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Awad, 3D Printing of Calcium Phosphate Ceramics for Bone Tissue Engineering and Drug Delivery, Annals of Biomedical Engineering 45 (1) (2016) 23–44
Hatton, An Overview of Poly(lactic-co-glycolic) Acid (PLGA)-Based Biomaterials for Bone Tissue Engineering, International Journal of Molecular Sciences 15 (3) (2014) 3640–3659
Hsu, Review: Polymeric-Based 3D Printing for Tissue Engineering, Journal of Medical and Biological Engineering 35 (3) (2015) 285–292
[31] Recent Advanced in Biomaterials for 3D Printing and Tissue Engineering, Journal of Functional biomaterials 9 (2018) 22–22
Gu, Rapid prototyping for tissue-engineered bone scaffold by 3D printing and biocompatibility study, International journal of clinical and experimental medicine 8 (7) (2015) 11777–11777

International Journal of Applied Ceramic Technology, 2010. 7(1): p. 30-40
Osman, Role of CA-EDTA on the Synthesizing Process of Cerate-Zirconate Ceramics Electrolyte.
Journal of Chemistry, 2013. 1: p. 1-7
Procedia Engineering, 2016. 148: 72-77
Journal of Alloys and Compounds, 2009. 484: 263-267

Derkach, Tribological properties of detonation coatings based on titanium aluminides and aluminum titanate, Powder Metallurgy and Metal Ceramics. 44(11-12) (2005) 531-536
Miyamoto, Titanium aluminide coating on titanium surface using three-dimensional microwelder, Materials Science and Engineering: A. 492(1-2) (2008) 199-204
Chiu, Wear and corrosion resistance of pure titanium subjected to aluminization and coated with a microarc oxidation ceramic coating, International journal of electrochemical science. 10 (2015) 4290-4302
Ermakov, The study of the chemical and phase composition of the diffusion interaction zone in layered composite Cr20Ni80-AD1, IOP Conference Series: Materials Science and Engineering. 177(5) (2017) 012134
Gurulev, Diffusion processes in heating a Ti‐Al composite produced by explosion welding, Welding international. 15(5) (2001) 399-401

El-Saeed3, d 1 Cairo University, Mechanical Design and Production Department, Giza, Egypt 2 Beni- Suef University, Faculty of Engineering, Mechanical Design and Production Department, Beni Sueif, Egypt 3 Akhbar El-Youm Academy, Department of Mechanical Engineering, 6 of October City, Giza, Egypt aahmed.shash@cu.edu.eg, baeid958@yahoo.com, cielmahallawi@bue.edu.eg, dmo3taz.elsaeed@gmail.com Keywords: Nano-Metal Matrix Composites, ZrO2 nano-powders, Mushy Zone, Mechanical properties.
These materials have low specific gravity that makes their properties particularly superior in strength and modulus to many traditional engineering materials such as metals.
The importance of composites as engineering materials is reflected by the fact that out of over 1600 engineering materials available in the market today more than 200 are composites [4-6].
Sahoo, Mechanical and Wear Properties of Rheocast and Conventional Gravity Die Cast A356 Alloy, Materials Science and Engineering A 435–436, 2006, pp. 521–529
Amer, Moataz El-Saeed, Influence of Al2O3 Nano-dispersions on Mechanical and Wear Resistance Properties of Semisolid Cast A356 Al Alloy, Mechanical and Materials Engineering of Modern Structure and Component Design, Journal of Advanced Structured Materials, Springer International Publishing, 2015, Vol. 70, pp. 13-24

This project aims to study the damping characteristics of hybrid polymer composite, which can be used in many applications, and in engineering structures.
Sudev, L.J. (2013) ‘Experimental Study of Dynamic Behavior of Hybrid Jute/Sisal Fiber Reinforced Polyester Composites’, International Journal of Science and Engineering Applications, Vol. 2 Issue 8, pp. 2319-7560
Adarsh,K. (2012) ‘Damping Measurement in Composite Materials Using Combined Finite Element and Frequency Response method’, International Journal of Engineering Science Invention ISSN, 2319 – 6734
Venkatesan, K. (2013) ‘Tensile and Flexural Studies on Glass - Carbon Hybrid Composites Subjected to Low Frequency Cyclic Loading’, International Journal of Engineering and Technology, Vol.6
S. (2013) ‘Variation of Damping Property of Polymer Composite under Saline Water Treatment’, International Journal of Innovations in Engineering and Technology, Vol. 2.

