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Online since: January 2022
Authors: A.V. Sedelnikov, V.V. Serdakova
Mathematical Model
We consider a one-dimensional model of thermal conductivity [6], described by the equation:
, (1)
where is the coefficient of thermal conductivity; c and ρ – respectively, the specific heat capacity and density of the solar panel material; λ is the coefficient of thermal conductivity; is the temperature at some point of the solar panel, depending on its coordinates and time.
Acknowledgements This work is supported by the Ministry of education and science of the Russian Federation in the framework of the State Assignments to higher education institutions and research organizations in the field of scientific activity (the project FSSS-2020-0017).
References [1] Gorozhankina A S, Orlov D I, Belousova D A 2020 Problems of development motion control algorithms for a small spacecraft for technological purpose taking into account temperature deformations of solar panels Journal of Physics: Conference Series 1546 012015 [2] Narasimha M, Kuttan K K A, Ravikiran K 2010 Thermally induced vibration of a simply supported beam using finite element method International Journal of Engineering Science and Technology 2(12) 7874–7879 [3] Zhang L 1999 The on-orbit thermal-structural analysis of the spacecraft component using MSC/NASTRAN MSC 1999 Aerospace Users' Conference Proceedings 1–8
[4] Sedelnikov A V 2012 Fractal quality of microaccelerations Microgravity Science Technology 24(5) 345–350 [5] Belousova D A, Serdakova V V 2020 Modeling the temperature shock of elastic elements using a one-dimensional model of thermal conductivity International Journal of Modeling, Simulation, and Scientific Computing 11(6) 2050060 [6] Sedelnikov A V, Orlov D I 2020 Development of control algorithms for the orbital motion of a small technological spacecraft with a shadow portion of the orbit Microgravity Science and Technology 32(5) 941–951 [7] Ushakov I B, Ilyin E A 2010 Advances of space medicine and biology research in Russia 47th session of the STS of the Committee on the Peaceful Uses of Outer Space, Vienna, Austria, 324–334 [8] Hendrickx B 2010 The future of russia’s manned space programme Space Chronicle: Journal of the British Interplanetary Society 63(1) 2–34 [9] Chamberlain M K, Kiefer S H, Banik J A 2018 On-orbit structural dynamics performance of the roll-out solar
Diagnistics (7) 57–63 [14] Gaponenko Y, Gousselnikov V, Santos C I A V , Shevtsova V 2019 Near-Critical Behavior of Fick Diffusion Coefficient in Taylor Dispersion Experiments Microgravity Science and Technology 31(5) 475–486 [15] Dong W, Duan W, Liu W, Zhang Y 2019 Microgravity disturbance analysis on Chinese space laboratory npj Microgravity 5(18) 1–6
Acknowledgements This work is supported by the Ministry of education and science of the Russian Federation in the framework of the State Assignments to higher education institutions and research organizations in the field of scientific activity (the project FSSS-2020-0017).
References [1] Gorozhankina A S, Orlov D I, Belousova D A 2020 Problems of development motion control algorithms for a small spacecraft for technological purpose taking into account temperature deformations of solar panels Journal of Physics: Conference Series 1546 012015 [2] Narasimha M, Kuttan K K A, Ravikiran K 2010 Thermally induced vibration of a simply supported beam using finite element method International Journal of Engineering Science and Technology 2(12) 7874–7879 [3] Zhang L 1999 The on-orbit thermal-structural analysis of the spacecraft component using MSC/NASTRAN MSC 1999 Aerospace Users' Conference Proceedings 1–8
[4] Sedelnikov A V 2012 Fractal quality of microaccelerations Microgravity Science Technology 24(5) 345–350 [5] Belousova D A, Serdakova V V 2020 Modeling the temperature shock of elastic elements using a one-dimensional model of thermal conductivity International Journal of Modeling, Simulation, and Scientific Computing 11(6) 2050060 [6] Sedelnikov A V, Orlov D I 2020 Development of control algorithms for the orbital motion of a small technological spacecraft with a shadow portion of the orbit Microgravity Science and Technology 32(5) 941–951 [7] Ushakov I B, Ilyin E A 2010 Advances of space medicine and biology research in Russia 47th session of the STS of the Committee on the Peaceful Uses of Outer Space, Vienna, Austria, 324–334 [8] Hendrickx B 2010 The future of russia’s manned space programme Space Chronicle: Journal of the British Interplanetary Society 63(1) 2–34 [9] Chamberlain M K, Kiefer S H, Banik J A 2018 On-orbit structural dynamics performance of the roll-out solar
Diagnistics (7) 57–63 [14] Gaponenko Y, Gousselnikov V, Santos C I A V , Shevtsova V 2019 Near-Critical Behavior of Fick Diffusion Coefficient in Taylor Dispersion Experiments Microgravity Science and Technology 31(5) 475–486 [15] Dong W, Duan W, Liu W, Zhang Y 2019 Microgravity disturbance analysis on Chinese space laboratory npj Microgravity 5(18) 1–6
Online since: November 2010
Authors: Jie Liu, Yan Jun Li, Ze Honɡ Wanɡ, Xing Guo Su, Hong Qian Yuan, Xiao Ge Xu
The chemical analysis for materials in this test were shown from table 1.
