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Gornostal, Analysis of correlation dimensionality of the state of a gas medium at early ignition of materials, Eastern-European Journal of Enterprise Technologies,5(10) (2018) 25–30
Mani, Impact of fuel molecular structure on autoignition behavior: design rules for future high performance gasolines, Progress in Energy and Combustion Science, 60(2017) 1–25
White, Organic Phase Change Materials for Thermal Energy Storage: Influence of Molecular Structure on Properties, Molecules, 26 (2021) 6635
Shcherbak, Results of experimental research into correlations between hazardous factors of ignition of materials in premises.
Eastern-European Journal of Enterprise Technologies,6(10–90) (2017) 50–56

The molecular adsorption to activated carbon depends on the carbon surface, pore size and the source of the material.
Arc discharging is a drastic reaction, which produces very high temperature (about 3000K) in discharge area [8], at this temperature range the discharge material will be decomposed into free atom, positive ion and electron.
Conclusion In the focusing alternating magnetic field, the carbon coated iron nanoparticles can be as both induction heating source and magnetic target delivery to tumor therapy, the influencing factors of induction heating effect as follows: (1) quantity of drug carrier: the more carbon coated iron nanoparticles being used, the higher temperature it was. (2) quantity of magnetism materials in particles, high containing of Fe particles have better heating effect than the one of low Fe containing
References [1] Gong liansheng, Zhang dejiang, Zhou shaobo: China Journal of Modern Medicine Vol.1 (2001),p.14 [2] Widder KJ, Senyie AE, Sears B: J Pharm Sci Vol.71(1982),p.379 [3] Gallo JM, Gupta PK, Hung CT, et al: J Pharm Sci Vol. 78(1989),p.190 [4] Scott G, Caryn P, Carl H ， Craig B: Journal of Magnetism and Magnetic Materials Vol.194(1999),p.132-139
Biomaterials Vol. 21(2000),p.1411 [6] Rudge S, Peterson C, Vessely C, Koka J, et al: Journal of Controlled Release Vol74 (2001),p.335 [7] Haiyan Zhang, Yanyang He, Ximin Xue, et al:Materials Chemistry and Physics Vol.55(1998),p.167-170 [8] Haiyan Zhang: Journal of Materials Science Letters Vol.18(1999),p.919 [9] Haiyan Zhang, Yun Zheng, Chun Zhou, et al: Acta Biophysica Sinica Vol.22(2006),p.310 Acknowledgements This work is supported by the National Natural Science Foundation of China(Grant No.50372013), by the Specialized Research Fund for the Doctoral Program of Higher Education of China (Grant No. 20050562002 ), and by the Guangdong Provincial Natural Science Foundation of China (Grant No. 07001769)

Low-pressure Preheating Combustion Synthesis of Silicon Nitride Ke Zhang a∗, Ling Baib, Weiping Shenc, Changchun Ged 1 School of Material Science and engineering, University of Science and Technology Beijing, Beijing, 100083, China a zkdaz@163.com, bbailingniao111@163.com,c shenwp@mater.ustb.edu.cn, d ccge@mater.ustb.edu.cn Keywords: silicon nitride, preheating, combustion synthesis, diluent Abstract: Silicon nitride was prepared by means of low-pressure preheating combustion synthesis in this paper.
Nature (London), 1957,180:332-333 [2] Riley F L.Silicon Nitride and Related Materials.
Journal of the Chinese Ceramic Society,1980, 8（4）：414～421(in Chinese) [11] Cao Y G.
Paper of Doctor degree， Beijing：University of Science and Technology Beijing，1998(in Chinese) [12] Shen W P.
International Journal of Self-Propagating High-Temperature Synthesis, 2000,9(2): 171-191

The materials discharged from the press known as cake is further extracted using chemical extraction like Soxhlet extraction with Hexane as the solvent.
Bamniya, Bio Diesel from Castor Oil – A Green Energy Option, Science Research (2011) 1 – 6
Ogunniyi, Castor Oil: A Vital Industrial Raw Material, Bioresource Technology (2006)
Riley, The fatty acids and glycerides of castor oil, Journal of the Science of Food and Agriculture (2006) 245-251
[13]Akpan U.G., Jimoh A., Mohammed A.D., Extraction, Characterization and Modification of Castor Seed Oil, Leonardo Journal of Sciences (2006) 8, 43-52.

