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Online since: August 2023
Authors: Jong Ryeol Kim, Chang Seon Shon, Aizhan Kissambinova, Aliya Abzal, Fatai Omeiza Balogun
Materials, Mixtures, and Method
Materials.
Road Materials and Pavement Design, 2021. 23(5): p. 1037-1060
Construction and Building Materials, 2020. 264
International Journal of Polymer Science, 2019. 2019: p. 1-11
Construction and Building Materials, 2013. 38: p. 508-514
Road Materials and Pavement Design, 2021. 23(5): p. 1037-1060
Construction and Building Materials, 2020. 264
International Journal of Polymer Science, 2019. 2019: p. 1-11
Construction and Building Materials, 2013. 38: p. 508-514
Online since: April 2014
Authors: Jia Zhen Pan, Jian Qiang Bao, Qiao Lei, Zhi Ying Huang, Qian Nan Xun, Shuo Jiang, Yu Ting Zhang
Diffusion of acetic and propionic acids from chitosan-based antimicrobial packaging films[J].Journal of Food Science, 2000,65(5),768–773
,et al.Tensile strength optimization and characterization of chitosan/TiO2 hybridfilm[J].Materials Science and Engineering B:Solid-State Materials for Advanced Technology.2007, 138(1), 84-89
,Wang, S.Y.,& Gunasekaran,S.Preparation and characterization of whey protein film incorporated with TiO2 nanoparticles.Journal of Food Science,2009,74(7),50-56
[15]ASTM E-398,2003:Standard Test Method for Water Vapor Transmission Rate of Sheet Materials Using Dynamic Relative Humidity Measurement
Journal of Food Science, 2001,66(6),865–870.
,et al.Tensile strength optimization and characterization of chitosan/TiO2 hybridfilm[J].Materials Science and Engineering B:Solid-State Materials for Advanced Technology.2007, 138(1), 84-89
,Wang, S.Y.,& Gunasekaran,S.Preparation and characterization of whey protein film incorporated with TiO2 nanoparticles.Journal of Food Science,2009,74(7),50-56
[15]ASTM E-398,2003:Standard Test Method for Water Vapor Transmission Rate of Sheet Materials Using Dynamic Relative Humidity Measurement
Journal of Food Science, 2001,66(6),865–870.
Online since: June 2013
Authors: Hai Wei Lu, Guo Hua Lu, Tian Sheng Chen, Zhi Ping Zhu, Cun Ren Ma, Wei Su
Electrochemical Corrosion Behavior of Ultra-supercritical Unit Waterwall Tube Material in Simulated Solution of Oxygenated Treatment at Room Temperature
Ma Cunren 1, a, Lu Haiwei 2, b, Lu Guohua 1, c, Su Wei 1, d,
Chen Tiansheng1, e, Zhu Zhiping 2, f*
1 Electric Power Research Institute of Guangdong Power Grid Corporation, Guangzhou, Guangdong 510080, China
2Changsha University of Science & Technology, Changsha, Hunan, 410114, China
asiaoma_gz@126.com, blhaiw@163.com, c boffin@163.com, djxhwsu@163.com, ejianxichen@163.com, fzzp8389@163.com
Keywords: ultra-supercritical unit; tube material; EIS; corrosion behavior
Abstract.
The electrochemical corrosion behavior of ultra-supercritical unit waterwall tube material in simulated solution of oxygenated treatment (OT) with different concentration of Cl- and SO42- at room temperature was investigated by electrochemical impedance spectroscopy and Tafel slopes.
The material employed was T23 steel, which has a composition of 0.04-0.10% C, ≤0.50% Si, 0.10-0.60% Mn, ≤0.030% P, ≤0.010% S, 1.90-2.6% Cr, 0.05-0.30% Mo, 0.20-0.30% V, 0.02-0.08% No, ≤0.03% Al, ≤0.03%N, 1.45-1.75%W and Fe as the balance[12].
[8] ZHAO Qinxin, ZHANG Zhixiang, CHENG Dingnan, WANG Yungang, DENG Xiang, Chinese Journal of Chemical Engineering(2012)
[10] Xiong Shuhua, Zhu Zhiping, Jing Lingling, Journal of Engineering for Thermal Energy & Power(2012)
The electrochemical corrosion behavior of ultra-supercritical unit waterwall tube material in simulated solution of oxygenated treatment (OT) with different concentration of Cl- and SO42- at room temperature was investigated by electrochemical impedance spectroscopy and Tafel slopes.
