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Online since: February 2014
Authors: Qiao Zhuo Gao, Yong Gang Yang
(2)
(3)
The overprint density is the interaction result of actual magenta ink film thickness (Lm) and the cyan ink film thickness equivalent to magenta ink (Ld) [6,7,8], thus it can lead to the Eq. 4
(4)
Experimental materials and instruments
Two brands matt art paper with separately 128 g/m2, 157 g/m2 in basis weight, marked as sample 1#,2# ; Three brands offset paper with separately 60 g/m2, 100 g/m2in basis weight, marked as sample 3#,4#; Offset glossy and quick-drying ink of TGS brand (e.g. yellow, cyan and magenta ink); AIC 2-5T 2000 IGT printability tester, X-Rite 528 spectrophotometer.
(In Chinese) [7] Eriksen, Gregersen W: Nordic Pulp and Paper Research Journal, 2007, 22(3): 364-370
[8] Chinga G,Eilertsen M: Journal of Pulp and Paper Science, 2007, 33 (3): 125-132.
(In Chinese) [7] Eriksen, Gregersen W: Nordic Pulp and Paper Research Journal, 2007, 22(3): 364-370
[8] Chinga G,Eilertsen M: Journal of Pulp and Paper Science, 2007, 33 (3): 125-132.
Online since: December 2010
Authors: Lin Liu Zheng, En Gao Peng, Yu Zhong Tian, Fang Lan
Acknowledgement
It is a project supported by the project of National Natural Science Foundation of China (No. 50979084) and the project of Key Natural Science Foundation of Hubei (No. 2008CDA027).
Mazet, F.THOUVEREZ, JEZEQUEL.International Journal of Mechanical Sciences Vol 48(2006), p 536-554
The European Physical Journal Engineering (2006), p 69-80
[5] B.N.J.Persson Surface Science 401(1998), p 445-454
Journal of Ship Mechanics Vol 10(2006), p 151-158, in Chinese
Mazet, F.THOUVEREZ, JEZEQUEL.International Journal of Mechanical Sciences Vol 48(2006), p 536-554
The European Physical Journal Engineering (2006), p 69-80
[5] B.N.J.Persson Surface Science 401(1998), p 445-454
Journal of Ship Mechanics Vol 10(2006), p 151-158, in Chinese
Online since: May 2011
Authors: Jian Cai, Yan Sheng Huang, Yi Wu, Ming Ji He, Chun Yang
Acknowledgements
Funding for this research project was sponsored by the National Natural Sciences foundation (Project No. 50878087), the Guangdong Province Natural Sciences foundation (Project No. 8151009101000010), the Fundamental Research Funds for the Central Universities (Project No.20092M0230), State Key Laboratory of Subtropical Building Science Project(Project No.X2TJ-C709025z) and the Ministry of Construction (Project No. 2009-k2-36) of China.
ACI Structural Journal 2000;97(3):367–76
Journal of Structural Engineering, ASCE,V.123, No.12,Dec.2002, 1519-1526
Journal of Building Structures, 2008, 29(2):92-98 (in Chinese)
Journal of Constructional Steel Research [J]. 2006, 62(10):933-942
ACI Structural Journal 2000;97(3):367–76
Journal of Structural Engineering, ASCE,V.123, No.12,Dec.2002, 1519-1526
Journal of Building Structures, 2008, 29(2):92-98 (in Chinese)
Journal of Constructional Steel Research [J]. 2006, 62(10):933-942
Online since: October 2011
Authors: Chang Qing Dong, Qiao Hong Dong, Cai Xia Lv, Si Mo Shi, Han Fei Zhang, Guo Qin Du
The calculated burnout characteristics index and combustion characteristic index showed that combustibility of sample A is the worst while sample D is the best among four materials.
In this work, coal and grass with low moisture content and high calorific value, mixing with sludge and swill, were used as experimental materials.
Therefore, the burning time of sample D is longer than other materials.
Wang and Li Zhang: Journal of Chongqing University. 32 (2009), 598 [8] Y.M.
Xiao: Combustion Science and Technology. 10 (2004), 232 [10] Y.F.
In this work, coal and grass with low moisture content and high calorific value, mixing with sludge and swill, were used as experimental materials.
Therefore, the burning time of sample D is longer than other materials.
Wang and Li Zhang: Journal of Chongqing University. 32 (2009), 598 [8] Y.M.
Xiao: Combustion Science and Technology. 10 (2004), 232 [10] Y.F.
