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Identification of AAAS Composites Mechanical Fracture Parameters

Online since: August 2021

Authors: Zbyněk Keršner, Iva Rozsypalová, Petr Daněk, Pavla Rovnaníková, David Lehký, Martin Lipowczan

Merta, Quasi-brittle behaviour of composites as a key to generalized understanding of material fracture, Procedia Engineering 190 (2017) 126–133
Černý, Characterization of geopolymers prepared using powdered brick, Journal of Materials Research and Technology 8 (2019) 6253–6261
Lehký, ANN Inverse Analysis Based on Stochastic Small-Sample Training Set Simulation, Engineering Application of Artificial Intelligence, 19 (2006) 731–740
Novák, FraMePID-3PB Software for Material Parameters Identification Using Fracture Test and Inverse Analysis, Advances in Engineering Software 72 (2014) 147–154
In: The 10th International Conference on Fracture Mechanics of Concrete and Concrete Structures (FraMCoS-X), (2019).

2D Piezoelectric Crack Analysis by Boundary Element Method

Online since: October 2003

Authors: Ulrich Groh, Meinhard Kuna

[2] Davi, G. & Milazzo, A., "Multidomain boundary integral formulation for piezoelectric materials fracture mechanics", International Journal of Solids and Structures, vol. 38, pp. 7065-7078, 2001
[5] Pak, Y.E., "Linear electro-elastic fracture mechanics of piezoelectric materials", International Journal of Fracture, vol. 54, pp. 79-100, 1992
[6] Pan, E., "A BEM analysis of fracture mechanics in 2D anisotropic piezoelectric solids", Engineering Analysis with Boundary Elements, vol. 23, pp. 67-76, 1999
-L., "Boundary element modelling of cracks in piezoelectric solids", Engineering Analysis with Boundary Elements, vol. 25, pp. 771-781, 2001
[8] Smith, R.N.L., "Direct Gauss quadrature formulas for logarithmic singularities on isoparametric elements", Engineering Analysis with Boundary Elements, vol. 24, pp. 161-167, 2000.

Current Situation and Trend of Ultra-Precision Abrasive Machining

Online since: December 2007

Authors: Dong Hui Wen, Zhi Wei Wang, D.X. Hu, Ju Long Yuan

Mori, K.Yamauchi and K.Endo: Precision Engineering Vol.10(1988), p.24
Komanduri: Key Engineering Materials, Vol.202-203(2001), p.1
Chris Maetzig: Precision Engineering Vol. 21(1997), p.134
Pei, Strasbaugh Alan: International Journal of Machine Tools and Manufacture Vol. 41(2001), p.659
Preising: Manufacturing Engineering Vol. 120(1998), p.52

Investigation of Grinding Process Simulation

Online since: August 2010

Authors: Wan Shan Wang, Jing Qiang Zhang, Peng Guan, Tian Biao Yu

Sata: Journal of the Japan Society of Precision Engineering Vol. 45 (1979), p. 554 [3] T.
Sata: Bulletin of the Japan Society of Precision Engineering Vol. 15(1981), p. 27 [4] K.
Lal: International Journal of Machine Tools and Manufacture Vol. 37 (1997), p. 751 [6] J.B.
Lavine: Journal of Manufacturing Science and Engineering Vol. 122 (2000), p. 59 [11] T.A.
Butler: International Journal of Machine Tools & Manufacture Vol. 45 (2005), p. 1321 [12] T.J.

Effect of Electrodeposition Mechanism and α-Si₃N₄/ZrBr₂ Doped Composite Particle on the Physicochemical and Structural Properties of Processed NiPZn Coatings on Mild Steel for Advance Application

Online since: September 2021

Authors: Ojo Sunday Issac Fayomi, Benedict Uche Anyanwu, Mojisola Olubunmi Nkiko, Sode Adedamola Ayodeji, Khadijah Tolulope Dauda

Journal of Engineering Science and Technology, 7(4), (2012) 517–518
Ceramics International, 35(8), (2009) 3407–3410
International Journal of Electrochemical Science, 3, (2008).806–818
International Journal of Scientific and Engineering Research, 8(4), (2013) 12-18
International Journal of Current Engineering and Technology, 5(2), (2015)700-703

Comprehensive Numerical Simulation on Thermally Grown Oxide and Internal Stress Evolutions in Thermal Barrier Coatings