The material employed was T23 steel, which has a composition of 0.04-0.10% C, ≤0.50% Si, 0.10-0.60% Mn, ≤0.030% P, ≤0.010% S, 1.90-2.6% Cr, 0.05-0.30% Mo, 0.20-0.30% V, 0.02-0.08% No, ≤0.03% Al, ≤0.03%N, 1.45-1.75%W and Fe as the balance[12].
[8] ZHAO Qinxin, ZHANG Zhixiang, CHENG Dingnan, WANG Yungang, DENG Xiang, Chinese Journal of Chemical Engineering(2012)
[10] Xiong Shuhua, Zhu Zhiping, Jing Lingling, Journal of Engineering for Thermal Energy & Power(2012)
Online since: August 2012
Authors: Adriana Scoton Antonio Chinelatto, Adilson Luiz Chinelatto, Aldo Przybysz, Eleomar Lena
Materials with submicron grain structure can be obtained from nanometric powders.
Graule, Advanced Engineering Materials 7 (2005) 292-302
Groza, Nanostructured Materials 12 (1999) 987-992
Hejazi, Materials Science and Engineering: A 492 (2008) 261-267
Frade, Materials Chemistry and Physics 126 (2011) 262-271.
Graule, Advanced Engineering Materials 7 (2005) 292-302
Groza, Nanostructured Materials 12 (1999) 987-992
Hejazi, Materials Science and Engineering: A 492 (2008) 261-267
Frade, Materials Chemistry and Physics 126 (2011) 262-271.
Online since: June 2014
Authors: Swadesh Kumar Singh, Aditya D. Deole, Amit Kumar Gupta, Nitin Kotkunde
Hot working of commercial Ti–6Al–4V with an equiaxed α–β microstructure: materials modeling considerations, Material Science and Engineering A 284 (2000) 184–194
Journal of Materials and Design 31 (2010) 4866–4875
Journal of Materials Processing Technology 32 (1992) 243-251
Journal of Materials Processing Technology 139 (2003) 201-207
Journal of Materials Processing Technology 170 (2005) 181-186
Journal of Materials and Design 31 (2010) 4866–4875
Journal of Materials Processing Technology 32 (1992) 243-251
Journal of Materials Processing Technology 139 (2003) 201-207
Journal of Materials Processing Technology 170 (2005) 181-186
Online since: September 2016
Authors: Vladislav Shantarin, Yury Zemenkov, Maria Zemenkova
Volodarskogo 38, Tyumen, Russia
ashantarin33@mail.ru , byd_zemenkov@mail.ru, cmuzemenkova@mail.ru
Keywords: innovative materials, materials for utilization, hydrophobic nanopowders, oil sludge, urban safety, disposal
Abstract.
Presents the results of studies of innovative materials in the field of leaks utilization.
One of the ways to reduce consumption of natural raw materials is to use the potential of material resources accumulated in the waste, including the oil sludge.
Zemenkov, Alternative source of power production from carbon-containing wastes, Austrian Journal of Technical and Natural Sciences. 11-12 (2014) 103-106
Oil & Gas Journal. 3 (2013) 118
Presents the results of studies of innovative materials in the field of leaks utilization.
One of the ways to reduce consumption of natural raw materials is to use the potential of material resources accumulated in the waste, including the oil sludge.
Zemenkov, Alternative source of power production from carbon-containing wastes, Austrian Journal of Technical and Natural Sciences. 11-12 (2014) 103-106
Oil & Gas Journal. 3 (2013) 118
Online since: July 2011
Authors: Yan Peng, Bo Ma, Jian Liang Sun, Hong Min Liu, Su Wen Chen, Bin Bin Sun, Gang Liu
References
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Yang, eatl: submitted to Journal of Materials Processing Technology (2007) [6] Ho Keun Moon, Min Cheol Lee, Man Soo Joun: submitted to International Journal of Mechanical Sciences (2008)
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Yang, eatl: submitted to Journal of Materials Processing Technology (2007) [6] Ho Keun Moon, Min Cheol Lee, Man Soo Joun: submitted to International Journal of Mechanical Sciences (2008)
[7] Nassir Anjami, Ali Basti: submitted to Journal of Materials Processing Technology (2010)
Online since: June 2014
Authors: Min Ming Zou, Hong Gang Shi, Xiang Hai Ye, Qun Wang, Li Jun Zhu, Kai Wen Tian, Jin Bo Liu, Zhong Ya Zhang
Materials Letters, 2002, 57:173-177
International Journal of Impact Engineering. 2000, 24: 435-444 [4] WANG Zhi-hua, CHEN Guang, JIANG Fei.
