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Online since: October 2025
Authors: Guoqing Guan, Ahmed S.G. Khalil, Mohsen A. Hassan, Mohamed A.A. Eldaly
Materials and Methods
Materials.
Materials characterization.
Qiao: Advanced Functional Materials Vol. 27 (2017), p. 1606129 [6] E.
Tu: Journal of Magnetism and Magnetic Materials Vol. 321 (2009), p. 3311
Gedanken: ACS Applied Materials and Interfaces Vol. 14 (2022), p. 18570 [12] Z.
Materials characterization.
Qiao: Advanced Functional Materials Vol. 27 (2017), p. 1606129 [6] E.
Tu: Journal of Magnetism and Magnetic Materials Vol. 321 (2009), p. 3311
Gedanken: ACS Applied Materials and Interfaces Vol. 14 (2022), p. 18570 [12] Z.
Online since: March 2016
Authors: Jian Liu, Jie Liu, Xing Long Leng, Fu Rong Qu
Organic/Inorganic Hybrid Materials for Organic Electronic Application
Liu Jiana, Liu Jieb, Leng Xinglongc and Qu Furongd
Institute of microelectronics, Chinese Academy of Sciences/Devices and integrated technology, the Key Laboratory of microelectronics, Beijing 100029, China
aliujian1@ime.ac.cn, bliujie@ime,ac.cn, clengxinglong@ime.ac.cn, dqufurong@ime.ac.cn
Keywords: Organic electronic, Encapsulation, PECVD, Organic/Inorganic Alternative structure.
OLED, OPV and printed electronic devices usually contain active metal electrode, the functional materials of the device are more sensitive to water and oxygen, which can reduce the lifetime of the device through electrochemical reaction [2].
Ieee Journal of Selected Topics in Quantum Electronics 2004, 10, (1), 45-57
Progress in materials science 2003, 48, (1), 1-55
Journal of Vacuum Science & Technology a-Vacuum Surfaces and Films 1998, 16, (6), 3190-3198
OLED, OPV and printed electronic devices usually contain active metal electrode, the functional materials of the device are more sensitive to water and oxygen, which can reduce the lifetime of the device through electrochemical reaction [2].
Ieee Journal of Selected Topics in Quantum Electronics 2004, 10, (1), 45-57
Progress in materials science 2003, 48, (1), 1-55
Journal of Vacuum Science & Technology a-Vacuum Surfaces and Films 1998, 16, (6), 3190-3198
Online since: May 2010
Authors: Si Ning Chen, Yin Quan Duo, Li Jun Wei
Massive research works have been
conducted around chemical reaction, raw material, catalyst, solution, product, and process greening.
Safety Science, 2003, 41: 219 - 2401 [4] Institute of Industrial Economics of Chinese Academy of Social Sciences. 2005 report on China industry development [M].
Journal of Molecular Catalysis A: Chemical, 2002, (182- 183): 419-437
Journal of Loss Prevention in the Process Industries, 2005, 18: 254 - 260 [18] CORZINE J H C.
A material centric methodology for developing inherently safer environmentally benign processes [ J ] .
Safety Science, 2003, 41: 219 - 2401 [4] Institute of Industrial Economics of Chinese Academy of Social Sciences. 2005 report on China industry development [M].
Journal of Molecular Catalysis A: Chemical, 2002, (182- 183): 419-437
Journal of Loss Prevention in the Process Industries, 2005, 18: 254 - 260 [18] CORZINE J H C.
A material centric methodology for developing inherently safer environmentally benign processes [ J ] .
Online since: March 2022
Elena Gordo Odériz
ORCID 0000-0002-2869-1363
Universidad Carlos III de Madrid, Materials Science and Engineering Department; Avenida de la Universidad 30, Leganes, Madrid, 28911, Spain
Dear Сolleagues,
Let me present the first issue of the new interdisciplinary journal "Engineering Innovations" to your attention.
The journal was established as an open-access periodical.
The development of engineering sciences is now a diverse and multi-connected dynamic process.
It is worth recalling, for example, how the emergence and progress in the study of nanostructures in materials science gave an impetus to the rapid creation of new methods and technical means of research.
Further functional and structural materials have emerged, nanotechnologies have developed - technologies operating with materials and physicochemical processes at the nano level.
The journal was established as an open-access periodical.
The development of engineering sciences is now a diverse and multi-connected dynamic process.
It is worth recalling, for example, how the emergence and progress in the study of nanostructures in materials science gave an impetus to the rapid creation of new methods and technical means of research.
Further functional and structural materials have emerged, nanotechnologies have developed - technologies operating with materials and physicochemical processes at the nano level.
Online since: June 2014
Authors: Bo Tian, Wei Jie Gao, Qian Wang
Vessel collision prevention issue has always been the focus of the nautical science research.
