State-of-the-Art Training Equipment!

Introduction toHydraulics

Electro-HydraulicComponents andSystems

Service and Operationfor ImprovedHydraulic SystemsReliability

Hydraulic SpecialistCertification Review

Hydraulic SystemsModeling andSimulation forApplicationsEngineers

MILWAUKEE SCHOOL OF ENGINEERING®

FLUID POWER AND MOTION CONTROLPROFESSIONAL EDUCATION SEMINARS

2014 Register online at www.msoe.edu/seminars

You will learn fluid power and motion control technology, brand non-biased, using state-of-the-art training hardware and simulation software

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MSOE seminars offer participants theopportunity to explore technologicaldevelopments and current applications andtechniques. The programs are designed tokeep practicing engineers abreast of newdevelopments and applications, and also to provide a basicunderstanding of the technology to new entrants into the field.

On-site seminars:

MSOE seminars are available for an on-site presentation at yourcompany. The curriculum may be presented in its original formator be modified to meet your specific needs. Confidentialityprotected! For more information, contact Dr. Medhat Khalil at(414) 277-7269 or khalil@msoe.edu.

MSOE seminars:

� are based on applied research conducted by scholars.

� use state-of-the-art laboratories with industrial-size equipment.

� use a hands-on approach to reinforce the concepts presented in class.

� are applications-oriented and often customized to theindustry or companies of the seminar participants.

� are offered on the basis of strong long-term partnerships,with set objectives and outcomes.

MSOE’s seminars are unique in the industry because:

� seminar instructors are experts in their fields, includingcertified fluid power specialists, Professional Engineersand Ph.D.s.

� attendees are exposed to the latest fluid power researchand industry projects being worked on at the Fluid PowerInstituteTM.

� the professional education seminars use the latestsoftware versions of MATLAB®/Simulink® and Automation Studio inthe advanced courses.

� attendees can network and build professional relationships while benefitting from training, research and industrial projects.

Universal Fluid Power Trainer

Four identical state-of-the-art fluid power and motion control trainingunits have been developed and recently developed. The machines areuniversal, transportable, compact and are designed to be used forprofessional education programs at the customer’s site. The prototypedesign was funded by CCEFP-ERC, and has been engineered to:

� cover a variety of disciplines, including hydraulics, electro-hydraulic, pneumatic, electro-pneumatic and electro-mechanical.

� include controlled parameters: position (linear and rotary), speed(linear and rotary), pressure, force and torque.

� include a controlled axis (linear and rotary) for each discipline.

� include controlled parameters: position (linear – angular), flow(linear – angular) and pressure, force and torque.

� feature state-of-the-art software, HMI loaded with MATLAB®/Simulink®, Automation Studio and custom-made software.

� feature a hydraulic power supply and a variable displacement pump with a flexible and interactive pump control mode of the user’s choice.

� include a manual and automated setting of the maximum workingpressure and/or flow rate.

� deliver safety warnings in case of oil overheating, cavitation, lowoil level or filter clogging.

� feature an automated sub-systems test wizard.

� feature smart and interactive maintenance and troubleshooting test wizards.

For more information:Dr. Medhat K. Bahr KhalilDirector of Professional Education & ResearchDevelopmentwww.msoe.edu/seminarsTel: (414) 277-7269 • Cell: (414) 940-2232Fax: (414) 277-7470 • khalil@msoe.edu1025 N. Broadway, Milwaukee, WI, 53202-3109, USA

PROFESSIONAL EDUCATION

The Universal Fluid Power Trainer was recently redesigned and developed byMSOE to help mobilize the advanced courses to the customer site.

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2 MSOE Applied Technology Center

3 Fluid Power Institute™

4 Introduction to Hydraulics

5 Electro-Hydraulic Components and Systems

6 Service and Operation for Improved Hydraulic Systems Reliability

7 Hydraulic Specialist Certification Review

8 Hydraulic Systems Modeling and Simulation for Application Engineers

9 Seminar Matrix

10 Faculty Biographies

11 Seminar Information

12 Center for Compact and Efficient Fluid Power

13-14 Registration Form

15-16 Photo Gallery

Inside Back Directions to MSOE

TABLE OF CONTENTS

WelcomeThe incredible capabilities of software and digital computation are redefining the applications of fluidpower and motion control. Major improvements in performance are possible through excellent virtualsystem prototyping, which leads to reliable system design and manufactured products.

MSOE offers short courses and certificate education that improve the knowledge and capabilities ofengineers to effectively use these new tools. Authentic hands-on laboratory experiments using theredesigned, versatile Universal Trainer reinforce theory and simulations. These are supplemented withexcellent notes and lectures involving animation plus interactive questions and professional discussion.The very active applied research programs in MSOE’s Fluid Power Institute™, plus MSOE’s renownedacademic programs and faculty, form the basis for excellence! The academic environment ensures trueeducation independent of specific manufacturers. Advanced fluid power research in the United States isbeing conducted through the National Science Foundation and fluid power industry-sponsoredEngineering Research Center for Compact and Efficient Fluid Power, led by a consortium of universitiesof which MSOE is a member. Learn more about it online at www.fperc.org.

