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Mechanical Properties and Morphologies of Rice Husk Silica (RHS)/ Poly (butylene adipate-co-terephthalate) (PBAT) Composites: Effect of Silane Coupling Agent Jirapa Phosee1, 2, a , Jatuporn Wittayakun3, b , Nitinat Suppakarn1, 2, c* Corresponding to; Nitinat Suppakarn (nitinat@sut.ac.th) 1 School of Polymer Engineering, Institute of Engineering, Suranaree University of Technology, Nakhon Ratchasima, Thailand 2 Center of Excellence for Petroleum, Petrochemicals and Advanced Materials, Chulalongkorn University, Bangkok, Thailand 3 School of Chemistry, Institute of Science, Suranaree University of Technology, Nakhon Ratchasima, Thailand a yoyo_yok7217@hotmail.com, bjatuporn@sut.ac.th,* cnitinat@sut.ac.th Keywords: Rice husk silica, Poly (butylene adipate-co-terephthalate) (PBAT), Silane coupling agent, Composites, Mechanical properties.
Acknowledgements This research was financially supported by Suranaree University of Technology and Center of Excellence for Petroleum, Petrochemicals, and Advanced Materials.
Forum Vol.44 (2001), p. 289 [3] F.T.

Masood1,b, Mostafa Nikzad1,c and Pio Iovenitti1,d 1School of Engineering, Swinburne University of Technology, Hawthorn, VIC 3122, Australia amafrose@swin.edu.au, bsmasood@swin.edu.au (corresponding author), cmnikzad@swin.edu.au dpiovenitti@swin.edu.au Keywords: Additive Manufacturing, Fused Deposition Modelling (FDM), PLA, Tensile Properties.
The PLA is now becoming a popular low cost material for many such portable 3D printers and is useful in many packaging, biomedical and engineering applications.
Masood, Advances in Fused Deposition Modeling, in: S.H.
Song, Tensile properties of processed FDM polycarbonate material, Materials Science Forum, 654-656 (2010) 2556-2559
Novak-Marcincin, Testing of ABS Material Tensile Strength for Fused Deposition Modelling Rapid Prototyping Method, Advanced Materials Research, 912-914 (2012) 370-373

Kestens: Materials Science Forum Vols. 408-412 (2002) pp. 559-564
Duggan: Materials Science Forum Vols. 408-412 (2002) pp. 1233-1238
Gutiérrez: Advanced Engineering Materials 5, No. 8 (2003), pp. 575-578
Raabe: Advanced Engineering Materials (2003), 5, No. 7, pp. 566-570 [26] A.

Roven2, 3, e 1School of Materials Science and Engineering, Jiangsu Province Key Laboratory of Materials Tribology, Jiangsu University, Zhenjiang 212013, China 2Department of Materials Science and Engineering, Norwegian University of Science and Technology (NTNU), Trondheim 7491, Norway 3Center for Advanced Materials, Qatar University, Po box 2713 Doha, Qatar a*manping-liu@263.net, b814693002@qq.com, c47330882@qq.com, d736679139@qq.com, ehans.roven@material.ntnu.no Keywords: Al–Mg aluminum alloy, Solid-state amorphization, High pressure torsion, Grain boundary, Dislocation, Severe plastic deformation Abstract.
Valiev, Nanostructuring of metals by severe plastic deformation for advanced properties, Nature Mater. 3 (2004) 511-516
Forum. 579 (2008) 147-154
Forum. 584-586 (2008) 528-534 [22] E.

The Advances in Mechanical Engineering and Kinematics Sciences give broad influence in Material Sciences, Architecture and Civil Engineering are the order of the day with the rapid industrialization and urbanization seen in developed and developing nations.
The conference is the premiere forum for the presentation of new advances and research results in the fields of Mechanical Engineering, Kinematics Sciences in the area of Material Sciences, Architecture and Civil Engineering.
 Dr Fan Sau Cheong is Deputy Director of Centre for Advanced Numerical Engineering Simulations: 1999-2005 and NTU Research Council: 2010-2012.
A V2O5/Conductive-Polymer Core/Shell Nanobelt Array on Three-Dimensional Graphite Foam: A High-Rate, Ultrastable, and Freestanding Cathode for Lithium-Ion Batteries, Advanced Materials 26, 5794 (2014).
Title: The graphene-based Materials and its Application for Energy Storage Abstract: Graphene is an advanced material widely studied for energy storage and energy conversion applications.