References [1] Yuanqiao WEN: Risk Degree Analysis of Ship Collision Risk in Channel Based on Orderd Probit Model, China Safety Science Journal, Vol.22 No.2.Feb.2012 [2] Zhongyi Zheng, Zhaolin Wu:Model of ship’s optimzation magnitude of coursealteration in decision-making for collision avoidance, Journal of Dalian Maritime University,2002,26(4) 5-18 [3] Zhaolin WU: Marine traffic engineering, Dalian, Dalian Maritime University press(2004).
Dalian Maritime University Press Dalian Maritime University Press Dalian Maritime University Press [4] Erbang HU: Environmental risk assessment of the practical technology and method, Beijing, China Environment Science Press (2000)
[6] Liwen HUANG: Design and Application of the Maritime Emergency Management System on Inland Waters[J].Journal of Transport Information and Safety,2009(2):112-114
[7] Jianghua ZHOU: Journal of NINGBO University,2004,17(1):61-65
References [1] Yuanqiao WEN: Risk Degree Analysis of Ship Collision Risk in Channel Based on Orderd Probit Model, China Safety Science Journal, Vol.22 No.2.Feb.2012 [2] Zhongyi Zheng, Zhaolin Wu:Model of ship’s optimzation magnitude of coursealteration in decision-making for collision avoidance, Journal of Dalian Maritime University,2002,26(4) 5-18 [3] Zhaolin WU: Marine traffic engineering, Dalian, Dalian Maritime University press(2004).
Dalian Maritime University Press Dalian Maritime University Press Dalian Maritime University Press [4] Erbang HU: Environmental risk assessment of the practical technology and method, Beijing, China Environment Science Press (2000)
[6] Liwen HUANG: Design and Application of the Maritime Emergency Management System on Inland Waters[J].Journal of Transport Information and Safety,2009(2):112-114
[7] Jianghua ZHOU: Journal of NINGBO University,2004,17(1):61-65
Online since: July 2012
Authors: Supakorn Silakate, Anucha Wannagon, Apinon Nuntiya
Effect of Concentration of Iron Oxide on Crystallization Behavior in Leadless Iron Oxide Crystalline Glaze
Supakorn Silakate1,a, Anucha Wannagon2,b and Apinon Nuntiya3,c
1Department of Physics and Materials Science Faculty of Science,
Chiang Mai University Chiang Mai, Thailand
2National Metal and Materials Technology Center (MTEC),
Thailand Science Park Pathumthani, Thailand
3Department of Industrial Chemistry Faculty of Science,
Chiang Mai University Chiang Mai, Thailand
assilakate@gmail.com, banuchaw@mtec.or.th, cnuntiyaapinon@gmail.com
Keywords: Leadless glaze, Iron oxide, Crystallization, Crystal growth
Abstract.
The glaze raw materials were ground for homogeneous mixtures by ball milling for 24h.
The glaze raw materials were ground for homogeneous mixtures by ball milling for 24h.
Acknowledgements The authors would like to acknowledge Department of Industrial Chemistry and Department of Physics and Materials Science, Faculty of Science and Graduate School, Chiang Mai University, Thailand and Thailand Graduate Institute of Science and Technology (TGIST), National Science and Technology Development Agency (NSTDA) for the Ph.D.
Program Thai Doctoral degree for chemical materials and financial support of this work.
The glaze raw materials were ground for homogeneous mixtures by ball milling for 24h.
The glaze raw materials were ground for homogeneous mixtures by ball milling for 24h.
Acknowledgements The authors would like to acknowledge Department of Industrial Chemistry and Department of Physics and Materials Science, Faculty of Science and Graduate School, Chiang Mai University, Thailand and Thailand Graduate Institute of Science and Technology (TGIST), National Science and Technology Development Agency (NSTDA) for the Ph.D.
Program Thai Doctoral degree for chemical materials and financial support of this work.
Online since: February 2016
Authors: Beata Leszczyńska-Madej, Jerzy Smolik, Paulina Zawadzka, Ilona Nejman, Maria Richert
Effect of the addition of glassy carbon on the structure and properties of ZrO2 – Y2O2 coatings
Maria Richert 1a, Ilona Nejman 1b*, Beata Leszczyńska – Madej 1c,
Paulina Zawadzka 1d, Jerzy Smolik 2e
1 AGH University of Science and Technology, Faculty of Non-Ferrous Metals,
Department of Materials Science and Non-Ferrous Metals Engineering.
Material Science Forum (2011) 113-120 [2] G.
Materials Research 11 (2008) 137-143He [7] J.
