furthermore,cyanatescanreactwithavarietyofcompounds,e.g.epoxides,givingthepossibilitytoproducepolymerswithtailor-madeproperties,forexampleforapplica¬tionsacquiringfastcuringorcuringatlowtemperatures.Regardingtotherecyclingprocess,thematrixresincanbedecomposedandfiberswithgoodpropertiescouldberegained.Therecyclingofcyanateesterscanbedoneunderrela¬tivelymild conditions (from room temperature up to 190 °C) using a special class of agents, producing triazine-containing structures, aswell as phenols. The particular recy-cling product composition and the recyclingtimedependon thespecific formu¬lationandon theparticular recyclingagent.Recycling timesbelow1harefeasible.Furthermore,thedecomposedmatrixcanbereusedinthepreparationofnewthermo¬sets,e.g.polyurethanes,epoxidesorpolyacrylateswithglasstransitiontemperaturesupto130°C.Concerningrepair,thematrixcouldbedecomposedinawell-definedareaandtheun-coveredfiberscouldbeimpregnatedwithnewresin.Bychoosingtherightagentandreimpregnationresin,themechanicalperformanceoftherepairedcompositeiscompar-abletotheperformanceofanewpart.
Session 2.2.1
Christian Dreyer Deputy DirectorFraunhofer Research Institution for Polymeric Materials and Composites PYCO - Germany
Dr. Hamad A. AlbrithenDepartment of Physics and AstronomyMaterials and Surface PhysicsCollege of Sciences, KSU – Saudi Arabia
Session Chairman 2.2
MAY 19, 2015 - TUESDAYDAY 2
24 The 3rd Saudi International Conference on Advanced Materials Technology 2015
Title Presentation: Development of Nanostructured Composite Coatings by the HVOF Spraying Process
BIOGRAPHY
Prof.TahirI.KhanobtainedhisPhDfromtheDepartmentofMaterialsScience&Metallurgy,CambridgeUniversity(U.K)in1992.HeiscurrentlyaProfessorofMaterialsEngineeringandholdstheQatarPetroleumChairinMaterialsintheDepartmentofMechanical&IndustrialEngineeringatQatarUniversity.HealsoholdsaProfessorshipattheUniversityofCalgary,CanadaandisanAdjunctProfessorwithintheFacultyofMaterialsScience&Engineering,GIKInstituteinPakistan.He is registered as a Chartered Engineer (U.K) and Professional Engineer in Canada. InrecognitiontohisresearchworkhewaselectedFellowoftheInstituteofMaterials,Mineralsand Mining (U.K) in 2004 and was awarded the Higher Doctorate of Science (Sc.D) byCambridgeUniversityin2013.
ABSTRACT:
TheabilitytodepositmicrostructuredcoatingsbytheHighVelocityOxy-fuelsprayingprocessiswellestablishedintheareaofthermalbarriercoatingsfortheaerospaceindustry,however,the applicationof this technology to the oil andgas industry is relatively new.Researchontheuseofnanostructuredmaterialsindicatesthatcertainpropertiessuchasstrength,hardnessandfracturetoughnesscanbeenhancedifananostructurewasusedinplaceofthemicrostructuredmaterialbuttheabilitytodepositnanostructuredcoatingsisrelativelynew and posses a challenge. This presentation will review the application of the HVOFcoatingtechniqueandimportantparametersusedtoproducenanostructuredcoatings.AcomparisonofthewearresistantbehaviourofmicrostructuredandnanostructuredcoatingsbasedontheWC-CocompositiondepositedonC-Mnsteelsubstrateswillbepresented.