Help others learn about these unique seminars at MSOE. I look forward to having you visit the exciting,expanding MSOE campus.

Tom BrayDean of Applied Research

Tom BrayDean of Applied

Research

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MSOE’s fluid power seminars merge classroom theory withintense, practical laboratory sessions. The state-of-the-artlaboratory contains four advanced workstations, eachspecifically designed for the individual interested in gaining adetailed and thorough understanding of all aspects of fluidpower, including electrohydraulic system design. Seminarparticipants use servo and proportional valves in tests andsystems, and make system interconnections. Computers collectdata that facilitate the construction and analysis of feedbackcontrol systems. This Electrohydraulic Motion Control Laboratoryis not found at any other educational institution in the world.

The Applied TechnologyCenter™ (ATC) is the researcharm of MSOE. It serves as atechnology transfer catalystamong academia, business,industry and governmentalagencies. The close associationbetween MSOE and the business,and industrial community has long been one of itsstrengths; applied research serves as a renewableresource in this linkage. In addition to the FluidPower Institute (FPI) and professional education,the ATC is organized into several “centers ofexcellence:”

MSOE APPLIED TECHNOLOGY CENTER™

� Rapid Prototyping Center (RPC)� NanoEngineering Lab� Construction Science and Engineering Center� Photonics and Applied Optics Center� Center for BioMolecular Modeling (CBM)� Midwest Energy Research Consortium (MWERC)

For more information: www.msoe.edu/research

At Milwaukee School of Engineering®, theory is brought to lifeand reinforced for students through extensive integration oflaboratory experimentation. Understanding theoreticalconcepts and knowing how to apply them is key to the successof MSOE graduates. Established in 1903, MSOE has enjoyed along history of interdependence with business and industry.Industrial support in the form of scholarships, laboratories and

facilities, and involvement and counsel enables MSOE toprovide educational solutions and graduates to meet industryneeds. MSOE is a close-knit university nestled within a vibrantdowntown neighborhood. The 20-acre, user-friendly campus islocated in a historic district downtown, just blocks frombeautiful Lake Michigan.

MSOE: A UNIVERSITY THAT WORKS

ELECTRO-HYDRAULIC MOTION CONTROL LABORATORY

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FPI™ at MSOE

The FPI at MSOE is one of the leading academic fluid powerresearch laboratories in the nation. Established in 1962, FPI is aleader in motion control and fluid power education researchand evaluation.

Test and Evaluation Programs

FPI conducts testing and evaluation for some of the largesthydraulic companies in the world, including Caterpillar, JohnDeere, Husco, and Parker Hannifin, as well as system evaluationfor the U.S. military. The institute has specialized equipmentfor pump, valve, motor, cylinder and filter testing. FPI hasspecialized equipment for most hydraulic componentevaluations and has the capacity to operate a wide variety ofhydraulic components under a wide range of pressure and flowconditions. It also has the instrumentation and expertise tosafely control and monitor endurance tests 24 hours a dayseven days a week. Tests can be conducted in accordance withappropriate NFPA, ANSI, SAE, ISO and MIL standards.

Laboratory Capabilities

� Test Cell 1: 150HP, 65 gpm, 5,000 psi� Test Cell 2: 450HP, 120 gpm, 6,500 psi� Test Cell 3: 200HP, 65 gpm, 5,500 psi� Test Cell 4: 100HP, 13.5 gpm, 15,000 psi� Test Cells 5 and 6: 50HP, 8 gpm, 10,000 psi� Test Cell 7: 200HP hydraulic motion testing� 60,000 psi static burst pressure chamber� 1,000 psi filter center tube collapse chamber

Engineering Services

The key to developing a reliable, available and maintainablefluid power system is to make it an integral part of theengineering process, and to eliminate failures and failuremodes through identification, classification, analysis andremoval or mitigation. When developing fluid power systems, itis imperative to select the right activities and to conduct thoseactivities at the right time. The engineering faculty and staff atFPI are experts in fluid power, and can help you develop highlyreliable, available and maintainable fluid power systems andcomponents. We can assist in developing your fluid powerapplication from a simple design to an efficient and reliablehydraulic or pneumatic system.

Tribology Services

The FPI has been a leader in contamination analysis andfiltration technology for decades. In the 1980s, FPI pioneeredthe use of automatic particle counters in hydraulic fluidanalysis. In the 1990s, FPI pioneered the development ofsurgically clean fluids for initial-fill applications. In the 2000s,FPI was the very first to use Atomic Force Microscopy in wearparticle analysis. FPI’s role as a practitioner and educator inthese areas has truly advanced the fluid power industry. Ourcurrent research thrust incorporates the study andformulation of energy-efficient hydraulic fluids—an endeavorfunded by a grant from the National Science Foundation andindustry partners.

Many of the world’s largest equipment manufacturers use FPIto test new hoses, tubes, cylinders, coolers, reservoirs, pumps,bearings and valve assemblies to determine the type and sizeof manufacturing contamination, left in the component asreceived by the customer. Through the use of advanceddiagnostic methods such as ferrography, atomic forcemicroscopy, stereomicroscopy and laser particle imaging, earlydetection and root-cause analysis are possible.

