INTRODUCTION An engineer applying for registration as a professional engineer, besides having to hold an approved degree or qualification listed in the Professional Engineers (Approved Qualifications) Notification or other proper and recognised academic qualifications in engineering and satisfies such conditions as the Professional Engineers Board, Singapore may determine and acquiring not less than 4 years' of relevant practical experience, is also required to sit and pass the Fundamentals of Engineering Examination and the Practice of Professional Engineering Examination. This preparatory course will cover all the topics stipulated for the Fundamentals of Engineering Examination for Mechanical Engineering and will be delivered by experienced professors and lecturers from tertiary educational institutions. OBJECTIVES This preparatory course is aimed to help applicants in their preparation for the Fundamentals of Engineering Examination for Mechanical Engineering by providing revision of all the topics stipulated.

PREPARATORY COURSE FOR

PE FUNDAMENTALS OF ENGINEERING EXAMINATION (MECHANICAL ENGINEERING)

Date : 15 July – 24 August 2019 Duration : 54 Hours (15 Sessions) Time : Please refer to Programme Schedule at Page 6 Venue : To Be Confirmed

CET accredited hours : 54 CET hours (To confirm) Fees * : $1,498 (IES Member), $1,712 (Non-Member)

Inclusive of 7% GST and course materials.

Certificate of Attendance will be given to participants with 100% attendance

PROGRAMME DETAILS

COURSE TOPIC ME 101/201 Control And Instrumentations

Modelling of Linear Systems Introduction to control systems. Mathematical modelling of electro-mechanical systems. Transfer functions representation of physical components. Block diagram manipulation. Dynamic Response Analysis Transient response analysis and performance indices. Poles and zeros concept, dominant pole concept of high order systems. Characteristic equation. Steady state errors and system types. Principles of Feedback Control Open loop versus closed loop control. Analysis of system type. Error elimination and disturbance rejection. Types of feedback systems. PID controller. Stability and Routh-Hurwitz method. Root Locus Techniques Qualitative analysis of the Root Locus. Guidelines for sketching a Root Locus. General concepts of dynamics compensator design. Design by Root Locus: PI, PD, PID, Lead and Lag compensators. Feedback compensation and realisation. Frequency Domain Analysis Concept of frequency response. Bode plots. Nyquist plot and Nyquist stability criterion. Stability margins. Closed loop frequency domain characteristics. Design of compensator via Bode plots - Lead, Lag & Lag-lead controller. Design examples. Measurement System (Analog and Digital) Models and classification for measurement systems and their time and frequency domain behaviours. Performance specifications. Sensors Measurement for common engineering applications: position, speed, stress, strain, temperature, vibration and acceleration, pressure and flow. Semiconductor sensors and micromechanical devices. ME 103/203 Fluid Mechanics

Basic concepts Understanding fluids as compared to solids and gases. Properties of fluids: Density, pressure and viscosity. Pressure measurements. Buoyant forces and Archimedes’ Principle. Stability of submerged and floating bodies. Stability of a ship. Fluid Motion Real and ideal fluids. Momentum and forces in fluid flow: Continuity equation, momentum equation, energy equation, Bernoulli’s equation. Pipe Flow Laminar and turbulent flows in pipes. Moody diagram, losses and fittings, energy equation for real laminar flow in pipes. Equation of motion for turbulent flow. Mixing length hypothesis. Fully turbulent flow in pipes. Head and flow calculations in pump-piping systems. Fluid Machinery Fundamental theory and performance. Pumps and fans, turbines: Concepts and performance characteristics. Cavitation and surge phenomena.