[6] Wei Dezhou: Solid material separation, (Metallurgical Industry Press, Beijing 2000)
[7] Wang Dianzuo, Qiu Guanhua and Hu Yuehua: Resource processing, (Science Press, Beijing 2005)
Pasick: Express Information of Mineral Processing Abroad, Vol. 10(1998), p. 4 [12] Hu Yuehua, Qu Guangzhou and Wang Dianzuo: Journal of Central South University of Technology(Natural Science), Vol. 6(1994), p. 310 [13] Warren L J: Journal of Colloid and Interface Science, (1975), p.307 [14] Warren L J in: The Wark Symposium, edited by Jones MH and Woodcock J.
[15] Lu Shouci and Li Guoqing: Journal of Wuhan University of Science and Technology(Natural Science Edition), Vol. 7(1984), p. 1 [16] Cao Mingli, Chen Liyong, Gong Wenqi and Yuan Jizu: The Chinese Journal of Nonferrous Metals, Vol. 12(2000), p, 934 [17] A.
[6] Wei Dezhou: Solid material separation, (Metallurgical Industry Press, Beijing 2000)
[7] Wang Dianzuo, Qiu Guanhua and Hu Yuehua: Resource processing, (Science Press, Beijing 2005)
Pasick: Express Information of Mineral Processing Abroad, Vol. 10(1998), p. 4 [12] Hu Yuehua, Qu Guangzhou and Wang Dianzuo: Journal of Central South University of Technology(Natural Science), Vol. 6(1994), p. 310 [13] Warren L J: Journal of Colloid and Interface Science, (1975), p.307 [14] Warren L J in: The Wark Symposium, edited by Jones MH and Woodcock J.
[15] Lu Shouci and Li Guoqing: Journal of Wuhan University of Science and Technology(Natural Science Edition), Vol. 7(1984), p. 1 [16] Cao Mingli, Chen Liyong, Gong Wenqi and Yuan Jizu: The Chinese Journal of Nonferrous Metals, Vol. 12(2000), p, 934 [17] A.
Online since: July 2020
Authors: Vitalii V. Kozlovski, Maxim Z. Shvarts, Vladimir Zabrodski, Andrei Nikolaev, Svetlana Levina, Alexander A. Lebedev, Evgenia V. Kalinina
This work was supported by the Russian Science Foundation (project № 16-12-10106).
Journal of Vacuum Science & Technology B33 (4) (2015) 04602-04041
Semiconductor Science and Technology 20 (2005) 710-715
Journal of Vacuum Science & Technology B33 (2015) 040602- 040610
Materials Science Forum, Vol. 963 (2019) 722-725
Journal of Vacuum Science & Technology B33 (4) (2015) 04602-04041
Semiconductor Science and Technology 20 (2005) 710-715
Journal of Vacuum Science & Technology B33 (2015) 040602- 040610
Materials Science Forum, Vol. 963 (2019) 722-725
Online since: February 2015
Authors: Rui Pan, Robert Shanks, Ling Ling Wang
Crystallite Cluster Structure Formation Resulting from Semi-enclosed Cage Interaction in TSI-POSS/PU Hybrid Composites
Rui Pan1,a, Robert Shanks2,b, Lingling Wang1,c
1Chemistry and Material Science College, Sichuan Normal University; Key Laboratory of Special Waste Water Treatment, Sichuan Province Higher Education System, Chengdu City, PRC, 610041.
2School of Applied Sciences, RMIT University, GPO Box 2476 Melbourne VIC 3001, Australia.
anewsolon@tom.com, brobert.shanks@rmit.edu.au, c549269113@qq.com Keywords: POSS; Polyurethane; Molecular dynamics; Hybrid material Abstract.
Experimental Materials.
Accelrys Amorphous Cell module and COMPASS force field in Materials Studio software were adopted in all simulation process in our research, which has been used successfully for the simulation of polymer nanocomposites containing POSS [6-7].
Vol.41(2000), P. 7209 [8] Rui Pan, Robert Shanks,et al: Polymer BulletinVol.71(2014), P.2453 [9] Vinicius Pistor, Daniela de Cnto et al.: Journal of Nanomaterials (2012),doi:10.1155/2012/28031 [10] Xu H, Kou S-W, Lee JS.
anewsolon@tom.com, brobert.shanks@rmit.edu.au, c549269113@qq.com Keywords: POSS; Polyurethane; Molecular dynamics; Hybrid material Abstract.
Experimental Materials.
Accelrys Amorphous Cell module and COMPASS force field in Materials Studio software were adopted in all simulation process in our research, which has been used successfully for the simulation of polymer nanocomposites containing POSS [6-7].
Vol.41(2000), P. 7209 [8] Rui Pan, Robert Shanks,et al: Polymer BulletinVol.71(2014), P.2453 [9] Vinicius Pistor, Daniela de Cnto et al.: Journal of Nanomaterials (2012),doi:10.1155/2012/28031 [10] Xu H, Kou S-W, Lee JS.