For more information, visit www.msoe.edu/fpi.

FLUID POWER INSTITUTE™

200 HP dynamometer with electrical regeneration capabilities used fortesting energy efficient fluids.

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INTRODUCTION TO HYDRAULICS

This 27-hour seminar is designed toacquaint individuals with the fluidpower field and provide a practicalworking knowledge of this importantand growing industry. This programfeatures laboratory sessions whereparticipants will gain practical experience working with actual fluidpower components and systems.Specifically, laboratory sessions willtreat the disassembly, inspection andassembly of individual components,as well as system design examples.

Who Should Attend? This program is intended for individuals with limited exposure to fluid power, including engineers, technical sales personnel, techniciansand management personnel.

ObjectivesUpon completion, participants shouldbe able to:� identify the distinguishing features of hydraulic systems.

� recognize hydraulic componentsby symbols and read schematicsbased on ISO standards.

� analyze hydraulic circuits from a schematic drawing usinganimated schematics modeled byAutomation Studio.

� explain the operation and applications of pumps, motors,valves, cylinders, rotaryactuators and accumulators.

� utilize continuity and energy balance equations.

� understand the basic configuration and operation ofhydrostatic transmissions.

Laboratory SessionsParticipants will have an opportunityto build hydraulic circuits andanalyze data on state-of-the-arthydraulic trainers.

Topical Outline� Hydraulic systems overview.� Basic concepts review.� Hydraulic pumps and motors.� Hydraulic valves overview.� Hydraulic accumulators.� Hydraulic circuits for basicapplications.

“This seminar will help me inthe future with customers andhelp with troubleshooting.”Aaron SchaeferKTI Hydraulics Engineering

DatesI. Jan. 6-10, 2014II. May 5-9, 2014III. Nov. 17-21, 2014

Standard Fee $2,240

Early Registration Fee $2,040I. By Dec. 6, 2013II. By April 5, 2014III. By Oct. 16, 2014

Fee for Multiple RegistrantsFrom the Same Company $1,840

CEUs 2.7

InstructorDr. Medhat Khalil

ProgramDay 1 Session 9 a.m. - 4 p.m.Lunch Reception Noon - 1 p.m.

Day 2-4 Sessions 9 a.m. - 4 p.m.Lunch on your own Noon - 1 p.m.

Day 5 Session 9 a.m. - NoonBox Lunch providedContinental breakfast served daily.Beverages/snacks provided throughout the day.

LocationMSOEMilwaukee

Introduction to Hydraulics

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This 27-hour seminar is designed tocover the knowledge of electro-hydraulic components includingsolenoid operated valves,proportional valves, servo valvesand amplifiers. The seminar alsocovers the technicalities of in-fieldtuning of open-loop and closed-loopelectro-hydraulic systems. Thestate-of-the-art Universal FluidPower Trainers are used todemonstrate the theory presented.

Who Should Attend? Application engineers, systemintegrators, motion controlengineers, sales engineers, fieldengineers and end users ofelectrohydraulic components.

ObjectivesUpon completion, participantsshould be able to:� recognize the difference inconstruction, principle ofoperation and characteristicsbetween ON/OFF valves,proportional valves and servovalves.

� apply real-time control techniquefor EH systems and perform in-field tuning to adjust the systemperformance.

� read the basic electronicschematics of theproportional/servo valveamplifiers.

� make the best selection of thecomponents required to buildopen- and closed-loop electro-hydraulic control systems.

Laboratory Sessions� Circuits for on/off valveoperation.

� Electro-hydraulic pump controls.� Electro-hydraulic cylinderposition control.

� Electro-hydraulic motor speed control.

� Proportional and servo valvecharacteristics measurement

Topical Outline� Hydro-mechanical vs. electro-hydraulic solutions.

� Electro-hydraulic systemapplication.

� Switching valves—constructionand operation.

� Switching valves—circuits forbasic functions.

� Proportional valves� Servo valves.� Valve selection for an electro-hydraulic controlled actuator.

� Electro-hydraulic system designconsiderations.

� Control electronics for electro-hydraulic systems.

� Electro-hydraulic valvescommissioning and maintenance.

ELECTRO-HYDRAULIC COMPONENTS AND SYSTEMS

DatesJan. 27-31, 2014

Standard Fee $2,240

Early Registration Fee $2,040By Dec. 27, 2013

Fee for Multiple RegistrantsFrom the Same Company $1,840

CEUs 2.7

InstructorDr. Medhat Khalil

ProgramDay 1 Session 9 a.m. - 4 p.m.Lunch Reception Noon - 1 p.m.

Day 2-4 Sessions 9 a.m. - 4 p.m.Lunch on your own Noon - 1 p.m.

Day 5 Session 9 a.m. - noonBox Lunch providedContinental breakfast served daily.Beverages/snacks provided throughout the day.

LocationMSOEMilwaukee

Electro-Hydraulic Components and Systems

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“I have better knowledge of valvestructures, various valve typeresponses and how they arecontrolled, and how the valve structures work.”