The 26th  Bioceramics Meeting is the Annual Meeting of the International Society for Ceramics in Medicine,  that brings together researchers and clinicians, in order to establish an open forum for presentation  and discussion of the latest advances in the field of bioceramics research and their medical  applications. 
While bioceramic materials are in clinical use worldwide since the 1970's, their applications are  increasing in many specialities, and the focus in bioceramics research has evolved, facing new  challenges in the fields of regenerative medicine, tissue engineering, drug delivery, gene therapies  and nanomedicine, among others. 
They have  been organised in different sections:  Additive manufacturing of ceramics and composites; Biostable  ceramics and tough ceramics; Calcium phosphates; Cell-material interactions; Cements; Ceramics  for drug delivery; Clinical applications; Coatings, surface engineering and interfaces; Composites and  hybrid materials; Glasses and glass-ceramics; Nanoparticles and nanostructured ceramics;  Preclinical models: animal studies; Scaffolds. 
We hope that this book will provide knowledge and inspiration to the readers, and will contribute  to further advance in the field of bioceramics for clinical applications.        

Dizon1,3,c 1Department of Industrial Engineering, College of Engineering and Architecture, Bataan Peninsula State University – Main Campus, City of Balanga, Bataan, 2100, Philippines 2Department of Mechanical Engineering, College of Engineering and Architecture, Bataan Peninsula State University – Main Campus, City of Balanga, Bataan, 2100, Philippines 3DR3AM Center, Bataan Peninsula State University – Main Campus, City of Balanga, Bataan, 2100, Philippines amtespino@bpsu.edu.ph*, bbjtuazon@bpsu.edu.ph, cjrcdizon@bpsu.edu.ph Keywords: Additive Manufacturing, Tensile Strength, Fused Deposition Modeling, Mechanical Properties, Taguchi Methodology, Range Analysis Abstract.
The identified mechanical properties to be applied in the printed model ensures that the 3D model will be beneficial for each engineering and non-engineering applications [5-8].
Wong, “A study of the state-of-the-art rapid prototyping technologies,” The International Journal of Advanced Manufacturing Technology, vol. 14, no. 2, pp. 146–152, 1998
Dizon, Application of Taguchi Methodology in Evaluating the Rockwell Hardness of SLA 3D Printed Polymers, Materials Science Forum Submitted: 2020-01-23 ISSN: 1662-9752, Vol. 1005, pp 166-173 [8] B.
Taguchi’s Quality Engineering Handbook.

Journal of King Saud University – Engineering sciences (2017) 29, 295-299
Advanced powder Technology 28(2017) 2126-2134
Materials science & Engineering A 601(2014) 20-28
Archives of civil and mechanical engineering 16(2016) 147-158
Ain Shams Engineering Journal 9 (2018) 1489-1496

The increasing use of advanced high strength steels challenges the forming industry.
Forum Tribologische Entwicklungen in der Blechumformung, 2010 [4] H.
Ersoy, Advanced Wear Simulation in Sheet Metal Forming, Annals of the CIRP 54/1, CIRP, Paris, 2005, 217-220 [5] D.
Batchelor, Engineering Tribology, Third Edition, Elsevier Butterworth-Heinemann, 2005 [13] H.
Christiany, Evaluation of the potential of tool materials for the cold forming of advanced high strength steels, Wear 302 (2013) 1279-1285 [19] P.

References [1] Ductile iron data for design engineers, Rio Tinto Iron & Titanium, Inc., Montreal, Quebec, Canada, copyright 1990, revised and reprinted 1998 by QIT-Fer et Titane Inc, section IX [2] O.H.
Forum, Vol. 455-456 (2004), p. 267-270 [6] N.
Santos: Wear resistance of powder hard metal inserted ductile iron, Advanced Materials Science Fórum III, Vols. 514 (2006), p. 784-788 [7] Information on http://www.pqcorp.com/LITERATURE/bulletin_12-31.pdf