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Online since: October 2023
Authors: Abdallah Shanableh, Sourjya Bhattacharjee, Wedad Masoud
One approach to improving the performance of Fe0 towards specific contaminants is to create core-shell composites with different materials [14,16].
Methodology Materials.
Chang, “Fabrication of magnetic lignosulfonate using ultrasonic-assisted in situ synthesis for efficient removal of Cr (VI) and rhodamine B from wastewater,” Journal of Hazardous Materials, vol. 375, pp. 174–181, 2019
Zhang, “Recent advances of carbon-based nano zero valent iron for heavy metals remediation in soil and water: A critical review,” Journal of Hazardous Materials, vol. 426, p. 127993, 2022
Mak, “Lab-scale simulation of the fate and transport of nano zero-valent iron in subsurface environments: Aggregation, sedimentation, and contaminant desorption,” Journal of Hazardous Materials, vol. 227-228, pp. 118–125, 2012
Methodology Materials.
Chang, “Fabrication of magnetic lignosulfonate using ultrasonic-assisted in situ synthesis for efficient removal of Cr (VI) and rhodamine B from wastewater,” Journal of Hazardous Materials, vol. 375, pp. 174–181, 2019
Zhang, “Recent advances of carbon-based nano zero valent iron for heavy metals remediation in soil and water: A critical review,” Journal of Hazardous Materials, vol. 426, p. 127993, 2022
Mak, “Lab-scale simulation of the fate and transport of nano zero-valent iron in subsurface environments: Aggregation, sedimentation, and contaminant desorption,” Journal of Hazardous Materials, vol. 227-228, pp. 118–125, 2012
Online since: January 2013
Authors: Wei Chen, Yu Qin Guo, Juan Juan Han, Long Chen, Meng Zhao
[4] H Takuda, T Morishita, T Kinoshita, N Shirakawa: Journal of Materials Processing Technology. (2005) p.164-165
[6] SB Kim, H Huh, HH Bok, MB Moon: Journal of Materials Processing Technology. 211(2011) p. 851-862
[8] WS Lee, CY Liu: Materials Science and Engineering A .426(2006) p.101-113
[10] E Romhanji, M Dudukovska: Journal of Materials Processing Technology. (2002) p.125-126
[11] YQ Cheng, H Zhang, ZH Chen, KF Xian: Journal of Materials Processing Technology. 208 (2008) p.29-34.
[6] SB Kim, H Huh, HH Bok, MB Moon: Journal of Materials Processing Technology. 211(2011) p. 851-862
[8] WS Lee, CY Liu: Materials Science and Engineering A .426(2006) p.101-113
[10] E Romhanji, M Dudukovska: Journal of Materials Processing Technology. (2002) p.125-126
[11] YQ Cheng, H Zhang, ZH Chen, KF Xian: Journal of Materials Processing Technology. 208 (2008) p.29-34.
Online since: September 2013
Authors: Muhammad Izani Sahak, Ahmad Kamely Mohamad, Abdullah Atiq Ariffin
Hamada, Energy Absorption Characteristic of Crashworthy Structural Composite Materials, Key Engineering Material.
Shuaeib, Energy Absorption Capacities of Square Tubular Structures, Journal of Achievements in Materials and Manufacturing Engineering.
Dadrasi, An Investigation on Crashworthiness Design of Aluminium Columns with Damage Criteria, Research Journal of Recent Sciences.
Pakistan Journal of Applied Sciences.
Ziliukas, Experimental Research of the Impact Response of E-Glass/Epoxy and Carbon/Epoxy Composite Systems, Materials Science.
Shuaeib, Energy Absorption Capacities of Square Tubular Structures, Journal of Achievements in Materials and Manufacturing Engineering.
Dadrasi, An Investigation on Crashworthiness Design of Aluminium Columns with Damage Criteria, Research Journal of Recent Sciences.
Pakistan Journal of Applied Sciences.
Ziliukas, Experimental Research of the Impact Response of E-Glass/Epoxy and Carbon/Epoxy Composite Systems, Materials Science.
Online since: December 2012
Authors: Fang Yan Chen, Yu Bin Tang, Duo Duo Jiang
Materials and Method
Materials
The strain JDD1H was supplied by our laboratory, which was previously isolated from soil contaminated by petroleum and identified as Rhodococcus.sp by morphological, physiological and biochemical tests as well as 16S rDNA sequence analysis.
Nagarajan: Journal of Hazardous Materials, Vol.