Online since: December 2019

Authors: Masayuki Arai, Ryuta Nakajima, Hiroaki Katori, Kiyohiro Ito

Comprehensive Numerical Simulation on Thermally Grown Oxide and Internal Stress Evolutions in Thermal Barrier Coatings Ryuta Nakajima1,a, Hiroaki Katori1,b, Masayuki Arai2,c and Kiyohiro Ito2,d 1Graduate School of Mechanical Engineering, Tokyo University of Science, 6-3-1, Niijyuku, Katsushika-ku, Tokyo, 125-8585, Japan 2Department of Mechanical Engineering, Faculty of Engineering, Tokyo University of Science, 6-3-1, Niijuku, Katsushika-ku, Tokyo, 125-8585, JAPAN a4518542@ed.tus.ac.jp, b4517612@ed.tus.ac.jp, cmarai@rs.tus.ac.jp, dkiyohiro@rs.tus.ac.jp Keywords: Gas Turbine, Thermal Barrier Coatings, Finite Element Method, Thermally Grown Oxide Abstract.
Gupta, Journal of Engineering for Gas Turbine and Power, Vol. 110 (1988), pp.605-609
Hille et al., Engineering Fracture Mechanics, Vol.78 (2011), pp.2139-2152
Yaguchi et al., International Journal of Plasticity, Vol. 18, No.8 (2002), pp.1111-1131
Katori, M, Arai and K.Ito, Key Engineering Materials, Vol.774 (2018), pp.137-142.

Study on Carbon Fiber Composite Materials Cutting Tools

Online since: September 2013

Authors: Yi Wen Wang, Ming Yang Wu, Wei Ji, Mu Lin Tong, Yu Wang

Study on Carbon Fiber Composite Materials Cutting Tools Mingyang Wu1,a, Mulin Tong2,b, Yiwen Wang3,c, Wei Ji4,d and Yu Wang5,e The key lab of National and Local United Engineering for "High-Efficiency Cutting & Tools", Harbin Univ. of Sci. and Tech, Harbin, 150080, P.
International Journal of Machine Tools and Manufacture,2003,(43):1087-1092
Gao, Materials Engineering,2009, No. 2, pp. 254-255.
Journal of the Japan Institute of Metals, 2005, 69(12): 1064-1068
SAMPLE Journal, 2013, 49(2): 20-21

Use of WEDM in the Characterization Process of Al/2-Phase Systems Consolidated by Multilayer Cylindrical Dynamic Compaction Method

Online since: May 2007

Authors: Noé G. Alba-Baena, Lawrence E. Murr, Alejandro Loya-Puga, Wayne Salas

Acknowledgements The authors express their gratitude to Rodrigo Rios Rodriguez and the Universidad Autónoma de Ciudad Juárez (UACJ) Manufacturing Engineering Laboratories, Lola Norton and the University of Texas at El Paso (UTEP) Environmental Eng.
Hokamoto: Journal of Materials Processing Technology Vol. 115 (2001), pp. 396-401
Satyanarayana: Journal of Materials Processing Technology Vol. 153-154 (2004), pp. 978-985
Chung Wang: Journal of Materials Processing Technology Vol. 95 (1999), pp. 222-231
E. van Zyl, et al., Ceramics International Vol. 30 (2004), pp. 629-634

Aspects Regarding the Surface Quality of the Laser Engraved Glass

Online since: October 2014

Authors: Vlad Diciuc, Ciprian Melian, Mircea Lobonţiu

The most common laser engraved materials are ceramics and glass.
Dahotre, Laser machining of structural ceramics—A review, Journal of the European Ceramics Society, Vol.29 (2009) 969-993
Hashmi, 3D transient thermal modeling of laser microchannel fabrication in limesoda glass, Journal of Materials Processing Technology, Vol.207 (2009) 307-314
Lobontiu, Quality Classes for craters generate with laser beam in glass, Annals of MteM for 2013 & Proceedings of the 11th International Conference Modern Technologies in Manufacturing, Cluj, 2013, pp. 155 – 160
Melian, Research regarding the surface quality of the laser engraved glass (in Romanian), PhD thesis, Technical University of Cluj-Napoca North University Center Baia Mare, Faculty of Engineering, 2012.

Solution Strengthening the Ti-6Al-4V Joints were Brazed by Ti-15Cu-15Ni and Ag-26.7Cu-4.5Ti Filler Foils

Online since: February 2020

Authors: Sen Yeu Yang, Kuo Hsun Lee

Wang, Journal of the European Ceramic Society, Vol. 36(8), (2016) 2067-2074
Chang, Materials Science & Engineering A, Vol. 420(1-2) ,(2006) 155-164
Hsieh, Journal of Materials Science and Engineering B 7 (7-8), (2017) 142-148
Koo, Materials Science & Engineering A, Vol. 398(1-2), (2005) 113-127
Muolo, Journal of the European Ceramic Society, Vol. 36(16), (2016) 4185-4196

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