Class Participant

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This 27-hour seminar focuses on thetopics that must be considered tomaximize hydraulic system reliability.The introduced topics can be broadlyclassified as service-related andoperational-related. In the servicetopics, maintenance, troubleshootingand failure analysis techniques will bediscussed. In the operational-relatedtopics, hydraulic fluids, contaminationcontrol and filtration technology willbe discussed.

PrerequisitesA fundamental understanding ofhydraulics systems and components is necessary. MSOE’s Introduction to Hydraulics seminar is an excellent preparation.

Who Should Attend?Filtration, maintenance and designengineers; fluid power salesprofessionals; multi-craft maintenancepersonnel; millwrights; pipe fitters,plumbers; mechanics; machinerymaintenance mechanics andelectromechanical repair technicians.If you’re responsible for the ongoingoperation of a fluid-power system, or ifyou manage or train workers who are,this seminar can show you what youneed to know to keep the systems upand running.

ObjectivesUpon completion, participants shouldbe able to: � identify appropriate hydraulic

fluids for given applications. � extract fluid samples from

operating hydraulic systems for fluid sample analysis.

� interpret the results of a fluid sample analysis.

� explain the effects of contaminants on hydraulic systems.

� evaluate the differences of filter ratings and specifications.

� select an appropriate filter for specific applications.

� understand cost-effective filtration.� plan and schedule hydraulic

system maintenance.� significantly reduce the system

leakage through a better handling and understanding of hydraulic systems seals and conductors.

� utilize a logical approach for hydraulic systems troubleshooting.

� identify hydraulic system failure and the approach to solve it.

Topical Outline� Hydraulic system safety.� Hydraulic fluids.� Hydraulic fluid seals.� Filtration technology and

contamination control.� Basic concepts of hydraulic

system maintenance.� Hydraulic conductors.� Hydraulic reservoirs.� Hydraulic heat exchangers.� Hydraulic measuring instrument.� Maintenance of hydraulic

cylinders.� Maintenance of hydraulic pumps

and motors.� Maintenance of hydraulic valves� Maintenance of hydraulic

accumulators.� Hydraulic components

failure analysis.� Hydraulic system

troubleshooting.

SERVICE AND OPERATION FOR IMPROVEDHYDRAULIC SYSTEMS RELIABILITY

DatesFeb. 17-21, 2014

Standard Fee $1,920

Early Registration Fee $1,820By Jan. 17, 2014

Fee for Multiple Registrants From the Same Company $1,720

CEUs 2.7

InstructorsDr. Medhat KhalilPaul Michael, CLSThomas Wanke, CFPE

ProgramDay 1 Session 9 a.m. - 4 p.m.Lunch provided Noon - 1 p.m.

Day 2-4 Sessions 9 a.m. - 4 p.m.Lunch on your own Noon - 1 p.m.

Day 5 Session 9 a.m. - NoonLunch providedContinental breakfast served on daily.Beverages/snacks provided throughout the day.

LocationMSOEMilwaukee

Service and Operation for Improved Hydraulic Systems Reliability

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“I gained a betterunderstanding ofcavitation and thedifference in oil andthe additives.”Troy DavisCharter Steel

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HYDRAULIC SPECIALIST CERTIFICATION REVIEW

Sponsored by the InternationalFluid Power Society, IFPS,http://www.ifps.org/

What is the IFPS HydraulicSpecialist Certification?It is a certification granted by IFPSbased on passing a three-hourwritten test provided and proctoredby IFPS. For more information,please visit: www.ifps.org/certification/index.htm

Objectives: It is a three day review session heldand provided by MSOE followed bythe certification exam on the fourthday. The objective of the course isto provide instructions and reviewthe basics of hydraulics to maximizethe chance of passing the exam. It isa non-CEU program, meaning MSOEwill not grant credit units or acertificate. Study material is basedon the IFPS study guide.

Who should attend?It is designed for candidates whoare involved in hydraulic systemsales, design, modeling andsupervising system operation.

Topical Outline:� Job Responsibility 1.0: Applyhydraulic circuits to performdesired tasks.

� Job Responsibility 2.0: Analyzeloads and motion.

� Job Responsibility 3.0: Selectcomponents for hydraulicapplications.

� Job Responsibility 4.0: Preparebills of material and schematics.

� Job Responsibility 5.0:Recommend fluid, fluidconductors and fluid filtration.

� Job Responsibility 6.0: Analyzeand troubleshoot hydraulicsystems.

Notes � Review session and exam can be

taken to a customer’s site for aminimum of 10 registrants.

� Please consider bringing a pencil,eraser and nonprogrammablescientific calculator. Referencehandbook will be distributed.

� Review session fee does notinclude exam fee. It is theresponsibility of the attendeesto apply for the exam, pay theexam fee at IFPS and obtainstudy manual no later than twoweeks before the review session.

� Register for the exam online atwww.ifps.org/certification/index.htmor call (800) 308-6005 x14

DatesJuly 8-11, 2014

Standard Fee $840

Early Registration Fee $790By June 8, 2014

Fee for Multiple RegistrantsFrom the Same Company $740

InstructorDr. Medhat Khalil

ProgramDay 1 Session 9 a.m. - 4 p.m.Lunch reception Noon - 1 p.m.

