Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: September 2013
Authors: Ren Rong Liu, Ling Xu, Xue Mei Qiu, Li Xin Zhu, Fu Yong Xu, Wei Meng
Materials and Methods
Reagents and Materials.
The strong adsorption of Sudan I to kinds of materials maybe lead to the concentration of Sudan I less than its actual value.
Acknowledgments This work was financially supported by grants from Natural Science Foundation of Jiangxi Province (20122BAB214006) and Science Foundation of Jiangxi Educational Bureau (GJJ13573).
ELVIRI, et al: submitted to Journal of Chromatography A (2004)
[17] Xuemei Qiu, Renrong Liu, Lin Xu, et al: submitted to Food Science (2010).
The strong adsorption of Sudan I to kinds of materials maybe lead to the concentration of Sudan I less than its actual value.
Acknowledgments This work was financially supported by grants from Natural Science Foundation of Jiangxi Province (20122BAB214006) and Science Foundation of Jiangxi Educational Bureau (GJJ13573).
ELVIRI, et al: submitted to Journal of Chromatography A (2004)
[17] Xuemei Qiu, Renrong Liu, Lin Xu, et al: submitted to Food Science (2010).
Online since: June 2014
Authors: Ya Yang Tian, Heng Liu, Na Tian, Chu Dai, Yan Xin Wang
Li, Equilibrium and kinetic modeling of adsorption of reactive dye on cross-linked chitosan beads, Journal of hazardous materials, 93 (2002) 233-248
Tseng, High adsorption capacity NaOH-activated carbon for dye removal from aqueous solution, Journal of hazardous materials, 152 (2008) 1256-1267
Hartmann, Ordered mesoporous materials for bioadsorption and biocatalysis, Chemistry of materials, 17 (2005) 4577-4593
Moon, Removal of chromium from water and wastewater by ion exchange resins, Journal of Hazardous Materials, 87 (2001) 273-287
Basakaralingam, Removal of rhodamine B from aqueous solution by adsorption onto sodium montmorillonite, Journal of Hazardous Materials, 155 (2008) 39-44
Tseng, High adsorption capacity NaOH-activated carbon for dye removal from aqueous solution, Journal of hazardous materials, 152 (2008) 1256-1267
Hartmann, Ordered mesoporous materials for bioadsorption and biocatalysis, Chemistry of materials, 17 (2005) 4577-4593
Moon, Removal of chromium from water and wastewater by ion exchange resins, Journal of Hazardous Materials, 87 (2001) 273-287
Basakaralingam, Removal of rhodamine B from aqueous solution by adsorption onto sodium montmorillonite, Journal of Hazardous Materials, 155 (2008) 39-44
Online since: July 2012
Authors: Yun Hong Liu, Wen Xue Zhu, Lei Luo, Yu Song
The most common drying method employed for food materials to date was hot air drying.
When infrared radiation is used to dry moist materials, the energy of radiation impinges on and penetrates through the materials and then is converted into heat[4].
So, several significant advantages of this drying method includes high energy efficiency, uniformly heating on the materials, higher drying rate and better final quality products compared with hot air drying[5].
Materials and Methods Materials Fresh ripe Cornus officinalis were provided by Luoyang longmen agricultural products base in the province of Henan, China and was stored in a refrigerator at 2~4 oC.
Kim, LWT-Food Science and Technology, Vol.42(2009), p.180.
When infrared radiation is used to dry moist materials, the energy of radiation impinges on and penetrates through the materials and then is converted into heat[4].
So, several significant advantages of this drying method includes high energy efficiency, uniformly heating on the materials, higher drying rate and better final quality products compared with hot air drying[5].
Materials and Methods Materials Fresh ripe Cornus officinalis were provided by Luoyang longmen agricultural products base in the province of Henan, China and was stored in a refrigerator at 2~4 oC.
Kim, LWT-Food Science and Technology, Vol.42(2009), p.180.
Online since: February 2026
Authors: Sharyjel R. Cayabyab-Gelilang, Marianito T. Margarito, Alvin Kim M. Collera, Jenny Lyn H. Laga, Lumen C. Milo, Mar Christian O. Que, Jocelyn P. Reyes, Johanna Marie B. Sudayon
The emergence of bioceramic materials dates back several decades, with the evolution of materials and technologies aiming to address biomedical and healthcare challenges.
It was in the early 2000s that the Materials Science Division of DOST-ITDI has successfully developed a low-cost porous biphasic calcium phosphate ceramic consisting of β-tricalcium phosphate (β-TCP) and HAP for use as an anophthalmic socket and orbital floor implant [9,10].
Nano precipitated calcium carbonate produced by the Materials Science Division of DOST-ITDI was used as an alternative to the local limestone.
