KEYNOTE SPEAKER 1
PROF. Dr. ABDUL MUTALIB BIN LEMAN
Faculty of Engineering Technology, Universiti Tun Hussein Onn Malaysia (UTHM)
Faculty of Engineering Technology, Universiti Tun Hussein Onn Malaysia (UTHM)
Abdul Mutalib is a Professor at the Faculty of Engineering Technology, Universiti Tun Hussein Onn Malaysia (UTHM). He received PhD in Mechanical Engineering, Universiti Teknologi MARA Malaysia (UiTM) in 2011and also attach at Reliability Technology Research Center, Daegu University, South Korea. His primary field of interest is the application of Occupational Safety and Health, Indoor Air Quality and Energy- Bio fuel, Environmental Pollution Prevention and Plant Engineering. Accordingly, he also serves as a Director, Laboratory management Office which control 155 laboratories in total. researcher in Centre of Energy and Industrial Environment Studies (CEIES). For the administrative position, he has serves as a Head of Industrial Engineering Laboratory from 2004 to 2006. Head of Thermal Environment Laboratory from 2006-2007. Head of program (Plant Engineering Technology) 2012-2016. And also consultant of Malaysian Technical University Network (MTUN). He also serves as Technical committee for Translational Research 2023 (under Ministry of Higher Education). He also serves as several committees in local and international NGO and society. He undertakes graduate student supervision and consultancy works in those areas national and international. He also acts as diploma program advisor in Polytechnic in Mechanical Engineering under Ministry of Higher Education (MOHE) and assessors in several government and private institution. He serves as visiting professor for Kookmin University, South Korea in 2015-2016. He also serves as External Examiner for Bachelor Degree in Polytechnic, Diploma program in IKTBN Temerloh and Occupational Safety and Health under TATI University Collage and several university as well. He is the main authors and co-authors of more than 134 publications in national, international conference and journals (Index by Scopus). He is also acting as a reviewer member in editorial board of various international journals, and has reviewed many papers for more than 70 international journals articles. He is currently head and co-researcher of several research projects including 1 project of Translational Grant. 1 projects for Fundamental Research Grant Scheme (FRGS), 5 projects under MyRIVET and also served as a head for a few project previously such as Malaysian Technical University Network (MTUN) Grant, 3 projects for Innovation and Commercialization Incubator (uder ICI, UTHM), and 3 project for Public-Private Research Network (PPRN). Prof Dr Abdul Mutalib also active in Post Graduate Supervision and as a Panel. He serves as Main supervisor for 22 candidates in Masters and PhD. And serve as internal and external examiner for more than 30 students of Post Graduate candidature.
ABSTRACT
Title: Industrial Robotic and the Occupational Safety
and Health (OSH) Related Issues for Safer Workplace - A Review
Title: Industrial Robotic and the Occupational Safety
and Health (OSH) Related Issues for Safer Workplace - A Review
Robotics integrates multiple engineering disciplines to design, build, program and use robots. Robots are programmable machines that use sensors and actuators to interact with the physical world and perform actions autonomously or semi-autonomously. Because they can be reprogrammed, robots are more flexible than single-function machines. Collaborative robots are designed to complete tasks in a similar manner to humans, while traditional industrial robots tend to complete tasks more efficiently than humans. Energy efficiency is the key to improve companies’ competitiveness amid rising energy costs. The adoption of robotics helps in many ways to lower energy consumption in manufacturing. Robot programming has become easier and more accessible to non-experts. Providers of software-driven automation platforms support companies, letting users manage industrial robots with no prior programming experience. However, increasing the use of robotic in human daily life induced users towards several hazards and risks. All the risks and hazards associated with the use of robot must be avoided to prevent accidents from occurring. This paper discusses the hazards introduced to human while using robots and the safety precautions to avoid serious injury or fatality.
INVITED SPEAKER
Ts. Dr Mohd Anuar Ismail
Plant Engineering Technology Section,
Universiti Kuala Lumpur (UNIKL MITEC), Johor, Malaysia
Plant Engineering Technology Section,
Universiti Kuala Lumpur (UNIKL MITEC), Johor, Malaysia
Ts. Dr Mohd Anuar Ismail is currently served as a senior lecturer in Plant Engineering Technology Section at Universiti Kuala Lumpur (UNIKL MITEC) Pasir Gudang, Johor . He holds a PhD degree in engineering from University of Warwick, United Kingdom(UK). He has accumulated of 16 years of professional working experiences across various roles and positions, including 3 years as a Calibration Engineer, 3 years as a visiting researcher in National Physical Laboratory (NPL) UK, and more than 10 years of working experience as academician and academic management related roles. He is also a Certified Vibration Analyst (ISO 18436 CAT II), and an active Technical Assessor for SAMM scheme of ISO 17025. Currently, his main research interests are related to Mechanical Metrology & Inspection, Additive Manufacturing Measurement and vibration analysis for plant condition based maintenance. The recent research involved the application in artificial intelligent in vibration condition monitoring of rotating equipment.
ABSTRACT
Title: Surface performance evaluation of Lattice Structure Produce by Fused Deposition Modelling Machine Using Design of Experiment (DOE)
Title: Surface performance evaluation of Lattice Structure Produce by Fused Deposition Modelling Machine Using Design of Experiment (DOE)
Additive manufacturing has evolved as a cutting-edge approach that has the potential to transform traditional production methods. Its layer-by-layer build-up approach allows the creation of complex form and geometric structures, offering remarkable efficiency while minimizing material waste and reducing manufacturing costs compared to traditional subtractive process. Fused Deposition Modelling (FDM) has attracted attention among additive manufacturing technologies for its capabilities to construct complex lattice structures, which enable lightweight de-signs with equivalent or higher mechanical performance to traditional solid structures. However, the presence of geometrical and surface texture imperfections in lattice designs have a substantial impact on their mechanical performance. As a result, achieving dimensional accuracy and surface texture in FDM-based additive manufacturing remains a critical challenge. This research aims to investigate the capabilities of Fused Deposition Modelling machines to create complex lattice structures. FDM will be used to create three different lattice designs with variable diameters. A Design of Experiment (DOE) study and statistical analysis methods will be used to evaluate the quality of surface texture of these structures. The out-comes of this study will enhance the quality of surface finish of lattice structures produced by additive manufacturing machine
