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Introduction Silicon carbide is a material of choice for applications in electric vehicles due to its high power and high temperature operation capabilities.
Wu, Journal of Crystal Growth, 531, 125360 (2020) [5] Haizheng Song, Tawhid Rana, Tangali S.
Sudarshan,, Journal of Crystal Growth, 320, 95 (2011) [6] R.
Gaskill, Materials Science Forum, 679-680, 63 (2011) [8] Haizheng Song, Tawhid Rana, Tangali Sudarshan, Journal of Crystal Growth, 320, 95 (2011) [9] V.
Greve, Journal of Electronic Materials 27, 308 (1998) [10] Tawhid Rana, MVS Chandrashekhar, Tangali Sudarshan, Journal of Crystal Growth, 380, 61 (2013)

Acknowledgements This research is supported by the Natural Science Foundation of China under Grant No. 51175304.
International Journal of Machine Tools and Manufacture, 48(1), 15-28
International Journal of Machine Tools and Manufacture, 35(3), 459-476
Journal of Materials Processing Technology. 2005, 162-163:673-681
International Journal of Machine Tool & Manufacture. 2004, 44:1629-1641

Crosslinked materials from polyethylene terephthalate (PET), glycerol and clay were obtained.
Materials with concentrations of clay from 1, 10, 20, 30, 40 and 50%w/w were obtained.
Differential scanning calorimeter (DSC), Soxhlet extraction, colorimetry and Shore D hardness were used to characterize the materials.
The hardness of crosslinked materials increased according to the rise in the clay, due to the presence of ceramic material and agglomeration of particles.
[5] Wu Yuguang, Zhang Tonghe and Liu Andoni: Science in China (Series E) Vol. 46 (2003) p. 125.

Advanced Materials Research. 535-537:2606-2609 (2012)
Applied Mechanics and Materials. (2012) 148-149 603-607
Journal of Wuhan University of Technology-Materials Science Edition. 23 (2008) 54-59
JOURNAL OF XI AN JIAOTONG UNIVERSITY. 37 (2003) 971-974
Journal of Materials Science and Technology. 23 (2007) 801-805

Methodology Silicon wafer is used as a substrate material.
H., Lever, P., WoWongeung, J. and Jagadish, Production and Processing of Semiconductor Nanocrystals and Nanostructures for Photonic Applications, Institute of Materials Engineering, 26 (2002) 74-80
Mohammed et.al., Silicon Nanocrystals on the Surface of Standard Si Wafers: A Micro-Raman Investigation, Journal of Materials Science and Chemical Engineering, vol.6 no. 7, juJuly2018) 104-116
Journal of Applied Physics, 91 9, (2002)
S38-S49 [15] Veikko Lindroos, Markku Tilli, Ari Lehto, Teruaki Motooka, Handbook of Silicon-Based MEMS Materials and Technologies, Elsevier, William Andrew (2010) 375–407

Many materials have been widely chosen to form bone graft substitutes: metals, polymers, ceramics, dehydrate, and calcium phosphates [8-13].
Although these synthetic materials provide an immediate solution for many patients, their long-term performance is generally not satisfactory.
Tough Bio-Inspired Hybrid Materials.
Science, 2008, 322: 1516-1520
Chinese journal of clinical rehabilitation. 2006, 10: 69-71

Materials and Methods Materials.
Construction & Building Materials, 1(1997): 23-32
Construction & Building Materials, 1(2007) 66-72
Constr & Building Materials, 2020
Materials Science & Engineering, 7 (2010) 1030-1037

Yevdokimova, Using thermal power plants waste for building materials, IOP Conf.
Series: Materials Science and Engineering. 262(1) (2017) 012025
Lukutsova, Sand-clay raw materials for silicate materials production, Advances in Environmental Biology. 8 (10) (2014) 949-955
Gladkova, Processing of building binder materials to increase their activation, IOP Conf.
Batarshin, Nature raw materials of Russian Primorsky Krai for concrete, IOP Conf.

Materials and methods The manufacturing of the test parts were performed in a MAZAK 410A-II CNC machining centre based on NC programs, which were generated by Pro/Engineer CAD/CAM system.
The test part material was S355 (EN 10025, Re=355 N/mm2; C% 0.23, Mn% 1.60, P% 0.05, S% 0.05) low alloyed structural steel (the effect of the material properties on the surface quality is not investigated).
Manková; Cracow University of Technology (2013) pp.82-91 [6] Felhő Cs., Kundrák J.: Comparison of theoretical and real surface roughness in face milling with octagonal and circular inserts; Key Engineering Materials Vol. 581 (2014) pp.360-365 [7] Čep R., Janásek A., Petrů J., Sadílek M., Mohyla P., Valíček J., Harničárová M., Czán A.: Surface roughness after machining and influence of feed rate on process; Key Engineering Materials Vol.581 (2014) pp.341-347 [8] Bilek O; Samek D; Suba O: Investigation of surface roughness while ball milling process; Key Engineering Materials Vol.581 (2014) pp.335-340 [9] Kurt M., Hartomacioglu S., Mutlu B., Köklü U.: Minimization of the surface roughness and form error on the milling of free-form surfaces using a grey relational analysis; Materials and technology Vol.46 No.3 (2012) pp.205–213 [10] Wei Z.C., Wang M.J., Zhu J.N., Gu L.Y.: Cutting force prediction in ball end milling of sculptured surface with Z-level contouring tool path; International
Journal of Machine Tools & Manufacture Vol.51(2011) pp.428–432 [11] Wei Z.
Manufacturing Technology (2013) Vol.65 pp.363–369 [12] Zebala W.: Tool stiffness influence on the chosen physical parameters of the milling process; Bulletin of the Polish Academy of Science – Technical Sciences; Vol.60.

Garus: Power Distribution in Propulsion Systems of Semiautonomous Underwater Vehicle, Mechatronic Systems, Mechanics and Materials Vol. 180, (2012), pp. 125-130 [10] W.
Lisowski: The optimal and safe ship trajectories for different forms of neutral state constraints, Mechatronic Systems, Mechanics and Materials Vol. 180, Solid State Phenomena, (2012), pp. 64-69 [14] J.
Obrączka: Simple identification of fractional differential equation, Mechatronic Systems, Mechanics and Materials Vol. 180, Solid State Phenomena, (2012), pp. 331-338 [16] R.
Walkowiak: Dual-input current-mode gate using for digital signal processing in mechatronic systems, Mechatronic Systems, Mechanics and Materials Vol. 180, Solid State Phenomena, (2012), pp. 349-354 [18] J.
Małecki: Model of Propeller for the Precision Control of Marine Vehicle, Mechatronic Systems, Mechanics and Materials Vol. 180, Solid State Phenomena, (2012), pp. 323-330 [20] P.