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Tyres are from all materials which are significantly involved in the total fire load of cars specific by their accessible from the exterior.
The total content of carbon-based materials is approximately 74%.
The total content of carbon-based materials is approximately 67%.
From the results of scientific papers [5-6] can be concluded that the amount and chemical composition of the combustion gases evolved during combustion of tyres depends on the mutual relationship of the materials used to produce them, and from their chemical composition.
Critical rate of thermal decomposition of pure and impregnated lignocellulosic materials: Research papers of Faculty of Materials Science and Technology in Trnava Vol. 18 (2010), p. 109-118

Mohammed, “An overview of semisolid processing of aluminium alloys,” ISRN Materials Science.
Metallurgical and Materials Transactions A: Physical Metallurgy and Materials Science.
Ding, Effects of rheocasting and heat treatmet on microstructure and mechanical properties of A356 alloy, Materials Science and Engineering A.
Naldi, “Evaluation of the thixoformability of the A332 alloy,” Journal of Materials Science.
Kapranos, Microstructural evolution of solid-solution-treated Zn-2Al in the semisolid state, Journal of Materials Science & Technology.

A hexagonal pore structure was found in the synthesized materials by HRTEM analysis, which confirms that the synthesized materials are MCM-41.
Materials and Methods Materials.
Hexagonal pore structure present in synthesized materials observed by HRTEM, which confirms that the synthesized materials are MCM-41.
Kemner: Science Vol. 276 (1997), p. 923 [7] T.
Su: International Journal of Inorganic Materials Vol. 3 (2001), p. 75 [18] I.V.

The process was followed by crushing of the materials and finally ignition at 700oC for 5 h.
Australian Journal of Basic and Applied Sciences. 452-463
International Journal of Environmental Science and Technology. 1401-1408
Research Journal in Engineering and Applied Sciences.308-313
Dental Materials 1080-1089

Materials Science and Engineering: C. 29 (2009) 1959-64
Advanced Engineering Materials. 13 (2011) 93-9
Science. 249 (1990) 1527-33
Journal of Materials Chemistry B. 2 (2014) 6157-82
Journal of Materials Chemistry. 18 (2008) 1873-80

The preparation parameters of materials of nano-SiO2 particle and epoxy resin are given in Table 1 [16].
Acknowledgements The authors gratefully acknowledge the financial support from the National Natural Science Foundation of China (Nos.11032005).
[2] Biao Yang: Polymer Nano Composite Materials, Polymer Nano Composite Materials Publishers (2009)
[3] Li-de Zhang, Si-shen Xie: Nano materials and Nano structure, Chemical Industry Publishers (2004)
[15] Yi-Lv, Guo-zhi Lv and Sheng-li Lv: Prediction of the Macroscopic Elastic Moduli of Composite Materials with the Micromechanics Method, Journal of Northwest Polytechnical University 24(6) (2006), p.787-790

Lukovics, Research of Grinding Material Tools by Modern Grinding Wheels, Key Engineering Materials 581 (2014) 211-216
Suba, Investigation of Surface Roughness while Ball Milling Process, Key Engineering Materials 581 (2014) 335-340
Rumian, Application of Taguchi method to optimization of cutting force and temperature during turning of difficult to cut materials, Key Engineering Materials 686 (2016) 114-118
Rao, Error compensation in flexible end milling of tubular geometries, Journal of Materials Processing Technology 211 (2011) 24-34
Bing, Finite element method analysis and control stratagem for machining deformation of thin-walled components, Journal of Materials Processing Technology 139 (2003) 332-336

For commingled materials, the influence of the preheat temperature and the initial pre-consolidation level dominated.
For CF/APLC-12 materials, the effect of the material temperature and tool temperature dominated and reduced deconsolidation occurred.
Shang: Composites Part B 30 (1999)495–502 [2] T.C.Lim, S.Ramakrishna: Journal of Material Processing Technology 97 (2000) 95-99 [3] N.Takano, M.Zako: Composites Science and Technology 64 (2004) 2153-2163
[7] M.A.Khan, Mabrouki: Journal of Materials Processing Technology 210 (2010) 378–388
[17] L.Mosse, P.Compston: Journal of Materials Processing Technology 172 (2006) 163–168

Among these, carbon materials have significant advantages in providing electronic transport channels for pure silicon materials due to the network structure and hierarchical pore structures, and can accommodate the volume expansion of silicon materials.
In order to further improve the properties of the materials, high conductive materials, such as carbon-nanotubes and graphene, are introduced into the silicon material.
The effect of different ratio of raw materials on the performance of Si@PR-C/Graphite is further study.
Materials Letters, 2017,199:84-87 [11] Xiaotian Li, Dandan Yang, Xiaocun Hou, et al.
Interweaved Si@C/CNTs&CNFs composites as anode materials for Li-ion [J].

To emphasize the unique properties of Nitinol as compared to other materials, this study was conducted to differentiate the behaviors of two types of stents which are made of Nititol and 316L stainless steel during implantation.
Finite Element Modeling In order to emphasize the unique properties of Nitinol as compared to other materials, the implant process of two stent was simulated.
Acknowledgements This work was financially supported by the Vietnam National Foundation for Science and Technology Development (Nafosted), Grant Number 107.02-2010.10.
Journal of Biomechanics, 41(11), 2370-2378 (2008) [4] M.
Miyazaki, Self-expanding nitinol stents: material and design considerations.