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Powered ByEMPOWERINGWELDERSTHE NEXT GENERATION OFWITH A MORE ENGAGING EDUCATION CURRICULUM

TRAININGSOLUTIONSTAILORED TO YOUR WORKFORCE NEEDSLearning That Makes a DifferenceDeveloped by the world leader in arc welding products, Lincoln Electric’s U/LINCconnects welding theory, practice and knowledge on the Tooling U-SME platform.Powered by Tooling U-SME’s learning management system, U/LINC promoteslearning and student engagement, while giving the instructor maximum controlover their programming.The U/LINC Advantage Flexible, CustomizableClasses Assessment Tools& Live Feedback Competency-Based,Industry-Driven Curriculum 24/7 Availability Differentiated LearningPathways & Options for AllTypes of LearnersREDUCE TURNOVER2BOOST PRODUCTIVITYON-BOARD FASTER

USER-FRIENDLY LMSSETS INSTRUCTORS UP FOR SUCCESSTHE INSTRUCTIONAL MATERIALS YOU NEED – ALL IN ONE PLACEInstructors can select a pre-built curriculum or customize their own with more than 18,000 pages ofmaterials from lesson plans and student handouts, to lab activities and PowerPoint presentations.They can also set permissions and course parameters, manage students and track their performance.200 150 150 90 90 180 70 Lesson PlansStudent HandoutsAssessmentsPPT PresentationsLab ActivitiesStudent Reference GuidesVideosEnhanced Reporting and Tracking CapabilitiesDesign Your OwnPerformance DashboardCreate-Your-OwnCompetenciesChoose YourCurriculum SequenceOrganizeStudent Groups3

CLASSROOMCURRICULUM MATERIALSWith applications for both manualand virtual (VRTEX ) welding simulations4

CLASSROOM CURRICULUM MATERIALSSubject AreaInstructorLesson stions.pdfStudentReferenceWelder Certification and Qualification Advanced Foundations of Arc Welding Advanced Variables in Welding Advanced Welding Technology Advanced Material Science in Welding Weld Discontinuities and Defects Vision and Body Position in Welding Lesson TitleSafe Working ConditionsPersonal Protective EquipmentFire SafetyInspecting and TroubleshootingSafetyAWS/ANSI Z49.1:2012 StandardElectrical SafetyThe SDS SheetArc Welding and Cutting Equipment SafetyFirst AidGMAW SafetyFoundations of Arc WeldingVariables in WeldingWelding TechnologyWelding Joints, Positions and SymbolsIdentifying Shapes and Dimensions of MetalsMaterial Science in WeldingMaterial Preparation and Fit-upPrinciplesof WeldingWelding StandardsVisual Weld Inspection PlansWeld Discontinuities and DefectsInspecting and Testing WeldsPrinciples of GMAWGMAW Shielding GasesGMAW ElectrodesGas MetalArc Welding(GMAW)GMAW Modes of Metal TransferLabActivity Advanced Waveform and Modes of Transfer GMAW Equipment and Accessories Advanced GMAW Process Controls GMAW Maintenance and Repair GMAW Aluminum Welding GMAW Stainless Steel Welding GMAW Pipe Welding 5

CLASSROOM CURRICULUM MATERIALSSubject AreaLesson TitleVision and Body Position in WeldingShieldedMetal ArcWelding(SMAW)Flux-CoredArc Welding(FCAW)GasTungstenArc rinciples of SMAWSMAW ElectrodesSMAW Evaluation and TroubleshootingInstructorLesson PlanPowerPoint ons.pdfStudentReference SMAW Maintenance and Repair SMAW Techniques SMAW Pipe Welding Vision and Body Position in Welding Principles of FCAW FCAW Electrodes and Shielding Gases FCAW Evaluation and Troubleshooting FCAW Equipment FCAW Maintenance and Repair FCAW Techniques FCAW Pipe Welding Vision and Body Position in Welding Principles of GTAW Introduction to GTAW GTAW Electrodes and Shielding Gases GTAW Techniques GTAW Equipment Advanced Power Source Variables GTAW Maintenance and Repair Line Interpretation and Basic Views Additional Views Sectioning Assembly Drawings Dimensioning and Tolerancing Additional Print Information Structural Shapes Basic Joints and Process Abbreviations Fillet Weld Symbols Groove Weld Symbols Pipe Welding Symbols Additional Weld Symbols Plasma Arc Cutting: Safety, Set-Up and Operation Principles of Oxy-Fuel Cutting