Richert, The wear resistance of thermal spray the tungsten and chromium carbides coatings, Journal of Achievements in Materials and Manufacturing Engineering. 47 (2011) 177-183
Pałka, The Cr3C2 thermal spray coating on Al-Si substrate, Journal of Achievements in Materials and Manufacturing Engineering. 38 (2010) 95-102 [16] P.
Material Science Forum (2011) 113-120 [2] G.
Materials Research 11 (2008) 137-143He [7] J.
Richert, The wear resistance of thermal spray the tungsten and chromium carbides coatings, Journal of Achievements in Materials and Manufacturing Engineering. 47 (2011) 177-183
Pałka, The Cr3C2 thermal spray coating on Al-Si substrate, Journal of Achievements in Materials and Manufacturing Engineering. 38 (2010) 95-102 [16] P.
Online since: February 2012
Authors: Che Mohd Ruzaidi Ghazali, Mohd Mustafa Al Bakri Abdullah, Y.M. Liew, C.Y. Heah, Hussen Kamarudin, Mohammed Binhussain, Ismail Khairul Nizar, Luqman Musa
Experimental Methods
Materials.
It was used as Si-Al cementitious materials.
Australian Journal of Basic and Applied Sciences, 2011. 5(7): p. 1026-1035
Journal of Materials Processing Technology, 2009. 209(12-13): p. 5276-5280
Australian Journal of Basic and Applied Sciences, 2011. 5(9): p. 441-449
It was used as Si-Al cementitious materials.
Australian Journal of Basic and Applied Sciences, 2011. 5(7): p. 1026-1035
Journal of Materials Processing Technology, 2009. 209(12-13): p. 5276-5280
Australian Journal of Basic and Applied Sciences, 2011. 5(9): p. 441-449
Online since: September 2011
Authors: Yi Qiang Xiang, Dong Mei Guo, Kun Cheng
Hence researchers should consider the economic development of road traffic area, environment of operational bridge, variation of load, deterioration law of materials, and maintenance cost of LCC for predicting RSL of bridge.
Proceedings of Building Materials and Components, Brighton, UK, 7-9 November 1990: 5-16 ], Wang and Zhao’s model[[] Wang XM, Zhao HY.
Durability of building materials and components 6.
ACI Materials Journal, Vol. 93 (1996), p. 602-608 ] presented the practical model for predicting the useful life of in-service concrete structure: . (3) Where, m is the experimental coefficient,, c0 is the initial chloride concentration of concrete inner, cs is the same as Eq.(2), ccr is the same as Eq.(1).
Journal of Zhejiang University: Engineering Science, Vol. 44 (2010), p. 831-836 (In Chinese) ] proposed the modified chloride diffusion model: . (6) Where, K is the deterioration coefficient of chloride diffusion; R is the chloride combination ability coefficient of concrete. 2) Reliability-based RSL prediction model During the useful life of bridge, reliability index is determined by analyzing time-dependent reliability.
Proceedings of Building Materials and Components, Brighton, UK, 7-9 November 1990: 5-16 ], Wang and Zhao’s model[[] Wang XM, Zhao HY.
Durability of building materials and components 6.
ACI Materials Journal, Vol. 93 (1996), p. 602-608 ] presented the practical model for predicting the useful life of in-service concrete structure: . (3) Where, m is the experimental coefficient,, c0 is the initial chloride concentration of concrete inner, cs is the same as Eq.(2), ccr is the same as Eq.(1).
Journal of Zhejiang University: Engineering Science, Vol. 44 (2010), p. 831-836 (In Chinese) ] proposed the modified chloride diffusion model: . (6) Where, K is the deterioration coefficient of chloride diffusion; R is the chloride combination ability coefficient of concrete. 2) Reliability-based RSL prediction model During the useful life of bridge, reliability index is determined by analyzing time-dependent reliability.
Online since: December 2012
Authors: John Wheeler
My own geological research overlaps with Materials Science through the common goal of understanding deformation mechanisms in crystalline materials at different conditions, and also through the application of Electron Backscatter Diffraction to quantify microstructural properties related to deformation, recrystallisation and phase change [1].
This work claimed that “All the above results [quoted from Materials Science] show that grain- boundary sliding must be the dominant mechanism of superplasticity”.
Field, (Eds.), Electron Backscatter Diffraction in Materials Science, Springer, 2009, pp. 345-357
Cutler, Progress in Materials Science 1 (1976), 61-158
Langdon, Journal Of Materials Science 44 (2009), 5998-6010
This work claimed that “All the above results [quoted from Materials Science] show that grain- boundary sliding must be the dominant mechanism of superplasticity”.
Field, (Eds.), Electron Backscatter Diffraction in Materials Science, Springer, 2009, pp. 345-357
Cutler, Progress in Materials Science 1 (1976), 61-158
Langdon, Journal Of Materials Science 44 (2009), 5998-6010