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Home Explore SGUS for Additive Manufacturing (Spreads)

SGUS for Additive Manufacturing (Spreads)

Published by SIMTech, 2021-04-23 08:46:56

Description: Programme Information
This is a 9-month course.

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PRE-REQUISITES Get Paid & Upskill while you look for a job! Only Singaporeans and Singapore Permanent Residents aged above 21 years old who are unemployed or Join the SGUNITED SKILLS (SGUS) FOR retrenched and can commit to the SGUS courses on a full-time basis are eligible to apply for the SGUS programme. ADDITIVE MANUFACTURING and receive a In addition, the target trainees for the SGUS courses will exclude the following: training allowance of $1,200 per month a) Graduated or graduating in Calendar Year (CY) 2019 / 2020 from ITE, Polytechnics, Universities, and other educational institutions. This includes graduates from private universities as well as overseas institutions; and ABOUT THIS COURSE . b) Graduated from the educational institutions mentioned in (a) and completed or completing their National Service Additive Manufacturing (AM) is identified as the BENEFITS (NS) in CY 2019 / 2020 and are entering the labour force. future manufacturing for operations that require short time-to-market builds, unique design requirements and • Get paid while you upgrade and upskill yourself Applicants should possess a degree in any discipline or a diploma with a minimum of 3 years of related working low volume-high mix production runs. With the growing with a training allowance of $1,200 per month. experience. adoption of AM, there is a need for a more skilled talent • Course fee is heavily subsidised at only pool in the market. $750 (actual > $30K) for the whole period. Applicants who do not have the required academic qualifications are still welcome to apply, but shortlisted candidates may be required to attend an interview for special approval. This programme aims to train participants with a • Attain a Graduate Diploma and/or Certificates holistic understanding of the AM concept and when you complete the individual modules. CONTACT US fundamentals, data mining, IIoT-enabled monitoring, and AM practical skills in line with digitalisation towards • Trainees may exit the programme whenever a For technical enquiries, please contact: For general enquiries, please contact: Industry 4.0 for all major industry sectors. It will cover job opportunity arises, as the SGUS programme Dr Sharon Nai, Mr Tan Lye King, principles, methodologies, design for manufacturing, is conducted in a modular format. industry standards, quality assurance, industry case Deputy Division Director Senior Industry Development Manager studies and usage of specific 3D AM technologies and • Learn and journey with our SIMTech scientists Email: [email protected] systems, along with an understanding of the necessary who will provide hands-on training with Email: [email protected] post-processing of AM products, which are critical in the manufacturing of customised and complex 3D parts. state-of-the-art equipment & laboratories. SCAN THE QR CODE SCAN THE QR CODE • Work on an industry project with your  TO REGISTER NOW TO WATCH THE SIMTech’s SGUnited Skills (SGUS) Programme is a  potential employer even before getting hired. full-time Train & Place programme of  • Boost your employability for future job COURSE BRIEFING 9 months duration. opportunities with real-world industrial experiences. In support of: • More than 5,000 PMETs have  attended or completed our courses. Connect with us • Embark on our Learn-Practise-Implement (LPI) Knowledge Transfer Office: pedagogy when you journey with us. (@KTOSingapore) • Employers are incentivised to hire you as a SGUS trainee. SCAN THE QR CODE TO FIND OUT MORE SINGAPORE INSTITUTE OF MANUFACTURING TECHNOLOGY 04/2021 Visit our website for FAQs and Terms & Conditions. Knowledge Transfer Office 2 Fusionopolis Way, Innovis, #08-04, Singapore 138634 Tel: (65) 6590 3193 :: Email: [email protected] Website: www.a-star.edu.sg/SIMTech/KTO