Potestio, Materials Science and Engineering C: Materials for Biological Applications 69, 1410-1428 (2016)
Abano, Philippine Journal of Science 129 (2), 93-99 (2000)
It was in the early 2000s that the Materials Science Division of DOST-ITDI has successfully developed a low-cost porous biphasic calcium phosphate ceramic consisting of β-tricalcium phosphate (β-TCP) and HAP for use as an anophthalmic socket and orbital floor implant [9,10].
Nano precipitated calcium carbonate produced by the Materials Science Division of DOST-ITDI was used as an alternative to the local limestone.
Potestio, Materials Science and Engineering C: Materials for Biological Applications 69, 1410-1428 (2016)
Abano, Philippine Journal of Science 129 (2), 93-99 (2000)
Online since: June 2013
Authors: Li Po Yang, Bing Qiang Yu
The annual production capacity of the rolling mill was 18 million tons, product thickness range was 0.2~ 1.0 mm, and its products were for hot dip galvanizing line, color coating line of cold rolling raw materials.
Acknowledgements This work was financially supported by National Science and Technology Support Plan of China (Grant No. 2011BAF15B03), and Hebei Provincial Natural Science Foundation of China (Grant No.
Journal of Materials Processing Technology, vol. 204, pp.152-161, 2008
Journal of Materials Processing Technology, vol. 209 No.9, pp.4584-4589, 2009
Advanced Materials Research, vol. 311-313, pp.902-905, 2011
Acknowledgements This work was financially supported by National Science and Technology Support Plan of China (Grant No. 2011BAF15B03), and Hebei Provincial Natural Science Foundation of China (Grant No.
Journal of Materials Processing Technology, vol. 204, pp.152-161, 2008
Journal of Materials Processing Technology, vol. 209 No.9, pp.4584-4589, 2009
Advanced Materials Research, vol. 311-313, pp.902-905, 2011
Online since: May 2009
Authors: Qing Long An, Ming Chen, X.Y. Wang, H. Xu, Yun Shan Zhang
Material Model.
Liu: Science&Technology of Baotou (Group) Corporation, Vol. 32 (2006), pp.24-26
Sun et al.: Materials and Corrosion, Vol. 52 (2001), pp.590-597
[3] D.A.Lados,D.Apelian,J.K.Donald: International Journal of Fatigue,Vol. 29 (2007), pp.687-694
Chen: Advanced Materials Research,Vol.53-54 (2008), pp.415-420.
Liu: Science&Technology of Baotou (Group) Corporation, Vol. 32 (2006), pp.24-26
Sun et al.: Materials and Corrosion, Vol. 52 (2001), pp.590-597
[3] D.A.Lados,D.Apelian,J.K.Donald: International Journal of Fatigue,Vol. 29 (2007), pp.687-694
Chen: Advanced Materials Research,Vol.53-54 (2008), pp.415-420.
Online since: January 2014
Authors: Ran Zhu, Qing Fang Lv, Ji Hong Qin
The possession and the quality of bamboo material in China rank the leading position in the world.
And the utilization of this material is low [10].
The mechanical properties of bamboo material and BFRP-plate are given in Table 1.
Table 1 Mechanical Properties of Materials Material Standard Value of Compressive Strength (Mpa) Standard Value of Tensile Strength (Mpa) Elastic Modulus (Mpa) Bamboo Material 57.26 104.13 9380 BFRP-plate / 1458 73871.3 Six beams are manufactured in the experiment.
[9] Chen Guo, Shan Bo and Xiao Yan: submitted to Journal of Vibration and Shock (2011) [10] Lv Qingfang,Wei Yang,Zhang Qisheng et.al: submitted to Research & Application of Building Materials (2008) [11] Plevris N and Triantafillou TC: submitted to Journal of Materials in Civil Engineering (1992) [12] Gilfillan J, Gilbert S and Patrick G: submitted to Journal of the Institute of Wood Science (2001) [13] Blass H, Romani M: submitted to Holz als roh-und werkstoff (2001) [14] Yongxian C, in: Flexural analysis and design of timber strengthened with high strength composites, edited by the State University of New Jersey, New Jersey (2003) [15] Buell TW, Saadatmanesh H: submitted to Journal of Structural Engineering, (2005) [16] Yang Huifeng, Liu Weiqing: submitted to Journal of Jiangsu University (Natural Science Edition) (2006) [17] Yang Huifeng and Liu Weiqing: submitted to Journal of Nanjing University of Technology(Natural Science Edition) (2006) [18] Ma Jianxun, Jiang Xiangmin
And the utilization of this material is low [10].
The mechanical properties of bamboo material and BFRP-plate are given in Table 1.
Table 1 Mechanical Properties of Materials Material Standard Value of Compressive Strength (Mpa) Standard Value of Tensile Strength (Mpa) Elastic Modulus (Mpa) Bamboo Material 57.26 104.13 9380 BFRP-plate / 1458 73871.3 Six beams are manufactured in the experiment.