Ghosha: Journal of Hazardous Materials, Vol. 176 (2010), p. 85 [17] Z.
Song: Journal of Journal of China West Normal University (Natural Science) Vol.33 (2012), p.146 (in Chinese) [22] J.
Tang: Journal of China West Normal University (Natural Science), Vol.29 (2008), p.144 (in Chinese) [24] Y.
Nagarajan: Journal of Hazardous Materials, Vol.
Ghosha: Journal of Hazardous Materials, Vol. 176 (2010), p. 85 [17] Z.
Song: Journal of Journal of China West Normal University (Natural Science) Vol.33 (2012), p.146 (in Chinese) [22] J.
Tang: Journal of China West Normal University (Natural Science), Vol.29 (2008), p.144 (in Chinese) [24] Y.
Online since: November 2014
Authors: Tomasz Tomaszewski, Janusz Sempruch
Vormwald, Considering size effects in the notch stress concept for fatigue assessment of welded joints, Computational Materials Science 64 (2012) 71-78.
[
5 ]
K.H.
Sosnovski, Statistical model of a deformable solid with a critical volume and some of its applications, Strength of Materials 22 (1990) 626-632. [ 12 ] P.
Sempruch, Experimental verification of the analytical method for estimated S-N curve in limited fatigue life, Materials Science Forum 726 (2012) 11-16. [ 13 ] T.
Sempruch, Determination of the fatigue properties of aluminum alloy using mini specimen, Materials Science Forum 726 (2012) 63-68. [ 14 ] T.
Sempruch, Verification of the fatigue test method applied with the use of mini specimen, Key Engineering Materials 598 (2014) 243-248. [ 16 ] T.
Sosnovski, Statistical model of a deformable solid with a critical volume and some of its applications, Strength of Materials 22 (1990) 626-632. [ 12 ] P.
Sempruch, Experimental verification of the analytical method for estimated S-N curve in limited fatigue life, Materials Science Forum 726 (2012) 11-16. [ 13 ] T.
Sempruch, Determination of the fatigue properties of aluminum alloy using mini specimen, Materials Science Forum 726 (2012) 63-68. [ 14 ] T.
Sempruch, Verification of the fatigue test method applied with the use of mini specimen, Key Engineering Materials 598 (2014) 243-248. [ 16 ] T.
Online since: December 2013
Authors: Jin Duo Ye, Xue Li, Li Min Dong, Qian Qian Tian, Xian Kang Wang, Chun Qui Zhang
It is very important to understand the function of articular cartilage, disease diagnosis and artificial joint materials research.
The material parameter of cartilage is shown in Table 2.
Acknowledgements The study is founded by National Natural Science Foundation (No.11172208, No. 81272046 and No. 31000432).
Lin, Experimental biomechanical properties of articular cartilage changes with depth, Chinese Journal of Orthopaedics, 18 (18) (1998) 488
Yuan, Evaluation of tensile properties of human cartilage digital speckle, Chinese Medical Journal, 84 (15) (2004)
The material parameter of cartilage is shown in Table 2.
Acknowledgements The study is founded by National Natural Science Foundation (No.11172208, No. 81272046 and No. 31000432).
Lin, Experimental biomechanical properties of articular cartilage changes with depth, Chinese Journal of Orthopaedics, 18 (18) (1998) 488
Yuan, Evaluation of tensile properties of human cartilage digital speckle, Chinese Medical Journal, 84 (15) (2004)
Online since: December 2023
Authors: Roberto B. Figueiredo, Amanda P. Carvalho
Langdon, The influence of grain size and strain rate on the mechanical behavior of pure magnesium, Journal of Materials Science 51(6) (2016) 3013-3024
Figueiredo, The contribution of grain boundary sliding to the deformation in an ultrafine-grained Mg–Al–Zn alloy, Journal of Materials Science (2023)
Liu, Hall-Petch relationship in Mg alloys: A review, Journal of Materials Science & Technology 34(2) (2018) 248-256
Langdon, Effect of grain size on strength and strain rate sensitivity in metals, Journal of Materials Science 57 (2022) 5210-5229
Chen, Microstructure and mechanical properties of Mg–Al–Zn alloy sheets severely deformed by accumulative roll-bonding, Journal of Materials Science 42(22) (2007) 9256-9261
Figueiredo, The contribution of grain boundary sliding to the deformation in an ultrafine-grained Mg–Al–Zn alloy, Journal of Materials Science (2023)
Liu, Hall-Petch relationship in Mg alloys: A review, Journal of Materials Science & Technology 34(2) (2018) 248-256
Langdon, Effect of grain size on strength and strain rate sensitivity in metals, Journal of Materials Science 57 (2022) 5210-5229
Chen, Microstructure and mechanical properties of Mg–Al–Zn alloy sheets severely deformed by accumulative roll-bonding, Journal of Materials Science 42(22) (2007) 9256-9261
Online since: February 2013
Authors: Di Tang, Hong Wei Zheng, Hui Bin Wu, Liu Yang, Jin Xing Jiang
(a)
(b)
Fig.6 Micro morphology of rapid propagation area (S=600MPa, N=2.22×105)
(a) plastic fracture area (b) brittle fracture area
Why the rapid propagation area appeared.The ability of materials to resist crack propagation called fracture toughness represented by KΙc, which is a constant for materials.