LEARN PRACTISE & IMPLEMENT™ FEE & MODULES OUTLINE $750 Nett Course Fee & $1,200 Monthly Training Allowance 10 modules for completion under the  TECHNICAL SKILLS MODULES (”LEARN & PRACTISE”) SGUS FOR ADDITIVE MANUFACTURING specialisation Data Mining for Correlation Analysis (DM-LITE) TECHNICAL SKILLS MODULES (”LEARN & PRACTISE”) This module covers a set of methodologies of conducting problem-solving using the data mining approach, Smart Additive Manufacturing System which includes data collection, pre-process data from multiple sources, cleaning of the data, and finally using data mining techniques to analyse the data and find out hidden correlations among various parameters 3D additive manufacturing (AM) is a disruptive technology that is fundamentally distinct from conventional involved in processes. Through extensive hands-on and discussion of successful case studies, the course will manufacturing technologies. This module provides the introduction and overview to 3D AM, as well as equip participants with the ability to use data mining techniques to solve actual industrial problems. unequivocal advantages of 3D AM to manufacture complex and customised functional parts. It offers participants the opportunity to appreciate the uniqueness of 3D AM technology, the importance of digital IIoT-enabled Equipment Condition Monitoring and Alert (IECOM) manufacturing and the understanding of necessary design requirements, topology optimisation and quality assurance for additive manufacturing. P articipants will also integrate AM and implement procedures and Machine breakdowns and unplanned downtime affects equipment availability and interrupts the delivery of operations according to industry standards and WSH requirements in the practical hands-on sessions. services. Monitoring equipment’s condition and alerting its impending failure can help to minimise disruptions and costly repairs. This course provides participants with training in implementing an equipment condition and Powder-bed Additive Manufacturing Processes for Complex Functional Metallic Components alert system using Industrial Internet-of-Things (IIoT) devices for remote monitoring of machine conditions. This course is specifically developed for local industry needs and taught by industry practitioners in the field. Case This module covers metal powder fabrication as feedstock for powder-bed 3D AM systems and the powder studies are discussed to h ighlight the applications in industry. characteristics critical for AM processing. Also addressed in the module are the key powder-bed metal AM processes, for example, Selective Laser Melting (SLM), Electron Beam Melting (EBM) and metal binder PRACTICAL MODULES (”IMPLEMENT”) jetting technologies, to m anufacture complex functional metallic parts. The industrial applications and relevant post-processing of such AM metallic components will also be shared with industrial case studies. In-depth Lab-based Practise Training learning will be aided by practical laboratory sessions and project-based discussions on key technologies. This module is designed to provide extensive hands-on practise training on basic skills of common processes, High Speed Additive Manufacturing Processes for Metallic Components characterisation methods and data analysis encountered in additive manufacturing. The module consists of 4 0 sessions (120 hours in total) which will offer participants the opportunity to learn and operate the process This module will bring participants to delve into electron beam-based and laser-based AM technologies which e quipment and analytical instruments in SIMTech’s labs to reinforce their knowledge learned from the technical enable the manufacturing of large format metallic components. They include wire-fed, powder-blown and skill modules. hybrid processes that allow high-speed manufacturing. Participants will learn materials, metallurgy, quality assurance and certification of additive manufactured metallic components. Participants will also learn the Under the guidance of the experienced trainers, the participants are expected to do hands-on work in these design for high-speed additive m anufacturing and tool-path planning and generation. The industrial t hree categories: applications and relevant post-processing of such metallic components will also be shared with industrial and project-based case studies. • Additive Manufacturing Process Skills Training – Participants will have hands-on experience on key additive manufacturing processes and equipment, which includes extrusion-based systems, powder-bed Polymer-based Additive Manufacturing Processes for Flexible Mass Customisation metal and polymer systems, robotic powder-blown systems and liquid resin-based polymer systems. Products from polymeric 3D AM systems are known for their accuracy and excellent surface finish. • Characterisation Methods and Analyses - Participants will have hands-on experience on characterisation Participantswillbeintroducedtothephotopolymerizationprocessinliquid-basedpolymeric3DAMtechnologiesand tools that are used to analyse the feedstock (e.g. powder, filament and resin) and the print parts’ quality solid-based polymeric 3D AM technologies which use precursor materials such as polymeric powder or (in terms of density, mechanical properties, surface roughness, microstructures, dimensional measurement filaments. Liquid-based polymeric 3D AM technologies such as stereolithography and polymer jetting will be etc). covered. Also shared in this module are the Selective Laser Sintering (SLS), powder-bed inkjet 3D printing and Fused Filament Fabrication (FFF) technologies. Design guidelines, quality assurance, industry standards and file • Data Processing and Analysis - Participants will be guided to collect data from AM machines in a model preparation of specific polymer a dditive manufacturing systems are also covered in the module. Furthermore, factory and process the data to establish correlations with the relevant printing process parameters and the industrial applications and relevant post-processing of such polymeric components will also be discussed print quality output. with industrial case studies. Project-based Training for Implementation (M1) Plan and Manage Project for Implementation Project-based Training for Implementation (M2) This module covers the methods for planning, executing and managing projects for developing technology, products and processes. Participants will also be taught on applications of project planning tools and skills for Participants will be awarded with a SIMTech Certificate of Attendance for passing each individual module. managing uncertainties and disruptions in project activities. Human, financial and business factors that influence the conduct of projects will be considered and explored. Participants will be awarded the Graduate Diploma in Precision Engineering after successfully completing all five required modules.  Alternatively, participants will be awarded with a WSQ Statement of Attainment certificate for passing each individual module.


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