Flow Resistance and Propulsion Boundary layer, surface roughness, form drag. Water jet theory: Basic principle, fundamental thrust equation. Ship propulsion: Introduction to propulsion system, powering of ship, propeller theory, propeller-hull interaction. ME 104/204 Mechanics And Materials

Material properties and behaviour Yield and ultimate tensile stress, proof stress, elastic modulus. Yield and Strength failure criteria- Tresca and Von-Mises. Temperature effects- temperature expansion coefficient, creep and stress relaxation. Post-yield effects- elastic-plastic, bilinear hardening and strain hardening. Fatigue effects- S/N curves. Stress and Strain Basic stress and strain for elastic bodies- direct stress and strain, shear stress and strain, Mohr's circle. Stress and Strain transformations - two and three-dimensional, 4 elastic constants E, ν, k and G. Bending of beams Second moments of area of structural sections, Free body, shear force and bending moment diagrams. Elastic and inelastic bending of beams. Combined tension and bending of beams, Deflection and slopes of beams. Shear stress in beams, Statically indeterminate beams. • Bending of plates and cylindrical shells Symmetric membrane bending theory of circular plates and shells under fixed and freely supported boundaries. Discontinuity stresses of cylinder to flat, cone or hemispherical shells junctions. Torsion of prismatic bars and closed sections Torsion of circular solid section and open thin walled sections, shear stresses and deformation, shear flow in thin walled open and closed sections. Buckling of columns Euler buckling theory, perfect and imperfect columns, effect of end fixings on critical buckling loads. Thermal loading Thermal stresses in beams and cylinders due to a through thickness temperature gradient, thermal stresses in compound bars of different materials under uniform temperature. Internal pressure loading Membrane theory, thin and thick walled cylinders under pressure. ME 105/205 Manufacturing Technology

Machining Cutting tool materials. Single and multi-point tools. Types of wear. Manufacturing processes: cold and hot working, rolling, extrusion, forging, sheet and metal blanking and forming, cold forming, welding, brazing, soldering, casting, powder metallurgy, plastics technology. Non-conventional machining: electro-discharge machining. Sheet Metal Forming Introduction to machine tools and machining operations – Generating motions of machine tools, machines using single point tools, machines using multipoint tools, machines using abrasive

wheels. Mechanics of metal cutting – Chip formation, forces acting on the cutting tool and their measurement, the apparent mean shear strength of the work material, chip thickness, friction in metal cutting. Cutting tool materials – Major tool material types. Tool life and tool wear – Forms of wear in metal cutting. Economics of metal cutting operations – Choice of feed, speed and depth of cut, tool life for minimum cost and minimum production time, estimation of factors needed to determine optimum conditions. Metrology Basic measuring instruments and their applications (Linear and angular measurement, roundness, flatness and surface finish measurement). Welding and joining Introduction to cold and hot working. Rolling - 2, 3 and 4-high rolls, cluster and planetary rolls, manufacture of blooms, billets and slabs. Extrusion - Direct and indirect extrusion, hollow extrusion, hydrostatic extrusion. Forging - Hammer, press, roll forging, open and closed die forging. Sheet metal bending and deep-drawing, punch load, drawability, Crane's constants. Shearing of sheet metal - types of shearing operation, punch and die clearance, punch force. Cold forming processes - Marforming, Guerin process, hydroforming. Welding, brazing, soldering - Arc and gas welding, pressure welding, MIG, TIG, submerged-arc, friction, resistance, laser and electron-beam welding. Casting - Sand casting, patterns, defects, die-casting, centrifugal casting, investment casting, continuous casting. Powder metallurgy - Production of powders, fabrication processes, sintering, comparison with other processes. Electro-discharge machining. Plastics technology – Properties of plastics, thermoplastics and thermosets, manufacturing of plastics. ME 106/206 Thermodynamics And Heat Transfer

Thermodynamics - Fundamental concepts Simple concept of thermodynamic system. Types of energy interaction between system and surroundings. Properties of simple pure substances –understand the general form of property diagrams. Empirical temperature scales and thermometry. Ideal and perfect gases. Use of steam tables for substance such as water. First Law of Thermodynamics The concept of fully-resisted or quasi-static processes; work and heat interactions in adiabatic boundaries with the introduction of internal energy, kinetic, potential and enthalpy. Statement of the First law of Thermodynamics: applications relating to non-flow and simple unsteady flow (e.g., the filing of a rigid vessel) processes. First law applied to simple thermodynamic plants, e.g. power plant, compressors and expanders (without detailed knowledge of plant construction). Steady flow energy equation and its application to demonstrate the significant of enthalpy changes. Second Law of Thermodynamics Alternative statements of the Second Law. Reversible and irreversible processes. Internal and external irreversibility. Heat engines operating in temperature reservoirs and the efficiency of reversible engines. Entropy as a property and its relationship to heat transfer. The Clausius inequality. Isentropic and non-isentropic processes. Heat Transfer - Conduction Heat transfer by conduction. Steady-state conduction through slab, compound walls, cylinders and spheres. Unsteady state conduction in homogeneous solids. Convection Heat Transfer - Convection Heat Transfer by convection, in fluids and films. Overall heat transfer coefficients. Natural and forced convection on plane surfaces, fins, pipes and around round bundles. Heat transfer in extended surfaces- combining conduction and convection.