Journal of Constructional Steel Reseach, Vol.58(2002), p.3~20
Journal of Structural Division,Vol.108(1982), p.3~88
Materials Science and Engineering, Vol.
Materials Science and Engineering, Vol.
Journal of Constructional Steel Reseach, Vol.58(2002), p.3~20
Journal of Structural Division,Vol.108(1982), p.3~88
Materials Science and Engineering, Vol.
Materials Science and Engineering, Vol.
Online since: October 2012
Authors: Ying Jie Zhang, Lin Zhuan Ma, Wei Bai, Qiong Fang Cui, Jun Ming Guo, Man Hong Liu, Hong Bin Wang
Mercury’s Leaching Contamination in Soil Environment
Ma linzhuan1,2a , Guo Junming*1,2b , Zhang Yingjie1,2c , Cui Qiongfang 1,2d,
Liu Manhong1,2e , Wang Hongbin1,2g , Bai Wei1,2f
1.Key Laboratory of Chemistry in Ethnic Medicinal Resource,
State Ethnic Affairs Commission & Ministry of Education, Yunnan University of Nationalities, Kunming,Yunnan 650500,People’s Republic of China
2.The Engineering Laboratory of Polyactic Acid-based Functional Materials Yunnan,
School of Chemistry and Biotechnology, Yunnan University of Nationalities,
Kunming Yunnan 650500,People’s Republic of China
a malinzhuan@126.com;* b guojun_ming@126.com(contact author);c yingjie@kmust.edu.cn d429544894@qq.com;lmh6211@126.com;wanghb2152@tom.com;lb2w@sina.com
Keywords: mercury waste, leaching, soil environment, contamination
Abstract: Mercury is a material with serious toxicity, and superfluous mercury can pollute large areas.
References [1]Lu Hong-juan,Ni Wu-zhong,Ye Zheng-qian,Yang xiao-e.Mercury form in Soil and the Effect of Excessive Mercury on Plants and Human Beings [J].Chinese Journal of Soil Science, 2007,38(3):598
[2] Liu Ping,Qiu Guang-le,Shang Li-hai.Phytoremediation of mercury contaminated soil: A review [ J ].Chinese Journal of Ecology,2007,26(6):934-936
[4] Lv Guang-ling,Tian Da-jing.An Investigation on Cognition Status of Nurses to Mercury [J].Journal of nursing,2004,19(17):67-68
Journal of Yunnan University Nationalities(Natural Sciences Edition),2011,5,20(3):225-228 [8] Dang Min-tuan,Liu Juan.Current situation and solutions to Chinese mercury pollution [J].Applied Chemical Engineering,2005,34(7):395
References [1]Lu Hong-juan,Ni Wu-zhong,Ye Zheng-qian,Yang xiao-e.Mercury form in Soil and the Effect of Excessive Mercury on Plants and Human Beings [J].Chinese Journal of Soil Science, 2007,38(3):598
[2] Liu Ping,Qiu Guang-le,Shang Li-hai.Phytoremediation of mercury contaminated soil: A review [ J ].Chinese Journal of Ecology,2007,26(6):934-936
[4] Lv Guang-ling,Tian Da-jing.An Investigation on Cognition Status of Nurses to Mercury [J].Journal of nursing,2004,19(17):67-68
Journal of Yunnan University Nationalities(Natural Sciences Edition),2011,5,20(3):225-228 [8] Dang Min-tuan,Liu Juan.Current situation and solutions to Chinese mercury pollution [J].Applied Chemical Engineering,2005,34(7):395