Day 2-3 Sessions 9 a.m. - 4 p.m.Lunch on your own Noon - 1 p.m.

Day 4 Session 9 a.m. - NoonBox lunch provided (exam day)

Continental breakfast served daily.Beverages/snacks provided throughout the day.

LocationMSOEMilwaukee

Hydraulic Specialist Certification ReviewSave with

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HYDRAULIC SYSTEMS MODELING AND SIMULATION FORAPPLICATION ENGINEERS

DatesDec. 8-12, 2014

Standard Fee $2,240

Early Registration Fee $2,040By Nov. 8, 2014

Fee for Multiple RegistrantsFrom the Same Company $1,840

CEUs 2.7

InstructorDr. Medhat Khalil

ProgramDay 1 Session 9 a.m. - 4 p.m.Lunch Reception Noon - 1 p.m.

Day 2-4 Sessions 9 a.m. - 4 p.m.Lunch on your own Noon - 1 p.m.

Day 5 Session 9 a.m. - NoonBox Lunch provided Noon - 1 p.m.Continental breakfast served on daily.Beverages/snacks provided throughout the day.

LocationMSOEMilwaukee

Hydraulic Systems Modeling and Simulation for Application Engineers

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This 27-hour seminar focuses on thetechnique of building mathematicalmodels with the least amount ofdesign parameters needed. Thistechnique is designed to helpapplication engineers who areresponsible for modeling systems atlarge. The simulation process of acomponent is based on existingdata published by the componentmanufacturer or subsystemdynamics identified experimentally.

Who Should Attend?Hydraulic component designers,application engineers, systemintegrators, electrohydraulic motioncontrol engineers, and end users offluid power components andsystems. Familiarity with Laplacetransforms, block diagrams andstate space is desirable for portions of the dynamic analysis.

ObjectivesUpon completion, participantsshould be able to:� evaluate the importance ofcomponent sizing and simulation inthe design process.

� apply principles of steady state andlimited dynamic characteristics inboth time domain and frequencydomain.

� discuss different modelingapproaches and levels for hydrauliccomponents and systems.

� discuss the differences betweensimulation packages available inthe market.

� exercise knowledge usingMATLAB®/Simulink® to buildmathematical models, define thesimulation parameters, run asimulation and analyze the results.

Laboratory SessionsThis seminar involves manylaboratory exercises includingsoftware simulation. Some of these include componentperformance capturingexperimentally, identify itsdynamics, use the identifieddynamics in building the component model.

Topical Outline� Introduction to Physical System

Modeling and Simulation.� Dynamic Systems Modeling,

Simulation and Analysis Review.� Hydraulic Components and

Systems Modeling Approaches.� Fluid Properties Modeling.� Hydraulic Conductors Modeling.� Hydraulic Pumps Modeling for

Application Engineers.� Hydraulic Motors Modeling for

Application Engineers.� Hydraulic Cylinders Modeling for

Application Engineers.� Hydraulic Valves Modeling for

Application Engineers.� EH Cylinder Position Control

System Modeling.� EH Motor Speed Control System

Modeling.

“This seminar provides severaldifferent approaches to modeling hydraulic components.”

Steven GluckSauer-Danfoss

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SEMINAR MATRIX

INTRODUCTIONTO HYDRAULICS

HYDRAULICSYSTEMS

MODELING ANDSIMULATION FORAPPLICATIONENGINEERS

� The matrix shown here suggests the sequence or paths to follow to master topics in the fluid powerfield. Depending on your background, career plans and experience, a seminar may be skipped.

� The left path provides a fundamental understanding of fluid power technology that can prepare aperson to pass the hydraulic specialist certification exam.

� The right path covers more advanced topics leading up to system design. It requires basic hydraulicknowledge and a higher-level mathematics background.

HYDRAULICSPECIALIST

CERTIFICATIONREVIEW

ELECTRO-HYDRAULICCOMPONENTSAND SYSTEMS

SERVICE ANDOPERATION FOR

IMPROVEDHYDRAULICSYSTEMS

RELIABILITY

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Dr. Medhat K. Khalilis the director ofprofessionaleducation. He has abachelor’s degree inmechanicalengineering and amaster’s degree influid power

engineering from Military TechnicalCollege and Cairo University, respectively,of Cairo, Egypt. He earned his Ph.D. inmechanical engineering from ConcordiaUniversity, Montreal, Canada. Dr. Khalil hascompleted more than 20 years ofexperience in fluid power control. Prior tojoining MSOE, he was employed as ahydraulic system simulation softwaredeveloper for CAE Inc. and an adjunctprofessor for Concordia University,Montreal, Canada. He worked for fiveyears as the technical officer and trainingmanager for Mannesmann Rexroth inEgypt. His current interest is indeveloping universal fluid power softwareand hardware controllers. Dr. Khalil is amember of education outreach of theCenter for Compact and Efficient FluidPower, has extensive experience inmodeling and simulation of hydraulicsystems and designing electro-hydraulicsystems. He is a listed consultant by theNFPA. Dr. Khalil was a recipient of the Otto J. Maha Pioneers in Fluid PowerAward in 2012. Dr. Khalil has been electedto serve as a board member and Director-at-Large for three years starting in 2014by the International Fluid Power Society(IFPS).