Heat Transfer - Radiation Heat transfer by radiation. Laws of radiant heat transfer, black and gray bodies, geometric factors, absorptivity and emissivity. ME 102/202 Dynamics And Vibrations

Kinematics of Particle Uniform rectilinear motion; Uniform accelerated rectilinear motion; Rectangular components of velocity and acceleration; Motion relative to a frame in translation; Tangential and normal components; Radial and transverse components. Newton’s second law; Equations of motion; Angular momentum of a particle; Principle of conservation of energy; Principle of conservation of momentum. Kinematics of Rigid Bodies General plane motion; Coriolis acceleration. Equations of plane motion for a rigid body; Angular momentum of a rigid body in plane motion; Principle of work and energy for a rigid body; Principle of impulse and momentum for the plane motion of a rigid body; Conservation of angular momentum. Vibration Without Damping Simple harmonic motion; Energy method; forced vibration. Damped Vibration Damped free vibration; Damped forced vibration.

PROGRAMME SCHEDULE

Date Time Module Trainer Venue

15 July 2019 (Mon)

6.30pm – 9.30pm ME 106/206 Thermodynamics And Heat Transfer

Dr. Wong Teck Neng

TR48 17 July 2019 (Wed)

19 July 2019 (Fri)

26 July 2019 (Fri)

6.30pm – 9.30pm ME 103/203 Fluid Mechanics

Dr. Yeo Joon Hock

TR48 27 July 2019 (Sat)

10am – 5pm

29 July 2019 (Mon)

6.30pm – 9.30pm ME 105/205 Manufacturing Technology

Dr. Zhou Wei To Be Confirmed 30 July 2019 (Tue)

31 July 2019 (Wed)

03 Aug 2019 (Sat)

10am – 5pm ME 104/204 Mechanics And Materials

Dr. Tan Soon Huat

To Be Confirmed

05 Aug 2019 (Mon)

6.30pm – 9.30pm

13 Aug 2019 (Tues)

6.30pm – 9.30pm ME 101/201 Control And Instrumentations

Dr. Michael Lau Wai Shing

To Be Confirmed 14 Aug 2019 (Wed)

16 Aug 2019 (Fri)

23 Aug 2019 (Fri)

6.30pm – 9.30pm ME 102/202 Dynamics And Vibrations

Dr. Yap Fook Fah To Be Confirmed

24 Aug 2019 (Sat)

10am – 5pm

*Subjected to minor changes once the university teaching schedules are out in July.

Training Locations: - To Be Confirmed -

CV OF SPEAKERS Dr. Lau Wai Shing, Michael

Associate Professor Nanyang Technological University School of Mechanical & Aerospace Engineering Dr. Lau graduated from National University of Singapore with a B.Eng (1st class honours) in Mechanical Engineering in 1980. He continued to pursue his master’s degree and graduated in 1984 with a M.Sc in Mechanical Engineering. He then proceed on and obtain his PhD (Mechanical) qualification from Auston University, UK. From 1980 to 1981, Dr. Lau held a position of Control Engineer in Defence Science Organisation, Ministry of Defence School of MAE. He was employed as an Instrumentation Design Engineer with Brown & Root Far East Engineering (S) from 1981 to 1984. Dr. Lau joined the School of Mechanical & Aerospace Engineering, Nanyang Technological University, in 1984 and is currently as Associate Professor in the school. Dr. Lau’s main research areas involved underwater robotics vehicles, vibration and motion control. He has published 24 journal papers, 27 conference papers and has 4 book chapters to date.