Online since: February 2013
Authors: K. Taibi, Lounis Azeddine, Naîma Ouazène
Materials and methods
Materials
The wood powder (WP) was obtained from Transbois Factory of Algeria.
Tzeng, Journal of Hazardous Materials, 170 (2009), p. 417 [8] B.H.
Journal of Hazardous Materials. 161 (2009), p. 753 [9] L.
Journal of Hazardous Materials, 167 (2009), p. 1089 [12] R.
Indian Journal of Science and Technology, 3 (2010), p. 44
Tzeng, Journal of Hazardous Materials, 170 (2009), p. 417 [8] B.H.
Journal of Hazardous Materials. 161 (2009), p. 753 [9] L.
Journal of Hazardous Materials, 167 (2009), p. 1089 [12] R.
Indian Journal of Science and Technology, 3 (2010), p. 44
Online since: February 2006
Authors: Ai Bing Yu, Y. Zhang
Introduction
The grindability of ceramics reflects the difficulty of materials to be ground, which is essential for
the machining technology of ceramics.
Acknowledgement This study was supported by National Science Foundation of China (Grant No. 50305023).
Boccaccini: Journal of Materials Process Technology, Vol.65 (1997), pp. 302
He: Analytic Hierarchy Process (Science Press, China 1986).
Tian: Materials Science Forum, Vols.471-472 (2004), pp.132.
Acknowledgement This study was supported by National Science Foundation of China (Grant No. 50305023).
Boccaccini: Journal of Materials Process Technology, Vol.65 (1997), pp. 302
He: Analytic Hierarchy Process (Science Press, China 1986).
Tian: Materials Science Forum, Vols.471-472 (2004), pp.132.
Online since: September 2011
Authors: Fu Ping Liu, Yong Gang Yang
Experimental Materials and Instruments
The 4 offset inks (YMCK) from Tianjin Co.
(In Chinese) [2] Bernié J,Pande H,Gratton R: Tappi Journal,2006,5(10):28-32
[3] Afriana S,Chamundi G,Sonya R, et al: Appita Journal,2006,59(5):385-390
[4] Pauler N: Advances in Printing Science and Technology,1988,19 (3):116-136
[9] Aspler J: Nordic Pulp and Paper Research Journal,1993,8(1):27-32
(In Chinese) [2] Bernié J,Pande H,Gratton R: Tappi Journal,2006,5(10):28-32
[3] Afriana S,Chamundi G,Sonya R, et al: Appita Journal,2006,59(5):385-390
[4] Pauler N: Advances in Printing Science and Technology,1988,19 (3):116-136
[9] Aspler J: Nordic Pulp and Paper Research Journal,1993,8(1):27-32
Online since: March 2018
Authors: Bianca Mae Z. Crisogono, Sarah Katrina V. Salvacion, Marvin S. Tolentino, Ruth R. Aquino
Materials and Methods
The study focused on the fabrication of PSF nanostructured membranes by electrospinning.
Chemical Engineering Journal, 198-199, 310-317
Journal of Membrane Science, 444, 318-326. doi:10.1016/j.memsci.2013.05.024
Chemical Engineering Journal , 223-224
New York: Elsevier Science Publishing Company, Inc
Chemical Engineering Journal, 198-199, 310-317
Journal of Membrane Science, 444, 318-326. doi:10.1016/j.memsci.2013.05.024
Chemical Engineering Journal , 223-224
New York: Elsevier Science Publishing Company, Inc
Online since: October 2011
Authors: Hong Chao Yin, Lin Mu
Heat transfer in deposits
The deposition of particles with high content of alkali inorganic materials (such as sulphates, carbonates, silicates, some oxides and their eutectic mixtures) [3] on the surface of tube banks is an extremely complex process [4,5].
CEN: Journal of Zhejiang University - Science A Vol. 5A (2005), p.1100 [2] J.
Sarofim: Journal of the Air & Waste Management Association Vol. 50 (2000), p. 565 [3] S.
Bryers: Progress in Energy and Combustion Science Vol. 22 (1996), p. 29 [5] H.
Kunii: AIChE Journal Vol.(3) 1957, p.373 [12] Y.
CEN: Journal of Zhejiang University - Science A Vol. 5A (2005), p.1100 [2] J.
Sarofim: Journal of the Air & Waste Management Association Vol. 50 (2000), p. 565 [3] S.
Bryers: Progress in Energy and Combustion Science Vol. 22 (1996), p. 29 [5] H.
Kunii: AIChE Journal Vol.(3) 1957, p.373 [12] Y.
Online since: June 2020
Authors: Sujan Debnath, Mahmood Anwar, Felix Wong Wei Zie, Abdul Hamid
Experimental
Materials.
Materials Today: Proceedings 5 (1): 2518-2526
Indian Journal Of Advances In Chemical Science, 267-274
Composite Materials. 3rd ed.
Journal Of Thermoplastic Composite Materials 22 (2): 115-133
Materials Today: Proceedings 5 (1): 2518-2526
Indian Journal Of Advances In Chemical Science, 267-274
Composite Materials. 3rd ed.
Journal Of Thermoplastic Composite Materials 22 (2): 115-133