Discriminant Condition of Influencing Dynamic Response for Structure-Equipment System Fang Han 1,2,a, Dongwang Zhong 1,2,b and Jiyun Mo1,2,c 1School of Science, Wuhan University of Science and Technology, Wuhan,430065, China, 2Hubei Province Key Laboratory of Systems Science in Metallurgical Process, Wuhan University of Science and Technology, Wuhan,430081, China ahanfang522@163.com , bzhongdw123@263.net , cmojiyun@hotmail.com Keywords: structure-equipment system, dynamic interaction, discriminant condition, seismic design, vibration.
Basic material parameters are shown in Table1 and finite element model is shown in Fig.2.
Table 1 Basic material parameters Material Elastic modulus[GPa] Poisson ratio Bulk density[kg.m-3] Steel 200 0.300 7 850 Concrete 21.5 0.167 2 500 The first three frequencies are calculated as shown in Table 2.
References [1]HGürgöze, M.H HÇakar, O.Hand HZeren, S:H Journal of Sound and Vibration.Vol.295(2006),p.436 [2] HM.
ShvindinH: HChemical and Petroleum EngineeringH.Vol.39(2003),p.92 [4]Ru Xue,Youcai Zhang and Shenggui Liu:Journal of China University of Mining and Technology.Vol.32(2003),P.540(in Chinese) [5] Jie Li, Huai Chen and Zengshou Sun.

The reason is that the C-BAR reinforcement is an excellent material.
In the future, the carbon fibre composite material will be used more extensively in civil engineering.
Jin, Flexural properties research on concrete columns confined with C-BAR, Fiber Composite Material, 10 (2008) 35-38
Xi, Influence of longitudinal steel on ductility of square columns under axial load, Journal of Gaizhou University of Technology, 5 (2002) 68-73
Teng, Strength models for fiber-reinforced plastic-confined concrete, Journal of Structural Engineering, ASCE, 5 (2002) 612-623

Four nodes of ANSYS element library and elastic-plastic SHELL181 element were used in the finite element model; Node materials adopts Q345 steel which poisson's ratio is 0.3.
Journal of Building Structsures,2004,25(03): 8-13.
Journal of Wu han University of Technology, 2009, 31(11): 61-65.
Journal of Constructional Engineering,1998,124(11): 290-301
Building Science,2008,24(09): 1-5.

Materials and Methods For object of simulation the pipe billet from a steel sheet (steel grade X70) with a thickness of 30.9 mm after preliminary simulation of the roll bending process on three-roll bending machine according to the scheme that provides the most symmetrical geometry of the pipe billet was chosen [7].
International Journal of Mechanical Sciences, 49(5) (2007) 533-553
Journal of Materials Processing Technology, 215 (2015) 264-277
Journal of Offshore Mechanics and Arctic Engineering, 141(1) (2019), 011704

Figure 2 The model of stress - strength interference Figure 3 The probability density function of strength and stress ratio The Reliability Design of the Pushing Rods Choosing the Material of the Pushing Rods The pushing rod material is initially chose as 7075 -T6, which processed by turning and conducted aging reinforcement.
Foundation items: Supported by National Natural Science Foundation of China(Program No. 51305152); Supported by the Fundamental Research Funds for the Central Universities(Program No.52902-0900206075).
Journal of agricultural industrialization, 2005, 4-5:50-52
Journal of global agriculture, 2007, 12:44
Journal of wood processing machinery, 2008, 11 (2)

Carbon nanotubes (CNTs) possess extremely high stiffness, strength and resilience, and may provide the ultimate reinforcing materials for the development of nanocomposites.
Introduction Carbon nanotubes, discovered first by Iijima in 1991 [1], are the ultimate reinforcing materials for the development of an entirely new class of composites.
Evaluating the effective material properties of such nanoscale materials is one of the challenging tasks for the development of nanocomposites.
[3] Chen, X.L. and Liu, Y.J, Square representative volume elements for evaluating the effective material properties of carbon nanotube-based composites, Computational Materials Science, in press (2003)
[4] Liu, Y.J. and Chen, X.L, Evaluations of the effective materials properties of carbon nanotube-based composites using a nanoscale representative volume element, Mechanics of Materials, 35, 69-81 (2003)