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Ibrahim.4,d 1,2,3Department of Manufacturing and Industrial Engineering, Faculty of Mechanical and Manufacturing Engineering, Universiti Tun Hussein Onn Malaysia(UTHM) 86400 Parit Raja, Batu Pahat, Johor, Malaysia. 4Department of Engineering Mechanics, Faculty of Mechanical and Manufacturing Engineering, Universiti Tun Hussein Onn Malaysia(UTHM), 86400 Parit Raja, Batu Pahat, Johor, Malaysia anasuha@uthm.edu.my, bkhairu@uthm.edu.my, cmustaffa@uthm.edu.my, dmdhalim@uthm.edu.my Keywords: FDM, ABS, ABS Recycle, Melt Flow Index Abstract.
ABS filament material was obtained from Advance Material and Manufacturing Centre(AMMC) in Universiti Tun Hussein Onn Malaysia(UTHM).
Bertoldi, Liquefier Dynamics in Fused Deposition, J. of Manufacturing Science and Engineering, 126, 2004, 237-246
Ibrahim, Mechanical Properties of Highly Filled Iron-ABS Composites in Injection Molding for FDM wire Filament, Materials Science Forum Vols. 773-774 (2014) pp 456-461
I., Dynamic Mechanical Properties of Copper-ABS Composites for FDM Feedstock, International Journal of Engineering Research and Applications (IJERA), Vol. 3, Issue 3, Jun 2013, pp.1257-1263

Introduction In recent years, along with the comprehensive application of computer graphics, computer engineering and pattern recognition etc., research on reverse engineering, intelligent robot and digital terrain etc. fields has gained further development.
In reverse engineering, the geometry data of complex parts are mainly acquired by 3D laser scan technology, and the data acquired in the beginning are scatted point cloud.
Such method relates point cloud processing with engineering calculation, but the selection of initial surface is not easy.
Wei: Point Cloud Data Acquisition Based on Reverse Engineering Technology.
Computer Graphics Forum, Vol. 26, No. 2, 2007, pp. 214-226

Citation & Copyright (to be inserted by the publisher) A Measurement Method of Residual Stress in Quenched Steel by Neutron Diffracation Dong Yong Ju 1, Ryuji Mukai1, Nobuaki Minakawa 2, Yukio Morii2 and Atsushi Moriai2 1 Dept. of Materials Science and Engineering, Graduate School of Saitama Institute of Technology, 1690 Fusaiji, Okabe, Saitama, 369-0293, Japan 2 Advanced Science Research Center, JSNS, Tokai, Ibaraki 319-1195, Japan Keywords: Neutron diffraction, Residual Stresses, Quenching, Phase Transformation, Gradient distribution, Martensite, Carbon Steel, Finite Element Analysis Abstract.
For engineering materials especially those involving large plastic deformations or phase transformations often have preferred crystallographic orientation or non-homogenous distribution of phase or composition, the measured d0 by powder diffraction method could not coincide with the true original lattice spacing of the material with variable phase and texture.
Forum, Vol. 347-349 (2000), pp.1
Forum, Trans Tech Publications, Vols 347-349 (2000), p.352

Less invasive surgery - Guidewires [2] In the interventional radiology the different imaging techniques, including X-ray fluoroscopy and magnetic resonance imaging (MRI), are employed to guide the instruments and carry out advanced medical procedures.
Engineering in Medicine, H01504 © IMechE 2005, pp. 213-217
Forum 394-395 (2002) 565-568
Tuukkanen, Medical Applications for Shape-Memory Alloys (SMA), Professional Engineering Publishing Ltd., UK, 1999, p. 53
Forum 56-8 (1990), p. 693 [64] A.M.

Mechanical knowledge is found in musical instruments, temperament, astronomy, calendar, automotives, boats or ships, bridge construction, machine design and bone injury discipline, so it is both a basic subject and technical subject and the rules it expounds is of universal significance and also the basis of many engineering and technological problems.
It is the key to improve spinal cord injury efficacy to prepare spinal cord de-cytoskeleton to attain three-dimensioned spinal cord base material and structure cell engineering spinal cord.
BO Bin et al has made advances in the studies in maxillofacial region injury and established dynamical model for human skull and occlusalf surface bone system with modal analysis method.
Journal of Medical Forum, 2006, 3 (22): 86-88
International Journal of Bio-medical Engineering, 2001, 34 (3):167-170

Introduction Powder Metallurgy (PM) engineering starts to use a new possibility of design controlled by the new technologies, led by additive manufacturing (AM), ultrasonic-assisted compaction or/and sintering, severe plastic deformation (SPD) and it has a huge potential to disrupt current manufacturing process processing.
Mainly AM is to take care of a forum demonstrating the depth and breadth of the research and development activities through manufacturing technology which most describes that goal [1-4].
Critical to further advances in this topic, will be the systematic study of the influence of important AM variables.
Journal of Materials Engineering and Performance 23 (2014) 1917-1928, DOI: 10.1007/s11665-014-0958-z
Archives of Materials Science and Engineering 67 (2014) 84-92