CLASSROOM CURRICULUM MATERIALSSubject AreaLesson TitleRobotics: Yesterday, Today and TomorrowSafety in the Robotics LabPower-up and Jogging of the RobotCreating and Testing Your First ProgramEditing Your First ProgramCleaning up Your ProgramCreate 2nd program: Bead Around BoxCreate 3rd program: Actual Weld on PlateRoboticsInputting Weld Procedure Values for a R301B Model RobotSetting up a Jog FrameTeach Circular Motion on a BoxWeld a CircleWeavingWait Instruction – Timer InstructionProgram Copy, Delete, Comment, Write ProtectCreating a Zero Position ProgramTeaching a Six-Point Tool Center PointProgram Editing by Using the Replace CommandHistory of CNC Plasma Arc CuttingPlasma Arc Cutting SafetyCNC Plasma Cutting MachineCNC Related Software and Coordinate SystemsG-Code ProgrammingIntroduction to Tool PathsTorchmate Driver Software – User InterfaceCNC PlasmaCuttingTest CuttingIntroduction to Torchmate CADBasic CAD ProjectImporting Images into Torchmate CADAdvanced Layout OptionsAdvanced Shape CreationImporting Files From AutoCADTracing an Image in Torchmate CADUsing the Plate Marker with ACCUMOVE VMDTroubleshootingInstructorLesson Plan mentQuestions.pdfStudentReference 7

CLASSROOM CURRICULUM MATERIALSSubject AreaManufacturingand EngineeringFabricationMathematicsin WeldingCareers8Lesson TitleIntroduction to Welding CodesUnderstanding Welder Qualification TestingUnderstanding Numbering Systems Used by Welding CodesUnderstanding Welding Procedure QualificationsBasics of Welding Code DocumentationVisual InspectionDestructive TestingNondestructive TestingReading Plans and DrawingsIntroduction to Fabrication PlansDrawing a PlanStrength of MaterialsDeveloping the Cut List and Bill of MaterialsCost AnalysisLoads and Static ForcesPrinciples of Fabrication QualityPrinciples of Project DesignMath in the Work PlaceAddition and Subtraction of FractionsAddition and Subtraction of Mixed FractionsMultiplication of Fractions and Mixed FractionsDivision of Fractions and Mixed FractionsConversion of Fractional Inch to Decimal InchAddition and Subtraction of DecimalsMultiplication and Division of the Decimal InchConversion of Decimals to Closest Fractional InchIntroduction to Dimensional AnalysisUsing Dimensional Analysis in Welding Problem SolvingConversion of Angles to Decimal DegreesCalculating Perimeter and Area of ObjectsCalculating Volume of ObjectsCalculating Material WeightsCareers in the Welding IndustryCredentials to Enhance a Career in WeldingWelding Inspector as a CareerWelding Instructor as a CareerCommunications in the Work PlaceInterviewing for a Welding PositionProblem Solving in the WorkplacePractical Living with a Welding CareerInstructorLesson Plan PowerPoint ons.pdfStudentReference

E-LEARNINGCURRICULUM MATERIALSE-LEARNING CURRICULUM MATERIALSLesson TitleLesson TitleThermal Cutting OverviewOxyfuel Cutting ApplicationsSafety for Metal CuttingWelding Fumes and Gases SafetyPPE for WeldingWelding Safety EssentialsElectrical Safety for WeldingOverview of SolderingWelding Ferrous MetalsWelding Nonferrous MetalsIntroduction to WeldingIntroduction to Welding ProcessesMaterial Tests for WeldingOverview of Weld TypesOverview of Weld DefectsWelding Symbols and CodesElectrical Power for Arc WeldingIntroduction to SMAWSMAW ApplicationsAdvanced GMAW ApplicationsGMAW ApplicationsIntroduction to GMAWBlueprint ReadingFabrication ProcessIntroduction to FCAWFCAW ApplicationsIntroduction to GTAWGTAW ApplicationsMath Fundamentals for WeldingGeometry for WeldingPlasma CuttingIntroduction to AutomationTRACKING & STUDENT ACCOUNTABILITYAdministrationStudents Ability to set permissions to manage learning Administer comprehensive testing Flexible curriculum with 24/7 accessfrom computer with internet Automated grade and tracking ofpre-tests and final exams Ability to complete at their ownpace/own time Display student’s time spent on classes and tests User-friendly system Create custom bundles of classes formulti-levels of students Review content at their convenience Reports available to track knowledge gained Audio voice-over Immediate feedback Dedicated support team(99% customer satisfaction)9

LABORATORYCURRICULUM MATERIALSWith applications for both manual and virtual(VRTEX ) welding simulationsU/LINC has provided my program a platform that allows foruniformity across all sections of our courses. We all originate fromdifferent areas in our industry, and we often approach topics andissues from different directions. With U/LINC we are able to deliverconsistent content from course to course with minimal prep time forour instructors. This is especially helpful with regards to our adjunctfaculty. The tracking metrics within Tooling U-SME and U/LINC givesus valuable data on our courses and allows us to trouble shoot areaswhere students are not grasping content. I will also add that I havenever experienced such a fantastic level of customer service as Ihave received from Tooling U-SME and U/LINC.”Brian R. Lucas, CWI, CWEProgram Chair, Welding Instructor, Welding TechnologyCentral Piedmont Community College10