Paul Michael,C.L.S., is a researchchemist in MSOE’sFluid PowerInstitute. He earned his B.S. in chemistry at the University ofWisconsin-

Milwaukee and graduated with distinctionfrom Keller Graduate School ofManagement. He has more than 30 yearsof experience in the formulation andtesting of hydraulic fluids and lubricants.Paul is an STLE Certified LubricationSpecialist and chairs the NFPA FluidsCommittee. In addition to his research incontamination analysis, he is currentlyinvestigating energy efficient hydraulicfluids in the NSF funded multi-universityCenter for Compact and Efficient FluidPower. Michael was a recipient of the Otto J. Maha Pioneers in Fluid PowerAward in 2012.

Thomas Wanke’78,’96, C.F.P.E., isthe director ofMSOE’s Fluid PowerInstitute, America’sleader in fluid powertechnology researchand education. Hehas more than 40

years of experience in fluid powertechnology, 38 of which have been atMSOE. Wanke has a bachelor’s degree inmechanical engineering technology and amaster’s degree in engineering with afluid power specialty option, both fromMSOE. He has worked on projects in thefollowing areas: component and systemdesign; development and evaluation; fieldtroubleshooting and failure analysis; andfluids, filtration and contaminationcontrol. Wanke is a member of SAE and FPS. He is chairman of the NFPATechnical Board and is Educational Program Co-chairman for IFPE 2014.Tom was a recipient of the MSOE FluidPower InstituteFluid Power AchievementAward in 2012. He was a recipient of theOtto J. Maha Pioneers in Fluid PowerAward in 2011.

Dr. Daniel Williamsis a professor inMSOE’s MechanicalEngineeringdepartment. Heearned his bachelor’sdegree in mechanicalengineering from theUniversity of

Wisconsin-Platteville and his master’sdegree and Ph.D. in mechanicalengineering from the University ofWisconsin-Madison. Williams has morethan 20 years of industry engineeringexperience. He worked for two years as adesign engineer at Snap-On ToolsCorporation in Kenosha, Wis. Followinggraduate studies, Williams worked for 18years in John Deere’s Construction &Forestry Division in Dubuque, Iowa, wherehe specialized in machine systemssimulation—hydraulics, drive train, rigidbody dynamics and controls—and controldesign. Dan has also been a member ofthe full-time faculty at Loras College inDubuque, where he taught courses in theelectromechanical engineering programfor five years.

FACULTY BIOGRAPHIES

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SEMINAR INFORMATION

How to RegisterMSOE offers four convenient ways toregister: mail, phone, fax or website. Toensure maximum seminar quality,enrollment is limited. Please note thediscount applicable for registering earlyand for multiple registrations from thesame company. Advance registration isrequired and may be accomplished by:

� Registering Online at:www.msoe.edu/seminars

� Mailing Registration Form and Seminar Fee to:Applied Technology CenterMilwaukee School of Engineering1025 North BroadwayMilwaukee, WI 53202-3109

� Phone(414) 277-2492 or (800) 332-6763 x2492

� Faxing Registration Form to:Attn: Professional Education OfficeFax: (414) 277-7470

Seminar Fee IncludesThe seminar fees include a customizedseminar manual and/or textbooks,handout materials, daily continentalbreakfast, break refreshments andlunch reception.

Location and ParkingThe Applied Technology Center -Professional Education Office is located inRoom S-140 in the Allen-Bradley Hall ofScience, 432 E. Kilbourn Avenue. Accessthe building from the State Street side.

Upon receipt of your registration, youwill be mailed a confirmation letterwith specific location information.Parking is available on campus in theMSOE Milwaukee Street Lot A on thenorthwest corner of State andMilwaukee Streets (see map on last page).

Seminar Room S-100Classroom/lab dedicated forprofessional education, especially fluid power.

Cancellation PolicyMSOE reserves the right to cancel aseminar if minimum enrollment is notmet. Please be informed that paymentis due three weeks before the seminar,by credit card or by check. If paymentis not received by the due date, yourregistration is not guaranteed. Cancellations before payment due date will be fullyrefunded.

Cancellations three weeks before theseminar are subject to a $200cancellation fee with a refund of theremainder. Cancellations two weeksbefore the seminar date are subject toa $400 cancellation fee with a refundof the remainder. Cancellations oneweek before the seminar are subject toa $600 cancellation fee and theremaining funds will be used as acredit towards any future seminar(subject to availability).

PaymentPayment may be made via check(payable to MSOE), MasterCard, VISA,American Express, Discover or byforwarding a purchase order, fromwhich MSOE will invoice. A discount isapplicable for each registrant if two ormore individuals from the samecompany register at the same time orfor early registration.

