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Wozniak, et.al.: Journal of the European Ceramic Society Vol. 29 (2009), p. 2259-2265 [3] F.P.W.
Music, et. al.: Brazilian Journal of Chemical Engineering Vol. 28 (2011), p. 89-95 [6] J.C.
Kardos: Polymer Engineering and Science Vol. 16 (1976), p. 344-352 [7] G.
Zak, et.al.: Journal of Manufacturing Science and Engineering Vol. 3 (1997), p. 17-24 [8] Y.J.V.
Madueke, et.al.: IOSR Journal of Polymer and Textile Engineering Vol.1 (2014), p. 39-44 [10] S.Y.

Preface The current volume of the journal contains the papers reserach papers on ceramics, metals, polimers and other engineering materials.
This special volume has been prepered in cooperation with organizing and editorial committee of International Baltic Conferences which was initiated 29 years ago and the first conference took place in 1991 as “The first International Baltic Conference on Powder Metallurgy”.
Since then, conference continues the tradition of the regular meetings held annually in one of the three Baltic States, with specific topics in each country: The Materials Engineering and Modern Manufacturing 2020 topics are: · Engineering Materials and Applications; · Advanced technologies and Manufacturing; · Industrial Engineering.
The conference Materials Engineering and Modern Manufacturing 2020 continues the tradition of the previous regular meetings by attracting many of the best-known leading scientists and specialists from almost all of the different fields of expertise covering materials engineering and manufacturing issues.
Most international conferences and events in 2020 have moved online from the convention hall, and therefore, in light of the COVID-19 pandemic, MeMM’2020 was organised as both an online and in-person event.

Huang: submitted to Journal of materials engineering and performance (2012)
Anaee: submitted to Engineering and Technology Journal (2021)
Wang: submitted to Ceramics International (2020).
Al-Shroofy, and Hanna Al-Kaisy: submitted to Engineering and Technology Journal (2021)
Dhara: submitted to Materials Science and Engineering (2019)

Bhattacharya, Nanocrystalline multicomponent entropy stabilised transition metal oxides, Journal of the European Ceramic Society, 37(2) (2017) 747-754
Lu, Ultrastable metal oxide nanotube arrays achieved by entropy-stabilization engineering, Scripta Materialia, 146 (2018) 340-343
Chen, The microstructures and electrical resistivity of (Al,Cr,Ti)FeCoNiOx high-entropy alloy oxide thin films, Advances in Materials Science and Engineering, 6 (2015)
Hahn, Rare earth and transition metal based entropy stabilized perovskite type oxides, Journal of the European Ceramic Societ, 38(5) (2018) 2318-2327
Niewa, Millimeter-wave characterization of aluminum substituted barium lead hexaferrite single crystals grown from PbO-B2O3 flux, Ceramics International, 17 (2017) 15800-15804

Through the engineering simulation of flapping-wing flying control model, the first modal vibration of the system was selected, and the different flying modes of bionic aircraft were realized by adjusting system parameters.
Firstly, the flapping-wing flying CPG model was built based on nonlinear oscillators, and then by the engineering simulation of flapping-wing flying control model, the new ideas on generation and control of flapping-wing rhythmic motion were explored.
When the voltage is added on the piezoelectric ceramic layer and elastic layer, the actuator will generate a bending movement.
Okada: JSME International Journal, Series C, Vol. 41(1998) No.3, p.621
Journal, Series C, Vol. 41(1998) No.4, p.689.

ZHANG1, c 1Department of Mechanical Engineering, Beijing Key Lab of Precision/Ultra-precision Manufacturing Equipments and Control, Tsinghua University, Beijing 100084, China a13910401904@163.com, bfengpf@tsinghua.edu.cn, czhjf@tsinghua.edu.cn Keywords: Sic particles, Ultrasonic vibration, Scratching, Unit cell Abstract.
As a plastic damage model Johnson-Holmquist can effectively simulate the brittle materials such as ceramics and glass.
Brittle-ductile transition during diamond turning of single crystal silicon carbide, International Journal of Machine Tools&Manufacture, 2013, (65):15-21
[7] Deng ZhaoHui,Zhang Bi,Sun ZongYu,Zhou ZhiXiong.Material Removal Mechanisn in Ceramic Grinding, Chinese mechanical engineering,2002,18:84-87+6
[8] Johnson GR,Cook WH.A constitutive model and data for metals subjected to large strains,high strain rates and high temperatures.In:Proceedings of the Seventh International Symposium on Ballistics.The Hague,Netherlands,1983.541-547 [9] Li Kai,Zhu JianSheng,Qian ZhiBo,Dong ShuNan,Ni Tian.Numerical Simulation of Drop Weight Impact Tests for Comp.B Using Johnson-Cook Constitutive Model,J.Mechanics in Engineering, 2011,01:21-23+73