LAB CURRICULUM MATERIALSProcessLesson 7018E6010E6013Stringer Bead 10 GAStringer BeadStringer Bead2F (Horizontal) T Joint 10 GA2F (Horizontal) T Joint 1/4 in.2F (Horizontal) T Joint 10 GA2F (Horizontal) T Joint 1/4 in.2F (Horizontal) T Joint 3/8 in.2F (Horizontal) T Joint 3/8 in.2F (Flat) Lap 10 GA2F (Flat) Lap 10 GA2F (Flat) Lap 10 GA3F (Vertical Up) T Joint3F (Vertical Up) T Joint 1/4 in.3F (Vertical Up) T Joint3F (Vertical Up) T Joint 3/8 in.3F (Vertical Up) T Joint 3/8 in.3F (Vertical Up) Lap 10 GA3F (Vertical Down) T Joint 10 GA3F (Vertical Down) T Joint 10 GA3F (Vertical Down) Lap4F (Overhead) T Joint 3/8 in.4F (Overhead) T Joint 3/8 in.4F (Overhead) T Joint 3/8 in.4F (Overhead) T Joint 1/4 in.4F (Overhead) T Joint 10 GA4F (Overhead) T Joint 1/4 in.4F (Overhead) Lap 10 GA4F (Overhead) Lap 10 GA1G (Flat) Groove 3/8 in.1G (Flat) Groove 3/8 in.1G (Flat) Groove 3/8 in.2G (Horizontal) Groove 3/8 in.2G (Horizontal) Groove 3/8 in.2G (Horizontal) Groove 3/8 in.3G (Vertical Up) Groove 3/8 in.3G (Vertical Up) Groove 3/8 in.3G (Vertical Up) Groove 3/8 in.4G (Overhead) Groove 3/8 in.4G (Overhead) Groove 3/8 in.4G (Overhead) Groove 3/8 in.Instructor Lesson PlanStudent ReferenceVideo 11

LAB CURRICULUM MATERIALSProcessLesson TitleGMAWShort Arc Flat Bead on Plate 1/4 in.Axial Spray Flat Stringer 1/4 in.Short Arc Flat Bead on Plate 1/4 in. 0.035Short Arc Flat Bead on Plate 1/4 in. 0.045Short Arc 2F (Horizontal) T Joint 10 GAShort Arc 2F (Horizontal) T Joint 1/4 in.Axial Spray 2F (Horizontal) T Joint 3/8 in.Pulse 2F (Horizontal) T Joint 3/8 in. 0.035Pulse 2F (Horizontal) T Joint 3/8 in. 0.045Spray 2F (Horizontal) T Joint 3/8 in. 0.052Spray 2F (Horizontal) T Joint 1/4 in.Short Arc 2F (Horizontal) T Joint 1/4 in.Pulse 2F (Horizontal) T Joint 3/8 in. 0.052Short Arc 2F (Flat) Lap 10 GAShort Arc 3F (Vertical Up) T Joint 1/4 in.Pulse 3F (Vertical Up) T Joint 3/8 in. 0.035Pulse 3F (Vertical Up) T Joint 3/8 in. 0.045Spray 3F (Vertical Up) T Joint 3/8 in.Short Arc 3F (Vertical Up) T Joint 3/8 in.Pulse 3F (Vertical Up) T Joint 3/8 in. 0.052Short Arc 3F (Vertical Down) T Joint 10 GAShort Arc 3F (Vertical Down) T Joint 1/4 in.Short Arc 3F (Vertical Down) Lap 10 GAShort Arc 4F (Overhead) T Joint 10 GAPulse 4F (Overhead) T Joint 3/8 in. 0.035Pulse 4F (Overhead) T Joint 3/8 in. 0.045Pulse 4F (Overhead) 3/8 in. T Joint 0.052Short Arc 1G (Flat) Groove 3/8 in.Axial Spray 1G (Flat) Groove 3/8 in. 0.045Axial Spray 1G (Flat) Groove 3/8 in. 0.052Pulse 1G (Flat) Groove 3/8 in. 0.035Pulse 1G (Flat) Groove 3/8 in. 0.045Pulse 1G (Flat) Groove 3/8 in. 0.052Spray 1G (Flat) Groove 3/8 in. 0.052Short Arc 2G (Horizontal) Groove 3/8 in.Pulse 2G (Horizontal) Groove 3/8 in. 0.045Pulse 2G (Horizontal) Groove 3/8 in. 0.035Pulse 2G (Horizontal) Groove 3/8 in. 0.052Short Arc 3G (Vertical Up) Groove 3/8 in.Pulse 3G (Vertical Up) Groove 3/8 in. 0.045Pulse 3G (Vertical Up) Groove 3/8 in. 0.03512Instructor Lesson PlanStudent ReferenceVideo