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Acknowledgements This work was supported in part by the National High Technology Research and Development Program of China under Grant No. 2011AA010101, the National Natural Science Foundation of China under Grant No. 61103197 and 61073009, the Key Programs for Science and Technology Development of Jilin Province of China under Grant No. 2011ZDGG007, the Youth Foundation of Jilin Province of China under Grant No. 201101035.
[5] Chen Bing, Tan Chengxiang, Dai Yuebo in: International Conference on Advanced Materials and Engineering Materials. edited by Gao S, volume 457 of Advanced Materials Research(2012)
Journal of Universal Computer Science.
[8] Lu Boyong, in: International Conference on Sport Material, Modeling and Simulation, Knowledge Discovery and Data Mining. edited by Wu, YW, volume 187 of Advanced Materials Research(2012)
[9] Chen Bing, Dai Yuebo and Jin Bo, in: International Conference on Computer, Electrical, and System Sciences, and Engineering. edited by Wang, XL, (2011).

Material and method Study plantation site is located in the Liangshui National Natural Reserve, Heilongjiang, China (lat 47°10'50", long 128º53'20 ").
Vol. 12 No. 4 (1984), p.1-12 (in Chinese with English summary) [8] Lu YC: Theory and practice of near to nature mamagement (Science Press, Beijing 2006 , in Chinese)
[9] Ryo Kohsaka and Itsuki C Handoh: Journal of Forest Research.
Vol.134 (2000), p. 257-270 [21] Rothe A and Binkley D : Canadian Journal of Forest Research.
Vol. 233(2006), p. 211-230 [30] Chen CR and Wang SL: Eocology of mixed plantation (Science Press, Beijing, 2004, p. 120-137, in Chinese) [31] Huang ZH, Tian DL and Liang RY: Journal of Central South University of Forestry &Technology.

Visual Renovation of Cultural Heritage Buildings Through Advanced Construction Materials - 2D-Printed Protective Cladding on Facade Scaffolds Ventsislav Minchev Tepeliev1,a* 1Department of Construction Technology and Mechanisation, Faculty of Structural Engineering, University of Architecture, Civil Engineering and Geodesy, 1 Hristo Smirnenski Blvd., 1164 Sofia, Bulgaria av.tepeliev@uacg.bg Keywords: cultural heritage at risk, printed nets, education 4.0., artificial intelligence Abstract.
Printed safety net on part of the facade scaffold during the repair of the facade of a building, Vitosha boulevard, Sofia [3] (left), Type of cladding (middle), State properties in poor condition - cladding applicability (top right), Private properties in poor condition - cladding applicability (bottom right) The study of the possibilities for digital printing on different surfaces and materials showed constantly improving technological capabilities for the design and execution of images.
Visual renovation of cultural heritage at risk through advanced construction materials will refresh the appearance of the ancient parts of the urban areas and will show the public what their living areas can look like if mechanisms were found to support private interest in the preservation of architectural properties.
Awuah, “Developing a heritage BIM shared library for two case studies in Jordan’s heritage: The House of Art in Amman and the Qaqish House in the World Heritage City of as‑Salt”, Heritage Science, 10:196, Springer Open, (2022) [6] V.
Véron, “H-BIM and Artificial Intelligence: Classification of Architectural Heritage for Semi-Automatic Scan-to-BIM Reconstruction” Sensors 2023, 23(5), 2497, MDPI Open, journal, (2023) [7] V.

Control Dominant Factors Analysis for Under-actuated Vehicle Platoon Stability System Ronghui Zhang1, 2,3,a, Tao Liu 2,b, Yulong Pei 3,c ,Sanqiang Yang 4,d 1Xinjiang Academy of Communication Science, Urumqi 830000, China 2School of Transportation Science and Engineering, Harbin Institute of Technology, Harbin 150090, China 3Xinjiang Technical Institute of Physics & Chemistry, Chinese Academy of Sciences, Urumqi 830011, China azrh1981819@126.com, bL_Tao2000@163.com, cyulongp@263.net,dysq0999@126.com Keywords: Intelligent transportation system, Multi-agent, Under actuated physics system, Robust optimal control, Vehicle Dynamics.
Move a difficulty and circulate unsteady, motive shortage, the acceleration dilatoriness, is soon unsteady, exhaust a super mark, the oil consumed high, lead hot, lack fire and return to fire with continuous Material etc.
Acknowledge This work is partially supported by the National Natural Science Foundation of China (The Granted NO. 51108192, 11147128 and 51208500) and Chinese Postdoctoral Science Foundation (The Granted NO. 2012M521824 and NO. 2013T60904).
Tomasini: Journal of Wind Engineering and Industrial Aerodynamics, Vol. 99 (2011) No. 10, pp.1000-1010
Zheng: Journal of Beijing Institute of Technology, Vol. 20 (2011)No 7, pp.146-154.

Nanocomposites derived from biomaterials are crucial in advancing sustainable and innovative functional materials for diverse applications, including environmental remediation and wastewater treatment.
Introduction Nanocomposites play a vital role in developing novel functional materials for various applications, including coatings, biomedicine, membrane technology, and wastewater treatment [1].
Cellulosic materials such as cotton, paper, and fibrillated natural fiber were commonly used as solid substrates in developing cellulose/metal nanoparticle composites [11].
Methodology Chemicals and Materials Collection.
Oracion et al.: Journal of Applied Science and Engineering Vol. 24 (2021), p. 351-357 [18] M.

References [1]Zhu W L,Cui L H,Ouyang Y,et al.Kinetic Adsorption of Ammonium Nitrogen by Substrate Materials for Constructed Wetlands[J].Pedosphere,2011,21(4):454-463
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Materials and method Materials: Four sterile watch glasses; some efflorescent crude oil which sampled from the waste petroleum pit; 200 grams contaminated soil which sampled from study site and the efflorescent level of contaminated soil is as the same of the petroleum; some unweathered soil which sampled on the soil surface of the study site where farther from the waste petroleum pit and the concentration of petroleum hydrocarbon is less than 1 mg/kg, and sterilization before the experiment; a certain number petroleum ether; 1/1000 balances.
Nobre, Manoel M.M., “Natural attenuation of chlorinated organics in a shallow sand aquifer”, Journal of Hazardous Materials vol 110, 2004, p.129-137
[3] Fan Xiaozhen, Lu Bo, Gong Aijun, “Dynamics of solar light photodegradation behavior of atrazine on soil surface”, Journal of Hazardous Materials, vol 177, 2005, p.75-79
Liang, “Photodegradation of polycyclic aromatic hydrocarbon pyrene by iron oxide in solid phase”, Journal of Hazardous Materials, vol 162, 2009, p.716–723
[7] Lihong Zhang, Chengbin Xu, Zhonglin Chen, Xuemei Li, Peijun Li, “Photodegradation of pyrene on soil surfaces under UV light irradiation”, Journal of Hazardous Materials, vol 173, 2010, p.168–172

Environmental Science, 1991,12(4):12-19 [4] Luo K L, Ren D Y, etc.
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Air weapons LY12CZ most common aluminum alloy was selected as test material and immersion test referenced HB5455-90 standard.
Acknowledgments This work was supported by the National Natural Science Foundation of China Academy of Engineering Physics and jointly set up "NSAF" joint fund NSAF: 11176027 and Postgraduate Innovation Fund Project by Southwest University of Science and Technology.
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In principle, in any structural element operating on bending, torsion occurs due to random eccentricity conditioned by asymmetry of section, heterogeneity of materials or off-center application of vertical load.
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In Materials Science Forum, 2019, Vol. 968, pp. 361-367