Nonlinear Finite Element Analysis of Diamond Bird-beak TX-joints Zhaoquan Zhu 1, a, Shengliang Liu 2,b 1,2 College of Civil and Transportation Engineering, Hohai University, Nanjing, 210098, China azzq@hhu.edu.cn, bhhulsl@163.com Keywords: diamond bird-beak TX-joints; ultimate capacity; geometric parameters; load ratio Abstract.
Introduction Nowadays, tubular structures are widely used in bridges, buildings and large openings accompanied by engineering technology progress.
The 3th International Forum on Advances in Structural Engineering, Shanghai (2009),P. 159-171
[3] Yongqiang Liu, Lewei Tong, Xiaolin Zhao, in: Structural Engineers, Vol.2 (2) (2009),p. 35-40, in Chinese

Finite Difference Study on Seismic Reinforcement Force of Geo-grid Reinforced Soil Retaining Wall Li-Yan Wang1,a, Xiao-Lei Du2,b , Fu-Xing Zhang3,c, Rong-Qiu Xue4,d 1School of Civil and architectural engineering, Jiangsu University of science and technology, 212003, Zhenjiang, China, PH(86)18952860415; FAX (86)-515-84432200; 2Bureau of water conservancy Liuzhou,545000, Liuzhou, China, PH(86)13505195867; FAX (86)-515-84432200; 3School of Civil and architectural engineering, Jiangsu University of science and technology, 212003, Zhenjiang, China, PH(86)18952860415; FAX (86)-515-84432200; 4School of Civil and architectural engineering, Jiangsu University of science and technology, 212003, Zhenjiang, China, PH(86)18952860415; FAX (86)-515-84432200; Email a wly_yzu@163.com, b184409938 @qq.com, c1406224213@qq.com, dgoodrongqiu@126.com Keywords: earthquake; geo-grid; reinforced soil retaining wall; seismic internal force Abstract.
Acknowledgments The authors appreciate the support of National Natural Science Foundation of China (No. 51109099) and National Science Foundation for Post-doctoral Scientists of China (No.2011M50906) References [1] Huang, C.C., Investigations of soil retaining structures damaged during the Chi-Chi (Taiwan) earthquake, Journal of the Chinese Institute of Engineers,23(4), 417–428(2000) [2] Race, R., del Cid, H., Seismic performance of modular block retaining wall structures during the January 2001 El Salvador earthquake, In: Proc.
Forum, Taipei, Taiwan(2001) [3] Jian-Qi, LIU, Ning WANG, Yi ZHAO, Dynamic Tri-axial Test Research on Geo-grid Reinforced Clay in Different Containing Water Rates, Building Science，25(5)：51-54 (2009) [4] Jian ZHOU, Qun-yan TANG, Jia-quan WANG, Jiao ZHANG, Microcosmic Study on Interface between Transverse Rib of Geo-grid and Sand, JOURNAL OF TONGJI UNIVERSITY(NATURAL SCIENCE), 38(8): 1128-1134 (2010) [5] Katdare Amey, Choudhury Deepankar, Effect of Rayleigh Wave on Seismic Active Earth Pressure behind Retaining Wall, Disaster Advances, Vol.5(4):(2012)

Materials Science Forum. 931 (2018) 232-237
IOP Conference Series: Materials Science and Engineering, 463 (2018) https://doi.org/10.1088/1757-899X/463/3/032012
Fangping Liu, Jianting Zhou, Experimental Research on Fatigue Damage of Reinforced Concrete Rectangular Beam, KSCE Journal of Civil Engineering. 9 (2018) 3512-3523
A Comparative Experimental Study on the Flexural Behavior of High-Strength Fiber-Reinforced Concrete and High-Strength Concrete Beams, Advances in Materials Science and Engineering №7390798 (2018)
Strength of reinforced concrete beams of high-performance concrete and fiber reinforced concrete, Bulletin of Civil Engineering. 1 (2018) 90-100

Low-Carbon Hydrogen: A Key Piece for a Just Energy Transition ADEKANBI Ayodeji Stephen1,a*, OKEKE Chima Stephen2,b and James Carton3,c 1Mechanical & Manufacturing Engineering, Dublin City University, Ireland 2Department of Automotive Engineering, Abubakar Tafawa Balewa University, Nigeria aayodejiadekanbi.s@gmail.com, bstephensmart377@gmail.com, cjames.carton@dcu.ie, Keywords: low-carbon hydrogen, just energy transition, developing countries, fossil fuel blue hydrogen, sustainable development goals (SDGs), green hydrogen Abstract.
Still, technological advancements and improvements in energy efficiency, such as advanced electrolysis, hydrogen fuel cells, etc, can help reduce the energy requirements and cost for LCH production in the future [32]. [33] demonstrate that advancements in large-scale blue hydrogen systems, such as improved SMR processes and CCUS integration, have reduced production costs and emissions.
Likewise, the development of LCH value chains will create jobs in engineering, construction and maintenance in places where the required natural (gas) resources are located [37].
Economically, hydrogen infrastructure investment (production, distribution, and use) can generate jobs in construction, engineering, maintenance, and operations.
To achieve these, policies that advance the adoption of LCH must be implemented across national levels.