Continuing Education UnitA certificate of participation will beawarded documenting the number ofcontinuing education units (CEUs)earned for participating in the seminar.One CEU is awarded for 10 contacthours. The CEU is a nationallyrecognized standard unit ofmeasurement awarded forparticipation in a continuing educationexperience under responsiblesponsorship, defined objective andqualified instruction.

What to WearDress casual and comfortable. Look upMilwaukee weather forecast to planyour trip. www.weather.com, zip code53202.

What to BringScientific Calculator

Questions?Phone: (414) 277-2492Fax: (414) 277-7470Email: learn@msoe.eduWebsite: www.msoe.edu/seminars

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The Center for Compact and Efficient FluidPower (CCEFP) is a National ScienceFoundation (NSF) Engineering ResearchCenter, funded for a five-year period with$17.5 million from NSF, $3.5 million inmembership dues from participatingcompanies, and $3 million fromparticipating universities.

The center is a network of researchers,educators, and industry working togetherto transform the fluid power industry—how it is studied, applied and taught. Fluidpower is used in a wide range ofindustries, including manufacturing,transportation, aerospace, construction,agriculture and medical devices. Nearly allU.S. manufacturing plants rely on fluidpower in their production of goods.

The work of the center will have profoundsocietal impact, bringing dramatic changeto fluid power applications now found in abroad spectrum of industries. Examples ofinnovative technology that will result fromCCEFP research include devices thatimprove mobility for the ailing and elderly,autonomous rescue and service robotsand fluid-powered portable hand tools.

Research The CCEFP has four research goals: todramatically improve the energyefficiency of fluid power in currentapplications; to improve the efficiency oftransportation by developing fuel efficienthydraulic hybrid vehicles; to develop un-tethered portable human-scale fluid powerdevices; and to make fluid power clean,quiet, safe and easy to use. The researchneeded to realize these goals is beingconducted in three coordinated thrustareas and demonstrated in five test beds.Thrust areas include Thrust 1 - Efficiency,Thrust 2 - Compactness, and Thrust 3 -

Effectiveness. Center researchis demonstrated in three testbeds: an excavator, SUV (SmallUrban Vehicle) and fluidpower-assisted orthoses.

EducationThe center's network and research enablethe development and delivery ofinnovative education and outreachprograms relevant to fluid power tomiddle and high school students,undergraduate and graduate students,engineers, industry practitioners, and thegeneral public. Some highlights: � Working with Project Lead The Way toadd fluid power content to PLTW'sengineering curriculum for middle andhigh schools, now taught nationwide.

� Revising undergraduate curriculum soall mechanical engineers understandfluid power.

� Developing specialized fluid powercourses for graduate and advancedundergraduate students.

� Building an industrial internshipprogram for undergraduate andgraduate students.

� Collaborating with the Science Museumof Minnesota in the development ofpermanent and traveling fluid powerexhibits.

� Producing a documentary on fluidpower, in conjunction with Twin CitiesPublic Television.

� Working with tribal colleges inMinnesota and Wisconsin to promoteengineering among Native Americanstudents and to provide mentoringservices.

Industrial Collaboration/TechnologyTransferMore than 60 fluid power manufacturers,distributors, and suppliers have becomesupporting members of the center—anunprecedented demonstration of industrysupport. In addition, many of thesecompanies contribute equipment andprovide project champions who activelywork with universities on project and testbed research.

Participating Institutions� University of Minnesota (lead

institution)� Georgia Institute of Technology (GT) � Milwaukee School of Engineering (MSOE)� North Carolina Agricultural and

Technical State University (NCAT)� Purdue University (PU) � University of Illinois at Urbana-

Champaign (UIUC) � Vanderbilt University (VU)

Outreach Institutions Science Museum of MinnesotaNational Fluid Power AssociationProject Lead The Way

Visit www.ccefp.org for moreinformation.

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Mail or fax to:Applied Technology Center™ Phone: (414) 277-2492Milwaukee School of Engineering Fax: (414) 277-74701025 North Broadway Email: learn@msoe.eduMilwaukee, WI 53202-3109

Please enroll the individual(s) listed below in: Fee:

� Introduction to Hydraulics� Jan. 6-10, 2014 � May 5-9, 2014 � Nov. 17-21, 2014 ___________

� Electro-Hydraulic Components and Systems � Jan. 27-31, 2014 ___________

� Service and Operation for Improved Hydraulic Systems Reliability� Feb. 17-21, 2014 ___________

� Hydraulic Specialist Certification Review� July 8-11, 2014 ___________

� Hydraulic Systems Modeling and Simulation for Application Engineers� Dec. 8-12, 2014 ___________

For free seminars please go to www.msoe.edu/seminars

1. _____________________________________________________________________________________________________________Name (Dr./Mr./Mrs./Ms.)

_____________________________________________________________________________________________________________ Title Email

2._____________________________________________________________________________________________________________Name (Dr./Mr./Mrs./Ms.)