Society of Manufacturing Engineers, (2000)
Journal of Construction Materials 1.2 (2020)
Ceramic paste for space stereolithography 3D printing technology in microgravity environment.
Journal of the European Ceramic Society (2022), p. 3968-3975
The International Journal of Advanced Manufacturing Technology (2019), p. 4123-4146.

Preparation and Identification of Barium Monoferrite by Solid State Reaction Method STEFAN Iulian1,a *, BENGA Gabriel2,b, SAVU Danut3,c, SAVU Sorin4,d, Olei Adrian5,e 1,2,3,4,5University of Craiova, Faculty of Mechanics, Department of Engineering and Management of Technological Systems, Drobeta Turnu Severin, Romania email: astefan_iuly@yahoo.com, bgabrielbenga@yahoo.com, cdanut.savu@ymail.com, dsorin.savu@yahoo.com, eadrian_olei@yahoo.com Keywords: barium monoferrite, solid state reaction, powders, mechanical alloying.
Barium monoferrite BaFe2O4 is classified as permanent magnet stands out among other ceramic magnets due to its high chemical stability, corrosion resistance and low production cost [5].
Longo, Monoferrite BaFe2O4 applied as ceramic pigment, Ceramics International 33 (2007) 521–525
Hussain, Structural and magnetic characterizations of nano structured Ni0.8Zn0.2Fe2O4 prepared by self combustion method, International Journal of Basic & Applied Sciences IJBAS-IJENS, 09(09) (2011) 37-40

Valenza, A review on basalt fibre and its composites, Composites Part B: Engineering, 74 (2015) 74-94
Moon, Characteristics of basalt fiber as a strengthening material for concrete structures, Composites Part B: Engineering, 36 (2005) 504-512
Shimc, Characteristics of golf shafts produced by carbon and basalt fibers, Journal of Ceramic Processing Research, 15 (2014) 355-359
Smrček, The Liquidus Temperature; Its Critical Role in Glass Manufacturing, International Journal of Applied Glass Science, 1 (2010) 151-163
Zanotto, DSC Method for Determining the Liquidus Temperature of Glass-Forming Systems, Journal of the American Ceramic Society, 93 (2010) 3757-3763

Bio-hybrid scaffolds for bone tissue engineering: nano-hydroxyapatite/chitosan composites B.
Mikos in Frontiers in Tissue Engineering, C.W.
Hollister, Porous scaffold design for tissue engineering, Nat.
High-performance hydroxyapatite scaffolds for bone tissue engineering applications.
International Journal of Applied Ceramic Technology, 9(3), 507-516

Desiccation Cracking of Kaolin Clay at Laboratory Scale Ainie Abdul Shukor1,a, Fauzilah Ismail1,b *, Niraku Rosmawati Ahmad2,c, Ahmad Kamil Arshad3,d and Faizah Kamarudin4,e 1School of Civil Engineering, College of Engineering, Universiti Teknologi MARA, 40450 Shah Alam, Selangor, Malaysia 2Civil and Environmental Engineering Department, Universiti Teknologi PETRONAS, 32610 Bandar Seri Iskandar, Perak, Malaysia 3Institute for Infrastructure Engineering and Sustainable Management (IIESM), Universiti Teknologi MARA, 40450 Shah Alam, Selangor, Malaysia 4Centre for Civil Engineering Studies, Universiti Teknologi MARA, Permatang Pauh Campus, 13500 Bukit Mertajam, Pulau Pinang, Malaysia aainieshukor96@gmail.com, bfauzilah@uitm.edu.my, cniraku.ahmad@utp.edu.my, ddrahmadkamil@uitm.edu.my, efaiza328@uitm.edu.my Keywords: Desiccation, Crack, Propagation, Pattern, Kaolin, Thickness, Plate Abstract.
Clay soils can significantly alter the performance, permeability and durability in various geotechnical, geo-environmental, transport engineering, agricultural engineering, mining and resource engineering and soil science.
The European Physical Journal E 1, Issue 2-3, (2000) 189-194
Conf. on Structure, Engineering & Environment (SEE), Kyoto, Japan (2020) 167-171
Sanchez, Analysis of cracking behavior of drying soil, 2nd International Conference on Environmental Science and Technology IPCBEE, Vol.6, (2011) VI-66–VI-77.