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Online since: December 2013
Authors: Chyouh Wu Huang, Hung Shyong Chen
Our results show that this method can be applied to membrane module regardless of it geometry and materials.
The solute used for the test is Dextran, a macromolecular material.
Nyström, Evaluation of behavior and fouling potential of wood extractives in ultrafiltration of pulp and paper mill process water, Journal of Membrane Science, Vol.368 (2011), pages 150–158
Cussler, Predicting the effect of membrane spacers on mass transfer, Journal of Membrane Science, Volume 323 (2008), pages 247-256
, AIChE Journal, Vol. 20 (1974), pages 335-339
The solute used for the test is Dextran, a macromolecular material.
Nyström, Evaluation of behavior and fouling potential of wood extractives in ultrafiltration of pulp and paper mill process water, Journal of Membrane Science, Vol.368 (2011), pages 150–158
Cussler, Predicting the effect of membrane spacers on mass transfer, Journal of Membrane Science, Volume 323 (2008), pages 247-256
, AIChE Journal, Vol. 20 (1974), pages 335-339
Online since: January 2016
Authors: Zakaria Man, Zahid Majeed, Nurlidia Mansor
Lignin has proved its potential role as biodegradable filler for reinforcement of naturally biodegradable starch based renewable composite materials.
METHODOLOGY Materials and Chemicals Food grade tapioca starch (Kapal ABC brand, Malaysia) was purchased from local market.
Man, "Lignin Modified Urea Fertilizer Biodegradation and Nitrogen Release Under Reduced Soil Conditions," Applied Mechanics and Materials, vol. 699, pp. 981-987, 2015
Man, "Starch Biodegradation in a Lignin Modified Slow Release Fertilizer: Effect of Thickness," Applied Mechanics and Materials, vol. 625, pp. 830-833, 2014
Azizi, "Water Uptake Behavior of Lignin Modified Starch Film," in Applied Mechanics and Materials, vol. 699, pp. 204-209, 2015.
METHODOLOGY Materials and Chemicals Food grade tapioca starch (Kapal ABC brand, Malaysia) was purchased from local market.
Man, "Lignin Modified Urea Fertilizer Biodegradation and Nitrogen Release Under Reduced Soil Conditions," Applied Mechanics and Materials, vol. 699, pp. 981-987, 2015
Man, "Starch Biodegradation in a Lignin Modified Slow Release Fertilizer: Effect of Thickness," Applied Mechanics and Materials, vol. 625, pp. 830-833, 2014
Azizi, "Water Uptake Behavior of Lignin Modified Starch Film," in Applied Mechanics and Materials, vol. 699, pp. 204-209, 2015.
Online since: July 2015
Authors: Hendra Suherman, Jaafar Sahari, Irmayani Irmayani
Experimental Procedure
Materials.
Tarng: Journal of Materials Processing and Technology, Vol. 84 (1998), p.122 [14] J.
CIRP Journal of Manufacturing Science and Technology Vol. 3 (2010), p. 40 [16] R.
Key Engineering Materials.
CIRP Journal of Manufacturing Science and Technology Vol.3(2010), p. 40
Tarng: Journal of Materials Processing and Technology, Vol. 84 (1998), p.122 [14] J.
CIRP Journal of Manufacturing Science and Technology Vol. 3 (2010), p. 40 [16] R.
Key Engineering Materials.
CIRP Journal of Manufacturing Science and Technology Vol.3(2010), p. 40
Online since: August 2013
Authors: Paulo Bártolo, Margarida C. Franco, Tânia Viana, Sara Biscaia
Materials and Methods
Materials
Very low viscosity sodium alginate (SA) was purchased from Alfa Aesar GmbH & Co.
All the aforementioned materials were used without any change or modification relatively to original supplier.
[4] Kulkarni P., Keshavayya J.: Chitosan-sodium alginate biodegradable interpenetrating polymer network (IPN) beads for delivery of ofloxacin hydrochloride, International Journal of Pharmacy and Pharmaceutical Sciences, 2 (2), pp. 77-82 (2010)
[6] Kulkarni R., Yogesh &, Wagh J.: Crosslinked alginate films as rate controlling membranes for transdermal drug delivery applications, Journal of Macromolecular Science, Part A (2010)
[9] Fwo-Long-Mi Fwu-Long Mi, Hsiang-Fa Liang, Yung-Chih Wu, Yu-Shin Lin, Ting-Fan Yang, Hsing-Wen Sunget: pH-sensitive behavior of two-component hydrogels composed of N,O-carboxymethyl chitosan and alginate, Journal Biomaterials, Science Polymer Edn, Vol. 16, nº 11, pp. 1333-1345 (2005)
All the aforementioned materials were used without any change or modification relatively to original supplier.
[4] Kulkarni P., Keshavayya J.: Chitosan-sodium alginate biodegradable interpenetrating polymer network (IPN) beads for delivery of ofloxacin hydrochloride, International Journal of Pharmacy and Pharmaceutical Sciences, 2 (2), pp. 77-82 (2010)
[6] Kulkarni R., Yogesh &, Wagh J.: Crosslinked alginate films as rate controlling membranes for transdermal drug delivery applications, Journal of Macromolecular Science, Part A (2010)
[9] Fwo-Long-Mi Fwu-Long Mi, Hsiang-Fa Liang, Yung-Chih Wu, Yu-Shin Lin, Ting-Fan Yang, Hsing-Wen Sunget: pH-sensitive behavior of two-component hydrogels composed of N,O-carboxymethyl chitosan and alginate, Journal Biomaterials, Science Polymer Edn, Vol. 16, nº 11, pp. 1333-1345 (2005)
Online since: April 2013
Authors: Da Lan Feng, Xiao Hui Huang, Yun Liu, Yang Hui Geng
Materials and methods
Experimental materials and methods.
