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China 2 School of Mechanical Engineering Qingdao University, Qingdao, Shandong, 266071, P.
Some students commented about liking the project because it allowed them to apply their engineering skills.
[4] Helbling, J., Traub, L., “Impact of rapid prototyping facilities on engineering student outcomes”, American Society for Engineering Education Conference and Exposition, Pittsburg, PA. 2008
Smart rockets: A hands-on introduction to interdisciplinary engineering, in American Society for Engineering Education Conference and Exposition Nashville, TN. 2003
The benefits of model building in teaching engineering design.

The Canadian Journal of Chemical Engineering, 93(10)(2015) 1880-1888
Mathematical Problems in Engineering, 2013 (2013) 934712(11 pages)
Journal of Aerospace Engineering, 29(2) (2016) Article #04015037
Chemical Engineering Science, 172 (2017) 694–706
Radiative flow of Casson fluid over a moving wedge filled with gyrotactic microorganisms, Advanced Powder Technology, 28.2 (2017) 575-583

Effect of Heat Treatment on the Structural, Morphological and Optical Properties of Tin-Doped ZnO (x=0.0 and x=0.05) Thin Films H.Abdullah, M.N.Norazia, S.Shaari, A.Amir Khadum Department of Electrical, Electronic & Systems Engineering, Faculty of Engineering and the Built Environment, Universiti Kebangsaan Malaysia, 43600 Bangi, Selangor, Malaysia huda@vlsi.eng.ukm.my Keywords: Annealing, Sn-Doped, Sol-Gel Method, Structural Properties, Zinc Oxide Abstract The sol-gel method was used to obtain ZnO films doped with Sn at different annealing temperatures, 400°C, 500°C and 600°C.
thin films by atmospheric pressure CVD method [7] F.Paraguay D., W.Estrada L., D.R.Acosta N., E.Andrade, M.Miki Yoshida and optical characterization of high quality ZnO thin fi Solid Films, 1999, 350, 192 [8] F.K.Shan, B.C.Shin, S.C.Kim and prepared by PLD technique: [9] D.C.Look, Recent advances in ZnO materials and devices: 2001, B80, 383 [10] B.Pandey, S.Ghosh, P.Srivastava, D.K.Avasthi, D.Kabiraj, J.C.
characterization of Ni-doped ZnO: Forum, 2008, 320, 3347 [11] Y.Huang, M.Liu, Z.Li, Y.Zeng, S.Liu fabricated by novel sol-gel proces [12] C.Wong, B.Q.Xu, Synthesis and optical absorption property of the Zn solid solutions: Solid State [13] J.Tauc, R.Gricorovichi, A.Vancu germanium: Physica Status Solidi [14] E.Burstein, Anomalous optical absorption limit in InSb: [15] G.G.Valle, P.Hammer, S.H.Pulcinelli, C.V.
structural and optical properties of ZnO thin films deposited on sapphire substrate using ence, 2002, 186, 474 Nunes, E.Fortunato, P.Tonello, F.Branz Fernandes, P.Vilarinho, R.Martins different dopant elements on the properties of ZnO thin films: Vacuum, 2002, Y.Kashiwaba, F.Katahira, K.Haga, T.Sekiguchi, H.Watanabe, Hetero-epitaxial growth of ZnO thin films by atmospheric pressure CVD method: Journal of Crystal Growth F.Paraguay D., W.Estrada L., D.R.Acosta N., E.Andrade, M.Miki Yoshida and optical characterization of high quality ZnO thin films obtained by spray pyrolysis: 192 Kim and Y.S.Yu, Optical properties of As doped ZnO thin films ique: Journal of the European Ceramic Society, 2004, es in ZnO materials and devices: Materials Sci B.Pandey, S.Ghosh, P.Srivastava, D.K.Avasthi, D.Kabiraj, J.C.Pivin, Synthesis and doped ZnO: a transparent magnetic semiconductor Y.Huang, M.Liu, Z.Li, Y.Zeng, S.Liu, Raman spectroscopy study of ZnO gel process: Materials Science and Engineering
This work was partially supported by a grant This paper was sponsored Solar Cells [DSSC] based upon onducting ZnO:Al, In and Sn thin films deposited by the ZnO thin films prepared by PLD: presented by zinc oxide films Effect of the variation of film thickness on sapphire substrate using Nunes, E.Fortunato, P.Tonello, F.Branz Fernandes, P.Vilarinho, R.Martins, Effect of , 2002, 64, 281 epitaxial growth of ZnO Growth, 2000, 122, 431 F.Paraguay D., W.Estrada L., D.R.Acosta N., E.Andrade, M.Miki Yoshida, Growth, structure lms obtained by spray pyrolysis: Thin Optical properties of As doped ZnO thin films iety, 2004, 24, 1861 Science and Engineering, Synthesis and transparent magnetic semiconductor: Materials Science Raman spectroscopy study of ZnO-based ceramic films , 2003, B97, 111 TixSn1−xO4 (0 x 1) tructure of amorphous iew, 1954, 93, 632 Transparent and conductive ZnO:Al thin Society, 2004, 24, 1009

Parametric Investigation of Photochemical Machining of SS- 430 for Manufacturing of Micromesh Devendra Agrawal1,a*, Dinesh Kamble2,b and Nitin Ambhore3,c 1Department of Mechanical Engineering, S.V.P.M.’S College of Engineering Malegaon (Bk.), India. 2Department of Mechanical Engineering, Vishwakarma Institute of Information Technology Pune, India 3Department of Mechanical Engineering, Vishwakarma Institute of Information Technology Pune, India aagrawal123.devendra@gmail.com*, dinesh.kamble@viit.ac.inb, nitin.ambhore@viit.ac.inc Keywords: Etching, Undercut, Optimization, Regression, Micromesh.
Journal of Modern Engineering Research.3(2013)849-856
International Journal of Mechanical Engineering and Technology. 3,3(2016) 992-997
[11] A.K.Parida , K.P.Maity , An experimental investigation to optimize multi-response characterstics of Ni-Hard material using hot machining,Advanced Engineering Forum, 16(2016)16-23
Hiremath ,Machining and characterization of Micro-Channel Generated on Phospher Bronze Using µ-EDM, Journal of Advanced Manufacturing System, 19(2020) 87 -97.