Science Technology and Engineering. 2011, 11(16):3610-3614.
Ordnance Material Science an Engineering, 2003, 26(1):29-31.
Nanjing: Nanjing University of Science and Technology, 2006.
International Journal of Impact Engineering. 2000, 24: 435-444 [4] WANG Zhi-hua, CHEN Guang, JIANG Fei.
Science Technology and Engineering. 2011, 11(16):3610-3614.
Ordnance Material Science an Engineering, 2003, 26(1):29-31.
Nanjing: Nanjing University of Science and Technology, 2006.
Online since: May 2012
Authors: Ding Li Zhang, Zhen Hai Wei, Meng Shu Wang
The full state function of material structure reflects the structural properties of material.
For rock-soil material, especially loose material, the density of material will change greatly under external force, resulting in structural changes of material.
A QUANTITATIVE STUDY OF THE MICROSTRUCTURECHARACTERISTICS OF SOIL ANDITS APPLICATION TO THE ENGINEERING[J] JOURNAL OF CHENGDU UNIVERSITY OF TECHNOLOGYVol. 28 No. 2 Apr. 2001:148-153 in Chinese
A new type of constitutive theory for granular soil[J] Rock and Soil Mechanics Vo1.28 No.9 Sep. 2007:1801-1806 [9] HU Ya-yuanFundamental and mechanical study of plastic complementary potential theory in strain space[J] Journal of Zhejiann University( Engineering Science) Vol. 39 No. 8 Aug.2005:1717-1722 in Chinese
Engineering Forming Theory of Elastic-Plactic Materials[J] JOURNAL OF NORTHWESTERN POLYTECHNICAL UNIVERSITY Vol. 17 No. 2 May 1999:205-209 in Chinese.
For rock-soil material, especially loose material, the density of material will change greatly under external force, resulting in structural changes of material.
A QUANTITATIVE STUDY OF THE MICROSTRUCTURECHARACTERISTICS OF SOIL ANDITS APPLICATION TO THE ENGINEERING[J] JOURNAL OF CHENGDU UNIVERSITY OF TECHNOLOGYVol. 28 No. 2 Apr. 2001:148-153 in Chinese
A new type of constitutive theory for granular soil[J] Rock and Soil Mechanics Vo1.28 No.9 Sep. 2007:1801-1806 [9] HU Ya-yuanFundamental and mechanical study of plastic complementary potential theory in strain space[J] Journal of Zhejiann University( Engineering Science) Vol. 39 No. 8 Aug.2005:1717-1722 in Chinese
Engineering Forming Theory of Elastic-Plactic Materials[J] JOURNAL OF NORTHWESTERN POLYTECHNICAL UNIVERSITY Vol. 17 No. 2 May 1999:205-209 in Chinese.
Online since: July 2015
Authors: Iulian Antoniac, George Pariza, Carmen Iuliana Mavrodin
Whether identification of these reactions has led to the placement instructions of the prostheses into the wall structures of abdomen, there is no clear rule on fixation materials of these prosthesis; they generally follow the recommendations of the prosthesis materials.
The theoretical considerations and experimental studies show that materials susceptibility to infection is directly dependent on the structure, filament and porosity of the material.
Scanning electron microscopy images of the multifilament sutures (braided) The variety of materials available nowadays constrains the surgeon to fully understand the physical and morphological properties of materials and their influence on the tissues they are implanted into.
This host tissue reaction method is decisive in the choice of fixation materials for microfilament polymers.
The main types of suture materials and their characteristics are presented in table 1.
The theoretical considerations and experimental studies show that materials susceptibility to infection is directly dependent on the structure, filament and porosity of the material.
Scanning electron microscopy images of the multifilament sutures (braided) The variety of materials available nowadays constrains the surgeon to fully understand the physical and morphological properties of materials and their influence on the tissues they are implanted into.
This host tissue reaction method is decisive in the choice of fixation materials for microfilament polymers.
The main types of suture materials and their characteristics are presented in table 1.