[9] Chen Guo, Shan Bo and Xiao Yan: submitted to Journal of Vibration and Shock (2011) [10] Lv Qingfang,Wei Yang,Zhang Qisheng et.al: submitted to Research & Application of Building Materials (2008) [11] Plevris N and Triantafillou TC: submitted to Journal of Materials in Civil Engineering (1992) [12] Gilfillan J, Gilbert S and Patrick G: submitted to Journal of the Institute of Wood Science (2001) [13] Blass H, Romani M: submitted to Holz als roh-und werkstoff (2001) [14] Yongxian C, in: Flexural analysis and design of timber strengthened with high strength composites, edited by the State University of New Jersey, New Jersey (2003) [15] Buell TW, Saadatmanesh H: submitted to Journal of Structural Engineering, (2005) [16] Yang Huifeng, Liu Weiqing: submitted to Journal of Jiangsu University (Natural Science Edition) (2006) [17] Yang Huifeng and Liu Weiqing: submitted to Journal of Nanjing University of Technology(Natural Science Edition) (2006) [18] Ma Jianxun, Jiang Xiangmin
Online since: September 2013
Authors: Jun Jian Liao, Qi Ming Lu, Yu Jian He, Da Zhou Lin, Zi Jie Wu, Pei Qi Wu, Cheng Zhang Zheng
Materials and methods
Materials.
After complete polymerization, the product was poured into a container made by polytetrafluoroethylene (PTFE, non-stick materials) and dried in water bath preset at 80℃ to strengthen enough to be sheered easily.
Zhang: Journal of Applied Polymer Science Vol. 104 (2007), p. 735 [14] Q.Y.
Wang: Applied Clay Science Vol. 35 (2007), p. 268 [15] H.C.
Whiting: Journal of Materials Chemistry Vol. 16 (2006), p. 1082 [16] W.H.
After complete polymerization, the product was poured into a container made by polytetrafluoroethylene (PTFE, non-stick materials) and dried in water bath preset at 80℃ to strengthen enough to be sheered easily.
Zhang: Journal of Applied Polymer Science Vol. 104 (2007), p. 735 [14] Q.Y.
Wang: Applied Clay Science Vol. 35 (2007), p. 268 [15] H.C.
Whiting: Journal of Materials Chemistry Vol. 16 (2006), p. 1082 [16] W.H.
Online since: December 2012
Authors: Gui Jiang Liu, Mei Sun, Qiang Hua Wu, Wenqi Liu
Speciation analysis of inorganic arsenic in coal samples
Mei Sun1,2,a,*, Guijian Liu1,b,*, Qianghua Wu3,c, and Wenqi Liu2,d
1 CAS Key Laboratory of Crust-Mantle Materials and Environment,
School of Earth and Space Sciences, University of Science and Technology of China, Hefei, Anhui 230026, China
2 Hefei National Laboratory for Physical Sciences on Microscale, University of Science
and Technology of China, Hefei 230026, China
3 Department of Polymer Science and Engineering ,University of Scienceand Technology of China, Hefei 230026, China )
asunmei@ustc.edu.cn, blgj@ustc.edu.cn, cqhwu@ustc.edu.cn, dliuwq@ustc.edu.cn
Keywords: Microwave-assisted extraction; Speciation; Inorganic arsenic; Liquid chromatography-hydride generation atomic fluorescence spectrometry; Coal
Abstract.
Materials and methods Instrumentation CEM MARS XPress microwave oven (CEM, Matthews, NC, USA).
Journal of chromatography A, 1227: 19-28, 2012
Journal of chromatography A, 1215(1-2):15- 20, 2008
Science of the total environment, 412:1-13, 2011.
Materials and methods Instrumentation CEM MARS XPress microwave oven (CEM, Matthews, NC, USA).
Journal of chromatography A, 1227: 19-28, 2012
Journal of chromatography A, 1215(1-2):15- 20, 2008
Science of the total environment, 412:1-13, 2011.
Online since: August 2016
Authors: Elieber Barros Bezerra, Edcleide Maria Araújo, Dayanne Diniz Souza Morais, Danyelle Campos França, Renate Maria Ramos Wellen
Rudnick: Compostable Polymer Materials.
Aiba: International Journal of Molecular Sciences Vol. 10 (2009), p. 3722
[12] Information on http://www.PERSTORP.com [13] American Society for Testing and Materials.
[14] American Society for Testing and Materials.
Cunha: Journal of Applied Polymer Science Vol. 112 (2009), p. 345
Aiba: International Journal of Molecular Sciences Vol. 10 (2009), p. 3722
[12] Information on http://www.PERSTORP.com [13] American Society for Testing and Materials.
[14] American Society for Testing and Materials.
Cunha: Journal of Applied Polymer Science Vol. 112 (2009), p. 345