Pancoran, Jakarta 12780, Indonesia 2Mechanical and Industrial Engineering Department, Gadjah Mada University, Jl.
Grafika No.2, Yogyakarta 55281, Indonesia 3Research Center for Advanced Materials, National Research and Innovation Agency (BRIN), Puspiptek Area, Tangerang Selatan 15314, Indonesia 4Marine Engineering Department, Engineering Faculty, Hasanuddin University aketut.laksemana@sampoernauniversity.ac.id, bakhsin.muflikhun@ugm.ac.id, cmurni.handayani@lipi.go.id, dyose008@brin.go.id, ef.mahmuddin@eng.unhas.ac.id, ffarid.triawan@sampoernauniversity.ac.id Keywords: Silver nitrate (AgNO3), polylactic-acid (PLA) resin, digital light processing (DLP) 3D print, buckling behavior.
Chidambaram, “Biopolymer Composites With High Dielectric Performance: Interface Engineering,” Biopolym.
Nisbett, “Shigley’s mechanical engineering design,” 2019
Forum, vol. 1092, pp. 45–54, Jun. 2023, doi: 10.4028/P-ZTF25L

Mechanical Properties Improvement of Recycled Polypropylene with Material Value Conservation Schemes Using Virgin Plastic Blends Djoko Sihono Gabriel1,a, Afifah Nadia Tiana1,b 1Department of Industrial Engineering, Faculty of Engineering, Universitas Indonesia, Indonesia 16424 adsihono@gmail.com , gabriel@ie.ui.ac.id ; bfifa.nadia@gmail.com Keywords: polypropylene, mechanical recycling, blending, material value conservation, mechanical properties Abstract.
Gabriel: How to increase plastic waste acceptance for mechanical recycling: An introduction to material value conservation and its phenomenon, Key Engineering Materials, Vol. 705 (2016), p. 362-367
Maulana: Impact of plastic labelling, coloring and printing on material value conservation in the products of secondary recycling, Key Engineering Materials, Vol. 733 (2018), p. 384-389
Borman, et al.: Impact of plastic packaging design on the sustainability of plastic recyclers, International Journal of Applied Science and Engineering, Vol. 16 (2019), p. 25-33
Materials Science Forum, Vol. 936 (2018), 116-120

Mughrabi, Fatigue & Fracture of Engineering Materials & Structures, 2001. 24(9): p. 625-625. 7.
Kitagawa, Materials Science and Engineering A, 2001. 300(1-2): p. 171-182. 13.
Kopylov, Materials Science and Engineering A, 2003. 355(1-2): p. 277-285. 14.
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Introduction Tissue engineering is a promising therapeutic approach that combines cells, biomaterials and environmental factors to induce differentiation signals into surgically transplantable formats and promote tissue repair and/or functional restoration.
Despite many advances, researchers in this field still face significant challenges in repairing, replacing or regenerating specific tissues or organs [1,2].
Further studies of size, shape and surface properties of alginate gels in conjunction with bioreactor design will lead to optimization of cultivation conditions for engineering of variously designed transplants.
Vunjak-Novakovic, "Principles of Tissue Engineering", p.143 Academic Press, San Diego, USA (2000)
Forum, 453-454 (2004), p. 549

Vassen et al.: New materials for advanced thermal barrier coatings. in 6th Liége Conference on Materials for Advanced Power Engineering, (1998), Universite de Liége, Belgium
Jia: Journal of Advanced Materials, 2006, Vol.38, No.3, p.21-6
Morinaga: Science and Technology of Advanced Materials, (2002), Vol.3, No.4, p.297-301
Composites Part B, Engineering, (1997), Vol.28, No.1-2, p.1-4
Baptiste. (1991, London, Mechanical Engineering Publications. 285-9

Othman3,c 1Mechanical Engineering Department, Engineering College, University of Tikrit, Salandeen, Iraq 2Materials Engineering Department, University of Technology, Baghdad, Iraq 3Mechanical Engineering Department, Engineering College, University of Tikrit, Salandeen, Iraq aAdelbash@tu.edu.iq, b130041@uotechnology.edu.iq, ctahseentaha@tu.edu.iq Keywords: Above Knee, Prosthetic Lim Socket, Plant Fibers, Stress Analysis, optimization Abstract.
In conclusion, the technology of biomaterials derived from plant fiber compounds has advanced because they are inexpensive, practical, and accessible.
Forum, 2021. https://doi.org/10.4028/www.scientific.net/MSF.1039.473
Adekanye, Assessing Mechanical Properties of Natural Fibre Reinforced Composites for Engineering Applications, J.
Peterson, Full stride: Advancing the state of the art in lower extremity gait systems, Full Stride Adv.