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The hard tissue engineering provides viable solutions considering the bone reconstruction by designing and elaboration of advanced biocompatible materials to manufacture alloplastic grafts.
Advanced research in the field showed that the trabecular bone characteristics differ across sites [17, 18].
Our research approaches the design and elaboration of an alloplastic trabecular tissue similar to the vertebral body using an advanced powder metallurgy (PM) technology.
Kevorkijan, Low cost aluminium foams made by CaCO3, Particulates, Metallurgical and Materials Engineering 16 (2010) 205-219
Layrolle, K. deGroot, Macroporous hydroxyapatite scaffolds for bone tissue engineering, Wiley Periodicals 109 (2002) 634-650

Enhancement of Diffusion Coefficients in Ti-Mo Alloy by the Spark Plasma Sintering/Field Assisted Sintering Technology William Baya Mwaro1,2,a*, Mahlatse Ramaesele Mphahlele1,b and Mark Walker1c 1Department of Mechanical Engineering, Durban University of Technology, 4001, Durban, South Africa 2School of Mines and Engineering, Taita Taveta University, P.O Box 635 - (80300) Voi, Kenya.
Guillon, Tooling in Spark Plasma Sintering Technology: Design, Optimization, and Application, Advanced Engineering Materials. 26(5) (2024) 2301391
Burbelko, diffusion model of binary systems controlled by chemical potential gradient, Journal of Casting & Materials Engineering. 6(2) (2022)
Wang, Elucidating the Multi‐Scale Temperature Evolution and Densification Mechanisms of Amorphous Powders During Spark Plasma Sintering: Experiments and Modeling, Advanced Engineering Materials. 25(5) (2023) 2200557
Wang, Novel experimental strategy towards temperature inhomogeneity during spark plasma sintering of metallic glasses, Advanced Powder Materials. 2(3)(2023)100109 [42] W.

It integrated advanced material models with industrial fabrication process models to predict the microstructures and properties in the complete production chain processes of Al sheet and profiles, i.e. by DC ingot casting, rolling and extrusion and analyze complex interactions of critical process parameters with the corresponding metallurgical mechanisms and predict the related material response and properties.
Then further advances in computer technology and new physically based model approaches allowed to integrate the material and process models into industrial production and a detailed analysis of the main process parameters correlated with basic principles of physical metallurgy and their (statistical) correlation with material properties became possible.
Their implementation and in-line application will help plant engineers to analyse and solve practical problems, to increase industrial process variability and material quality and significantly decrease development time and cost.
Karhausen, Olaf Engler in "Continuum Scale Simulation of Engineering Materials, Fundamentals-Microstructures-Process Applications" edt. by D.Raabe, F.Roters, F.Barlat, Chen, Long-Qing 2004, ISBN 3-527-30760-5 - Wiley-VCH, Weinheim, p.705 [10] M.Rapaz, in ref. [7] p.559 and Q.
ICAA8 Cambridge/UK ; Materials Science Forum Vol. 396-402 Transtec Publications, Switzerland, (2002), p1721

Plasma sprayed oxide ceramic coatings based on alumina, titania, zirconia and chromia are widely used for many application in mechanical engineering like printing and paper, textile machines etc..
Gitzhofer, Suspension Plasma Spraying for the Preparation of Perovskite Powders and Coatings, Proceedings of 1st United Thermal Spray Conference - Thermal Spray: A United Forum for Scientific and Technological Advances (1997), p 349-352. [5] M.
Boulos, SOFC/CeO2 Doped Electrolyte Deposition Using Suspension Plasma Spraying, in: Proceedings of 1st International Thermal Spray Conference - Thermal Spray: Surface Engineering via Applied Research 1 (2000), p 929-934. [6] F.
Thiele, Photocatalytic properties of coatings sprayed from TiOx and Tin−2Cr2O2n−1 powders by APS and VPS, Thermal Spray Solutions: Advanced in Technology and Application, Osaka 2004, Japan, Pub.
Manzat, Advanced ceramic tribological layers by thermal spray routes, Advances in Science and Technology, Vol. 66, 2010, p 106-119. [14] ThyssenKrupp VDM, Crofer® 22 H, Preliminary Material Data Sheet No. 4050, June 2008 Edition. [15] N.