Prof. Tahir KhanProfessorMaterials Engineering and holds the Qatar Petroleum Chair in Materials in the Department of Mechanical & Industrial Engineering, Qatar University - Qatar
Session 2.2.2
The 3rd Saudi International Conference on Advanced Materials Technology 2015
The 3rd Saudi International Conference on Advanced Materials Technology 2015 25
Title Presentation: Focused Beam Induced Materials Processing
BIOGRAPHY
After studying chemistry at the University of Karlsruhe (today KIT), Germany, Professor Patrik HoffmannstartedhisPhDthesisatEPFL,SwissFederalInstituteofTechnologyLausanne(Switzerland)in1988underthesupervisionofProf.H.vandenBerghandProfessorE.sz.Kovàtsoncontinuouswavelaserdirectwritingforrepairtechnologiesofmicroelectronicdevicesandcompletedin1992.AfterapostdoctoralfellowshipatIBMAlmadenResearchLaboratories,SanJose(USA)from1992-1993,whereheworkedongasphasephoto-dissociationprocesseswithExcimerlasersandsurfacecoatingtechnologieshereturnedtoLausanneasgroupleaderintheAppliedOpticsLaboratoryheadedbyR.P.Salathé,atEPFLfocussingonlaserinducedlocalizedchemical vapour deposition processes and improving the technologies for production of near field opticalprobes(SNOMtips).Industrialexperienceinanelectrochemicalcompanywasacquiredfrom1995-1997asdentalsectionmanageratGrammTechnik(Germany).From1997until2009hecarriedoutresearchonLaserMicro-Processing,surfacecoatings,andFocusedElectronBeamInducedProcessing(FEBIP).Since1997heisteachingonthebachelor,master,andPhDlevelinmicro-engineeringandmaterialssciencesatEPFL.In2009hebecameheadoftheLaboratoryofAdvancedMaterialsProcessingatEmpa,SwissFederalLaboratoriesforMaterialsSciencesandTechnology,continuingteachingatEPFL.Heisauthororco-authorofmorethan111peerreviewedjournalpapersandinventororco-inventorofhalfadozenpatents.
ABSTRACT:
Laserbeamsaswellaschargedparticlebeams(electrons,ions)enteredintoindustrialprocessingforcarryingout specific tasks of local energy input. From very small energy input, i.e. changing solubility of so calledresistsinmicroelectronics,throughmeltingmaterialsinweldingprocesses,tohighenergyinputinmaterialsevaporation,orifappliedinveryshortpulsesevenveryrapidablationofmaterials.Both,removalanddepositionofmaterialsbytheselocalenergysourceshavebeendeveloped.Herewefocusongenerativeprocesses,i.e.deposition ofmaterials either from solid, liquid, or gaseous precursors for growing structures. Limitationssuchasprocessingspeed,resolution,andmaterialsqualitywillbepresentedandcompared.Focusedelectronbeam induced deposition of puremetal nanostructures to laser inducedmicrostructureswill be presentedand discussedwith impact on the generative processes starting from largermaterials precursors such asmicrometricsizedpowders.Focusedelectronbeaminducedetchinganddepositionareindustrialprocessesforsemiconductormask repair.Theelectronbeamshave replacedFocused IonBeamsdue todramaticallylower interactionwith thesubstrate tobe repaired, theveryprecious lithographymasks.The latterarekeyelementsformassiveparallelmassproductionofchipsinsemiconductorindustryandsincerecentlyalsoinmobileelectronicsindustry.LaserdirectwritingbyLCVDorbylaserdepositionfromelectrolyticmetalsolutionsallowgrowingstructureswithrelativelysmallgrowthrates,duetolimitedmetalprecursorsupply.Laserweldingprocesses on the other hand are not limited bymaterials supply, but still speed limited for obtaining highqualitywelds.Thesetwoprocesslimitationswillremainthechallengesinmoderndirectlasermeltingadditivemanufacturingprocesses.Takingthecasethatthematerialssupplyissufficient,theheatmanagement, i.e.reasonableheatingratestoavoidexcessiveevaporation,keyholeformationorconductionmelting,andmicro-structure tailored cooling, have to be optimized in high quality high reliability laser generative processing.Productivity enhancement canonlybeachievedbyselectionor synthesisof idealmaterialsdestinated foradditivemanufacturing.
Session 2.2.3
Prof. Patrik HoffmannHead of Laboratory of Advanced Materials Processing at EmpaSwiss Federal Laboratories for Materials Sciences and Technology
MAY 19, 2015 - TUESDAYDAY 2
sam15.kacst.edu.sa