The benzene and printing ink contained in ektexine will penetrate and pollute the contents. 2.1.5 Ceramic packaging The safety problem of ceramic packaging materials used for agricultural products packaging mainly refers to the dissolution of heavy metals, lead or cadmium, in the glaze layer of glazed ceramic surface.
Firstly, pay high attention to the development and the trend of international standards.
Firstly, strengthen the consciousness of green packaging and recognize the the status and role of packaging in the international circulation field.
Packaging Engineering,2007(2):27-30
Journal of ChangChun University,2010(10):49-51

Haertling, "Ferroelectric ceramics: history and technology," Journal of the American Ceramic Society,82, pp. 797-818, 1999
Schulze, "Processing of laminated barium titanate structures for stress-sensing applications," Journal of The American Ceramic Society,78, pp. 2476-2480, 1995
Arai, "Continuous production of BaTiO3 nanoparticles by hydrothermal synthesis," Industrial & engineering chemistry research, 44, pp. 840-846, 2005
Guo, "Preparation and characterizations of tetragonal barium titanate powders by hydrothermal method," Journal of the European Ceramic Society, 22, pp. 1163-1170, 2002
Sharma, "Structural, optical, and ferroelectric properties of BaTiO3 sintered at different temperatures," World Academy of Science, Engineering and Technology, International Journal of Mathematical, Computational, Physical, Electrical and Computer Engineering,7, pp. 1727-1730, 2013

Kao, Technology and Research of Slurry Wiresaw Manufacturing Systems in Wafer Slicing with Free Abrasive Machining, International Journal of Advanced Manufacturing Systems, 7 (2004) 10-23
Moller, Basic mechanisms and models of multi-wire sawing, Advanced Engineering Materials, 6 (2004) 501-513
Williams, Engineering Tribology, Cambridge University Press, New York, 2005
Marshall, Elastic/Plastic Indentation Damage in Ceramics: The Median Radial Crack System, Journal of the American Ceramic Society, 63 (1980) 574-581
Evans, Elastic/Plastic Indentation Damage in Ceramics: The Lateral Crack System, Journal of the American Ceramic Society, 65 (1982) 561-566

ANALYSIS OF SURFACE WASTE HEAT RECOVERY IN IC ENGINE BY USING TEG R.Prakash1, a *, D.Christopher2, b and K.Kumarrathinam3, c 1Associate Professor, Department of Mechanical Engineering, SSN college of Engineering, Chennai, India-603110 2,3 PG Scholar, Department of Mechanical Engineering, SSN college of Engineering, Chennai, India -603110 apakashr@ssn.edu.in, bchristopherdevadhas@gmail.com, crkkumarmech@gmail.com Keywords: Thermo Electric Generator, Waste Heat Recovery, Thermal Grease, Green Energy.
Suryawanshi, Ajay Chandravanshi, Waste Heat Recovery from Exhaust Gases through IC Engine Using Thermoelectric Generator, Indian Journal of Applied Research Vol. 3, Issue 7 (2013) 270-271
Arnold, Experimental Analysis of Thermoelectric Waste Heat Recovery System Retrofitted to Two Stroke Petrol Engine, International Journal of Advanced Mechanical Engineering Vol. 4, No. 1 (2014) 9-14
Ramesh Kumar , Ankit Sonthalia, Rahul Goel, Experimental study on Waste Heat Recovery from an Internal Combustion Engine using Thermoelectric Technology, International Journal of Thermal Science Vol. 15, No. 4, (2011) 1011-1022
Domkundwar, Course in Thermal Engineering Fifth revised and enlarged ed.