Fabrication of Aluminium Surface Composites Aluminium metal matrix surface composites are unique class of materials with improved tribological properties are most extensively used in advanced engineering design.
Material science Engineering A,1993,168:141-148
Material Science Engineering A,2005, 393:344-351
Materials Science and Engineering.
Materials Science Engineering.

Ma, Friction stir welding and processing, Materials Science and Engineering: R: Reports 50 (2005) 1-78
Sun, Natural aging behaviour of friction stir welded 6005A-T6 aluminium alloy, Materials Science and Engineering: A 576 (2013) 29–35
Weihe, ‘Experimental investigation of the friction stir welding dynamics of 6000 series aluminum alloys, Production Engineering 12 (2018) 667-677
Morisada, Microstructure-property relation and evolution in friction stir welding of naturally aged 6063 aluminium alloy, The International Journal of Advanced Manufacturing Technology 91 (2017) 5-8
Vilaca, Advanced technique for non-destructive testing of friction stir welding of metals, Journal of Measurement 43 (2010) 1021-1030

Due to the combination of these properties, PPS has found wide application in electrical engineering, electronics, aerospace, military and household appliances, automotive, chemical and transport engineering, medicine and other strategically important industries [1-4].
Mrazova, Advanced composite materials of the future in aerospace industry.
Yuan, Synthesis, characteristics and adsorption properties of polyphenylene sulfide based strong acid ion exchange fiber, Polymers for Advanced Technologies. 25 (2014) 1590-1595
Pape, Adhesion Promoters, Applied Plastics Engineering Handbook. (2011) 503–517
Wang, High-performance polyphenylene sulfide composites with ultra-high content of glass fiber fabrics, Composites Part B: Engineering. (2019) 1-10

Journal of Food Engineering, 117(4), 486–491. https://doi.org/10.1016/j.jfoodeng.2012.10.02 [15] Kasmin, H., Lazim, A.
Journal of Food Engineering, 79(3): 1079 – 1086
Journal of Advanced Research in Fluid Mechanics and Thermal Sciences, 82(2), 39–46. https://doi.org/10.37934/arfmts.82.2.3946 [25] Poku, K. (2002).
Journal of Food Engineering, 143, 123–131. https://doi.org/10.1016/j.jfoodeng.2014.06.022 [37] YCW. (2013).
Journal of Advanced Agricultural Technologies, 9(1). https://doi.org/10.18178/joaat.9.1.1-8 [39] Zamanhuri, N.

Simulation and error analysis of experimental results showed that, the designed algorithms can accurately forecast short-time traffic flow of the regional intelligent transportation control, forecasting effects is better, can be effectively applied to actual traffic engineering.
Algorithm process In RBF Neural network, output weight , hidden units in the centre and the width , which Have a great influence for the predictive performance of the RBF neural network forecasting model, however, it is difficult to determine the appropriate value of the , , in advance.
In General, through above simulation and error analysis can know, the designed algorithms can accurately forecast short-time traffic flow of the regional intelligent transportation control, forecasting effect is better, can be effectively applied to actual traffic engineering.
Integrated and Sustainable Transportation System (FISTS), 2011 IEEE Forum on. 2011:146-151
Systems Engineering-Theory & Practice.

Application of Magnetic Field Method for Measuring Lubricant Viscosity Witsarut SRIRATANA1, a and Riichi MURAYAMA1, b 1Department of Intelligent Mechanical Engineering, Fukuoka Institute of Technology 3-30-1 Wajirohigashi, Higashi-ku, Fukuoka 811-0295, Japan.
Suesut, Hall Effect sensor for measuring metal particles in lubricant, International Multi Conference of Engineers and Computer Scientists 2012(IMECS 2012), Hong Kong, Mar. 14-16, (2012) 894-897
Murayama, Analysis of Lubricant Viscosity using Magnetic Field Method, The Eight International Forum on Advanced Material Science and Technology (IFAMST-8), Fukuoka, Aug. 1-4, (2012)