_____________________________________________________________________________________________________________ Title Email

_____________________________________________________________________________________________________________ Company

_____________________________________________________________________________________________________________ Company address

_____________________________________________________________________________________________________________ City/State/Zip

(________)__________________________________________________ (_________ )______________________________________________________________Company telephone Fax

Seminar fee(s) of ___________ are enclosed. (Make check payable to MSOE)

� Company purchase order enclosed. Please invoice accordingly. PO# _____________________________________

� Charge seminar fee(s) of $ ___________ to � MasterCard � VISA � Discover � American Express

Account number ___________________________________________________________ Expiration date ________________________

____________________________________________________________________________________________________________________________Signature

Register early or enroll multiple registrants for discounted fees. (Additional registration form on back. For moreparticipants or future registrations, please make copies.)

REGISTRATION FORMDate __________________________________

�Register Online atwww.msoe.edu/seminars

Save withEarly MultipleRegistration

14 �

Register Online atwww.msoe.edu/seminars

Save withEarly MultipleRegistration

Mail or fax to:Applied Technology Center™ Phone: (414) 277-2492Milwaukee School of Engineering Fax: (414) 277-74701025 North Broadway Email: learn@msoe.eduMilwaukee, WI 53202-3109

Please enroll the individual(s) listed below in: Fee:

� Introduction to Hydraulics� Jan. 6-10, 2014 � May 5-9, 2014 � Nov. 17-21, 2014 ___________

� Electro-Hydraulic Components and Systems � Jan. 27-31, 2014 ___________

� Service and Operation for Improved Hydraulic Systems Reliability� Feb. 17-21, 2014 ___________

� Hydraulic Specialist Certification Review� July 8-11, 2014 ___________

� Hydraulic Systems Modeling and Simulation for Application Engineers� Dec. 8-12, 2014 ___________

For free seminars please go to www.msoe.edu/seminars

1. _____________________________________________________________________________________________________________Name (Dr./Mr./Mrs./Ms.)

_____________________________________________________________________________________________________________ Title Email

2._____________________________________________________________________________________________________________Name (Dr./Mr./Mrs./Ms.)

_____________________________________________________________________________________________________________ Title Email

_____________________________________________________________________________________________________________ Company

_____________________________________________________________________________________________________________ Company address

_____________________________________________________________________________________________________________ City/State/Zip

(________)__________________________________________________ (_________ )______________________________________________________________Company telephone Fax

Seminar fee(s) of ___________ are enclosed. (Make check payable to MSOE)

� Company purchase order enclosed. Please invoice accordingly. PO# _____________________________________

� Charge seminar fee(s) of $ ___________ to � MasterCard � VISA � Discover � American Express

Account number ___________________________________________________________ Expiration date ________________________

____________________________________________________________________________________________________________________________Signature

Register early or enroll multiple registrants for discounted fees. (Additional registration form on back. For moreparticipants or future registrations, please make copies.)

REGISTRATION FORMDate __________________________________

15� 15

1616

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Air Travel to MilwaukeeBook your own flight to MitchellInternational Airport (Airport Code: MKE),it is a 15-minute taxi ride to downtownMilwaukee.

Driving Directions to MSOEFrom the northTake I-43 south to downtown Milwaukee.Then take Hwy 145 east/McKinley Avenueexit (exit # 73 A). Turn left (east) onMcKinley; proceed for six blocks. Turnright on Broadway to the specificbuilding or parking lot on campus.

From the southTake I-94 west/I-43 north to downtownMilwaukee. Continue north on I-43, thentake Hwy 145 east/McKinley Avenue exit(exit # 73 A). Proceed on McKinley for sixblocks. Turn right on Broadway to the specific building or parking lot on campus.

From the westTake I-94 east to downtown Milwaukee;then take I-794; exit Jackson/Van Buren(exit # 1 E). Proceed north on Van BurenStreet seven blocks to State Street; turnleft. Follow State Street to the specificbuilding or parking lot on campus.

Look for signs at parking lot entrancesfor a campus map.

Exciting Metropolitan SettingMilwaukee is one of the largest cities inthe country with a metropolitanpopulation of approximately 1.7 millionresidents, yet maintains the intimacy of asmaller community. MSOE’s 20-acrecampus, located in historic East Town, avibrant downtown community, is justblocks from beautiful Lake Michigan, thetheater district, museums, sports andmusic venues, parks and shopping. Thecity also stages more than 50 majorfestivals and other public gatheringsannually.

Where to StayThe following hotels are within a ten-minute walking distance to the seminarlocation. Mention MSOE when makingreservations to receive a reduced rate.These hotels are served by airportshuttles from Milwaukee’s MitchellInternational Airport.

Hyatt Regency Milwaukee (414) 276-1234(800) 233-1234333 W. Kilbourn Ave.$119 plus tax per nightwww.hyatt.com

The Astor Hotel(414) 271-4220924 E. Juneau Ave.$69 per week night plus taxwww.thehotelastor.com

More information, visit: www.msoe.edu/seminars

DIRECTIONS TO MSOE

NonprofitOrganizationU. S. Postage

PAIDMilwaukee, WIPermit No. 2993

Professional EducationApplied Technology Center™

Milwaukee School of Engineering1025 North BroadwayMilwaukee, WI 53202-3109

MSOE

Visit Milwaukee • www.milwaukee.org