Dr. Wong Teck Neng

Associate Professor Nanyang Technological University School of Mechanical & Aerospace Engineering Dr. Wong Teck Neng received his Ph.D in Mechanical Engineering, University of Strathclyde, UK in 1990. He is currently an Associate Professor in the School of Mechanical and Aerospace Engineering, Nanyang Technological University, Singapore. He teaches heat transfer and thermodynamics. His main research areas focus on two-phase flow and heat transfer, flow boiling phenomena, two-phase in evaporator, condenser and capillary tube expansion devices, heat driven pump and pulsating heat pipe for electronic cooling, two-fluid electroosmotic flow in microfluidic devices. He is the author and co-author of some 100 technical publications in referred international journals and conference proceedings. He has currently 3 patents, author and co-author of four book chapters. Dr. Tan Soon Huat

Associate Professor Nanyang Technological University School of Mechanical & Aerospace Engineering A/P Tan graduated from University of Strathclyde, UK, with a B.Eng (1st class honours) in Mechanical Engineering in 1987. He continued to pursue his PhD with the same university and graduated in 1991 with a PhD in Mechanical Engineering. From 1980 to 1983, he held a position of Senior Foreman in Brunei Shell Petroleum Co Ltd. He was employed as an Engineering Assistant with CMP Consultants Pte Ltd from 1983 to 1985. A/P Tan joined the School of Mechanical & Aerospace Engineering, Nanyang Technological University, in 1991 and is currently as Associate Professor in the school. He is the lecturer and coordinator of the Mechanics of Materials course for more than 10 years. A/P Tan was awarded the Teacher of the Year 1995 (School of Mechanical & Aerospace Engineering) and again in 2003 (College of Engineering, Year 2). For the past 5 years. A/P has conducted the course on Aircraft Structural Analysis to aircraft maintenance officers of RSAF at the Air Force School under the CAPE programme.

Dr. Zhou Wei

Associate Professor Nanyang Technological University School of Mechanical & Aerospace Engineering Dr Zhou was trained as a mechanical engineer in Department of Mechanical Engineering, Tsinghua University, Beijing and obtained BEng in 1985. Later he was trained as a materials scientist in Department of Materials Science & Metallurgy, University of Cambridge and obtained PhD from Cambridge in 1991. After working for one year in Fraunhofer Institute for Mechanics of Materials in Freiburg, Germany, he came to work in NTU in 1992. In 2002 he took sabbatical leave in Harvard University as a Visiting Scholar in Applied Physics. He has been lecturer of many courses including Manufacturing Technology & Materials, Materials Engineering, and Fracture & Fatigue. In addition to academic pursuits, Dr Zhou Wei has worked closely with industry to provide consultancy service and helped many companies solve problems of corrosion and structural failures. Currently, he is Chairman of Welding Technology Committee of Singapore Welding Society and Chairman of National Committee (Singapore) on ISO/TC 44 Welding and Allied Processes. Dr. Yeo Joon Hock, Tony

Associate Professor Nanyang Technological University School of Mechanical & Aerospace Engineering Dr. Yeo first received his diploma in Singapore Polytechnic in 1977. He then went on to obtain his B.Sc degree from University of Strathclyde, UK in 1984. He continued to pursue his PhD from Imperial College, University of London, UK and graduated in 1990. From 1980 to 1982, Dr. Yeo was a technician in Brunei Shell Petroleum Co Ltd. He was then employed as an Engineering with Esso Refinery, Singapore from 1984 to 1986. Dr. Yeo joined Nanyang Technological University in 1990 and currently holds a position of an academic advisor in the university. Dr. Yap Fook Fah

Associate Professor Nanyang Technological University School of Mechanical & Aerospace Engineering Yap Fook Fah obtained his BA and PhD in 1989 and 1993, respectively, from Cambridge University, UK. Currently, he is an Associate Professor in the School of Mechanical and Aerospace Engineering, NTU. Apart from teaching vibration and dynamics in the University, he is also actively involved in research, and has done consulting and industry-related project work for companies. His main area of research is structural vibration testing and analysis of vibration transmission in complex structures.