Liu: Journal of Southwest China Normal University(Natural Science), Vol 35(2010)No.6, p.169-179.
Liu: Science of Sericulture, Vol.37(2011)No.1, p.93-97.
Fry: Crop Science, Vol.38(1989)No.4, p.1017-1022
Green: Irrigation Science, Vol.2(1981), p.167-176.
Liu: Journal of Southwest China Normal University(Natural Science), Vol 35(2010)No.6, p.169-179.
Liu: Science of Sericulture, Vol.37(2011)No.1, p.93-97.
Fry: Crop Science, Vol.38(1989)No.4, p.1017-1022
Green: Irrigation Science, Vol.2(1981), p.167-176.
Online since: February 2013
Authors: Zhe Wang, Zhong Su Ma, Yan Qing Niu, Zi Xuan Lian, Tian Zhong
Materials and Methods
Materials.
Journal of Food Engineering, 2009. 91(3): p. 415-422
Journal of Food Science, 1985. 50(2): p. 382-384
Journal of Membrane Science, 2000. 180(1): p. 47-55
Journal of Food Science, 1993. 58(2): p. 426-429
Journal of Food Engineering, 2009. 91(3): p. 415-422
Journal of Food Science, 1985. 50(2): p. 382-384
Journal of Membrane Science, 2000. 180(1): p. 47-55
Journal of Food Science, 1993. 58(2): p. 426-429
Online since: July 2006
Authors: Gregorio Vargas, Georgina García-Ruiz, A. Uribe S., J. Méndez-Nonell
Gal-Or: Journal of Materials Science Materials in Medicine, 8, (1997). p. 213219
Milthorpe: Journal of Materials Science: Materials in Medicine. 10. (1999). p. 401-409 (a) (b) (c) (d) [3] P.
Vargas: Materials Letters.
Bolen: Journal of Materials Science. 11, (1976). p. 2027
Sorrell: Journal of Biomedical Materials Research. 45. (1999). p. 11
Milthorpe: Journal of Materials Science: Materials in Medicine. 10. (1999). p. 401-409 (a) (b) (c) (d) [3] P.
Vargas: Materials Letters.
Bolen: Journal of Materials Science. 11, (1976). p. 2027
Sorrell: Journal of Biomedical Materials Research. 45. (1999). p. 11
Online since: January 2014
Authors: Chao Peng, Dong Ji, Liang Zhao, Zhen Yu Qian, Fen Hua Ren
Stability Analysis of Dump Slope Based on FEM Strength Reduction Method
Chao PENG1,a, Dong JI 1, Liang ZHAO1, Zhenyu QIAN2, Fenhua REN1,b
1School of Civil and Environmental Engineering, University of Science and Technology Beijing, Beijing 100083, China
2National Center for Materials Service Safely, University of Science and Technology Beijing, Beijing 100083, China
apcisatc@163.com, brenfh2001@sina.com
Keywords: Slope stability; Safety factor; Finite element strength reduction; Iterative calculation
Abstract.
The material properties are shown in Table 1.
Mining Science Metallurgical, Industry Press, Beijing, 2006
Rock Mechanics and Engineering, Science Press, Beijing, 2002
Modeling and finite element analysis of the nonstationary action on a multi-layer poroelastic seam with nonlinear geomechanical properties, Journal of Mining Science, 45(4) 2009, pp 324-333
The material properties are shown in Table 1.
Mining Science Metallurgical, Industry Press, Beijing, 2006
Rock Mechanics and Engineering, Science Press, Beijing, 2002
Modeling and finite element analysis of the nonstationary action on a multi-layer poroelastic seam with nonlinear geomechanical properties, Journal of Mining Science, 45(4) 2009, pp 324-333
Online since: May 2013
Authors: Jian Hua Yi, Zhen Bao Zhu, Mei Li Li
Materials and methods
Materials.
In: Journal of Agricultural and Food Chemistry, Vol. 44(1996), p. 2591 [2] López-Nicolás, J.
In:Journal of Food Science, Vol.51 (1986), p.411 [5] Buedo, A.
In: Innovative Food Science and Emerging Technologies, Vol.1 (2001),p. 255 [6] Feride Naime Arslanoglu, Filiz Kar, Nurhan Arslan.In: Journal of Food Engineering,Vol.71 (2005),p. 156 [7] Romo A., Penas F.
In: Journal of Colloid Interf.
In: Journal of Agricultural and Food Chemistry, Vol. 44(1996), p. 2591 [2] López-Nicolás, J.
In:Journal of Food Science, Vol.51 (1986), p.411 [5] Buedo, A.
In: Innovative Food Science and Emerging Technologies, Vol.1 (2001),p. 255 [6] Feride Naime Arslanoglu, Filiz Kar, Nurhan Arslan.In: Journal of Food Engineering,Vol.71 (2005),p. 156 [7] Romo A., Penas F.
In: Journal of Colloid Interf.
Online since: August 2019
Authors: Salvatore Russo, Ileana Ippolito, Claudia Bergamo
In the following article we show a series of experiments carried out within the Laboratory of Stregth of Materials at the IUAV University of Venice in collaboration with the Department of Molecular Sciences and Nanosystems of the Cà Foscari University.
Polymer materials and their composites deform, or flow, over time when a constant load is applied.
Key Engineering Materials Volume 747 (2017) pp. 77-84
(Nova Science Publishers); (2012)
Creep and Relaxation of Nonlinear Viscoelastic Materials.
Polymer materials and their composites deform, or flow, over time when a constant load is applied.
Key Engineering Materials Volume 747 (2017) pp. 77-84
(Nova Science Publishers); (2012)
Creep and Relaxation of Nonlinear Viscoelastic Materials.