Online since: March 2007
Authors: Jia Nian Shen, Mou Cheng Li, Dong Liu, Xian Rong Sun, Ekoko Bakambo Gracien, Shu Dian Yao, Bin Wan
Effects of Applied Bias and Dopants on the Photocatalytic Degradation of
Aqueous Dye Solution by TiO2/Ti Electrode
*
Jianian Shen1,a , Moucheng Li2,b, Dong Liu3,c , Xianrong Sun,
Ekoko Bakambo Gracien,Shudian Yao and Bin Wan
1.Institute of Materials, Shanghai University, 149 yanchang Road, Shanghai, China 200072
2.Institute of Materials, Shanghai University, 149 yanchang Road, Shanghai, China 200072
3.Institute of Materials, Shanghai University, 149 yanchang Road, Shanghai, China 200072
jnshen@mail.shu.edu.cn, mouchengli@yahoo.com.cn, liuxx0813@sina.com
Key Words: TiO2/Ti electrode, Photocatalysis, Bias, Dopants
Abstract The photocatalytic degradation of organics in aqueous solution is an active research field.
Creating greater surface area for the adsorption of pollutants molecules needs, particularly the production of nano structured semiconductor materials.
[7] D.Beydoun, R.Amal, G.Low , S.McEvoy, Journal of Nanoparticle Research 1 (4) (1999) 439-458
[9] S.T.Aruna , Journal of Materials Synthesis and Processing 4 (3) (1996) 175-179
Rolison, Science 23 (1999) 622-624
Creating greater surface area for the adsorption of pollutants molecules needs, particularly the production of nano structured semiconductor materials.
[7] D.Beydoun, R.Amal, G.Low , S.McEvoy, Journal of Nanoparticle Research 1 (4) (1999) 439-458
[9] S.T.Aruna , Journal of Materials Synthesis and Processing 4 (3) (1996) 175-179
Rolison, Science 23 (1999) 622-624
Online since: February 2018
Authors: Xiao Li Xi, Jia Peng Chen, Li Wen Ma, Ming Xing Cao
Experimental
Materials.
Taking into account the uniform mixing of materials, sufficient contact, the best mixing rate is 400r/min.
Applied Mechanics & Materials, 440 (2014) 97-103
Journal of Non-Crystalline Solids, 212(2-3) (1997) 180-191
Metals Materials & Processes, 10(2) (1998) 145-150
Taking into account the uniform mixing of materials, sufficient contact, the best mixing rate is 400r/min.
Applied Mechanics & Materials, 440 (2014) 97-103
Journal of Non-Crystalline Solids, 212(2-3) (1997) 180-191
Metals Materials & Processes, 10(2) (1998) 145-150
Online since: March 2013
Authors: Tadeusz Uhl, Adam Martowicz, Mateusz Rosiek, Michał Mańka
Journal of Intelligent Material Systems and Structures 1997; 11(8); 903-919
Smart Materials and Structures 2000; 9; 291-297
Smart Materials and Structures 2011; 20; 1-14
Materials and Structures 2005; 38; 561-567
Smart Structures and Materials: Industrial and Commercial Applications of Smart Structures Technologies 2003; 5054; 350-359
Smart Materials and Structures 2000; 9; 291-297
Smart Materials and Structures 2011; 20; 1-14
Materials and Structures 2005; 38; 561-567
Smart Structures and Materials: Industrial and Commercial Applications of Smart Structures Technologies 2003; 5054; 350-359
Online since: May 2015
Authors: Xiao Wei Liu, Hai Feng Zhang, Yang Wang
Xu, ACS Applied Materials & Interfaces 2 (2010) 3636–3641
Parkin, Chemistry: A European Journal 16 (2010) 3568–3588
Minami, Chemistry of Materials 12 (2000) 590–592
Megaridis, ACS Applied Materials & Interfaces 2 (2010) 1114–1119
Wu, ACS Applied Materials & Interfaces 4(2012)1742–1746
Parkin, Chemistry: A European Journal 16 (2010) 3568–3588
Minami, Chemistry of Materials 12 (2000) 590–592
Megaridis, ACS Applied Materials & Interfaces 2 (2010) 1114–1119
Wu, ACS Applied Materials & Interfaces 4(2012)1742–1746
Online since: September 2018
Authors: Sebastião Elias Kuri, Neide Aparecida Mariano, Maria Eurenice Rocha Cronemberger, Lucíola Lucena de Sousa, Stephania Capellari de Rezende, Rodrigo Silva, Carlos A. Della Rovere
Advances In Science And Technology Research Journal, 9 (2015) 87-105
Materials Science Forum. 775-776 (2014) 124–129
Mariano: Materials Research
Materials Science And Engineering: A. 527 (2010) 3904–3912
Materials Science And Engineering, Stockholm, 418 (2006) 250–256
Materials Science Forum. 775-776 (2014) 124–129
Mariano: Materials Research
Materials Science And Engineering: A. 527 (2010) 3904–3912
Materials Science And Engineering, Stockholm, 418 (2006) 250–256