Registration Form

PREPARATORY COURSE FOR PE FUNDAMENTALS OF ENGINEERING EXAMINATION (MECHANICAL ENGINEERING) Date : 15 July – 24 August 2019

Time : Refer to Programme Schedule at Page 6

Venue : To Be Confirmed

CET accredited hours : 54 CET Hours

Fees * : $1,498 (IES Members), $1,712 (Non-Members)

Please register online or email the completed form by 29 June 2019 before 3pm to:

Attn: Sean Ng IES Academy@Jurong East

80 Jurong East Street 21 #04-10

Singapore 609607 (Tel) 6463 9211 (Email) Sean Ng@iesnet.org.sg

Participant Details

Name : NRIC : ______________

(As per NRIC)

Company : Designation:

Address 1 : __________________________________

(For mailing of invoice and receipt)

Address 2 : ________________________________________________________________________________

(For mailing of Certificate)

Postal Code : __________________________________ Gender : __________Male / Female___________

Mobile No. : Fax : _________________________________

Email : ________________________________________________

(For sending of confirmation email)

Please indicate : IES members IES M’ship No.: P.E. No.: __________________ (if applicable)

Non-members Vegetarian Meal

Contact Person Details (if different from participant)

Name : Designation: ________________________________

Tel : Fax: ____________________________________

Email :

Payment Details

Bank / Cheque No.: Amount ($): ___

Sponsored by company

* All Fees are inclusive of 7 % GST.

Cheque should be made payable to: “Engineers Singapore Pte Ltd”.

Acceptance of Terms and Conditions for Registrations of IES Academy’s Events I agree to abide by the Terms and Conditions for Registration of IES Academy’s Events.

Name : Signature :

TERMS & CONDITIONS COURSE REGISTRATION

Registration

Any registration, whether on-line or fax will be on a first-come-first-served basis and will only be confirmed upon receipt of full payment by Engineers Singapore Pte Ltd unless otherwise invoice to company. All registrations must be submitted with duly completed registration form. Closing Date & Payment The closing date of the event will be 1 week prior to event commencement date or earlier. Cheque should be crossed ‘A/C payee only’ and made payable to ‘Engineers Singapore Pte Ltd’, with the Title of The Event indicated clearly written on the back of the cheque, and submitted with the duly completed registration forms to:

Attn: Sean Ng

IES Academy@Jurong East Devan Nair Institute for Employment and Employability,

80 Jurong East Street 21, #04-10 Singapore 609607

Confirmation of Registration

Confirmation of registration will be given at least 1 week before the commencement date via email. If you do not receive the said confirmation email, you are required to contact IESA at 6463 9211 during office hours. IESA reserves the right to allow only confirmed registrants to attend the Event. Withdrawals/Refunds of Fees

Written notice at least 1 week in advance before the commencement of the event

Full course fee shall be refunded subjected to 4.5% transaction charge.

NO refund otherwise.

No show of participant will neither be accepted as a valid reason for withdrawal nor refund.

One time replacement is allowed only if written notice is received by us at least 1 week before the commencement of the event. However, when an IES member is replaced by a non-member, the participant has to pay the difference in the relevant fees. Cancellation/Postponement

Changes in Venue, Dates, Time and Speakers for the Events can occur due to unforeseen circumstances. IES reserves the full rights to cancel or postpone the Event under such circumstances without prior reasons. Every effort, however, will be made to inform the participants or contact person of any cancellation or postponement. Fees will be refunded in FULL if any Event is cancelled by IESA. PERSONAL DATA PROTECTION ACT I consent to the processing by Institution of Engineers, Singapore of personal data, including sensitive personal data as defined in the Data Protection Act 2014, about me for the proper purposes of Institution of Engineers, Singapore (IES). I undertake to observe the provisions of the Data Protection Act 2014 in relation to any personal data I may myself hold and process as a Members of Institution of Engineers, Singapore, and I agree to indemnify Institution of Engineers, Singapore from liability for any claims or damages that may arise from the processing of this data. For more information kindly refer to: www.ies.org.sg/PDPA. Enquiries For further enquiries, please contact IESA general office at Tel: 6463 9211.