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Online since: March 2023
Authors: Hamed Alwan Gatea, Faten K. Hachim
Introduction
It is difficult to convert bulk materials into a thin film form [1].
Lead zirconate titanate (PZT) is an important material with more unique properties because it belongs to piezoelectric materials properties.[9].
In a furnace, materials were annealed for 15 minutes at 500, 600, and 700 oC.” [8].
Gatea "Synthesis and characterization of BaSrTiO3 perovskite thin films prepared by sol gel technique" International Journal of Thin Film Science and Technology,10(5),2021
Series: Materials Science and Engineering 928 (2020) 072007
Lead zirconate titanate (PZT) is an important material with more unique properties because it belongs to piezoelectric materials properties.[9].
In a furnace, materials were annealed for 15 minutes at 500, 600, and 700 oC.” [8].
Gatea "Synthesis and characterization of BaSrTiO3 perovskite thin films prepared by sol gel technique" International Journal of Thin Film Science and Technology,10(5),2021
Series: Materials Science and Engineering 928 (2020) 072007
Online since: April 2013
Authors: Qing Nan Shi, Xi Liang Chen
Research on sol-gel transition process of gelatin
Chen Xiliang1, a, Shi Qingnan1, b
1 School of Materials Science & Engineering, Kunming University of Science and Technology, Kunming 650093, China
acxl0522n@163.com, bshikust@public.km.yn.cn
Keywords: Functional material, Structure, Performance, Sol-gel transition, Gelatin
Abstract: As a kind of functional material, gelatin gel is widely used in controlled drug release, biological tissue engineering, photographic and food industries.
Physical gels are usually used as functional materials due to the sol-gel and gel-sol reversible transition property, while chemical gels are commonly used as structural materials due to their mechanical properties.
Journal of the American Chemical Society. 80(1958)4836-4845
Journal of the American Chemical Society. 82(1960)4518-4525
Trends in Food Science & Technology. 19(2008) 644-656
Physical gels are usually used as functional materials due to the sol-gel and gel-sol reversible transition property, while chemical gels are commonly used as structural materials due to their mechanical properties.
Journal of the American Chemical Society. 80(1958)4836-4845
Journal of the American Chemical Society. 82(1960)4518-4525
Trends in Food Science & Technology. 19(2008) 644-656
Online since: July 2014
Authors: Yun Feng Li, Jian Zhu, Li Xu
Experimental procedure
Materials Preparation.
Water reducer is produced by Qingdao Hong Ha Co., Ltd of Polymer Material.
References [1] Yang Yuxi, Liu Xuequan: Journal of Heilongjiang traffic science and technology, Vol. 30 (2007), p. 51
[2] Chen Changli, Tu Qingmo, Ling Youzhi: Journal of new building materials, Vol. 35 (2008), p. 43 [3] Yang Qingguo, Yuan Pei, Chen Dewu, et al.: Transportation standardization, Vol. 210 (2009): p.88 [4] Lu Wenbin : Concrete, 2009 (8), p.82 [5] Wang Huasheng, Zhao Huiru: Concrete technology handbook.
[6] Zhao Junmei, Li Yusheng, Xing Deqiang: Journal of cement, 2003 (7), p.7 [7] Han Bin, Sun Tongchun, Li Qiuyi: Journal of building materials in China, 2006 (8), p.85 [8] Li Yumei, in: Silicon ash and silica fume concrete, hohai university of science and technology intelligence (2000) [9] Wu Zhongwei: Architectural technology, Vol.30 (1999), p. 160 [10] Wu Zhongwei, Lian Huizhen, in High performance concrete (China railway publishing house, Beijing 1999) [11] Lan Mingzhang, Wang Xiaofang, in: Ground granulated slag processing and application.
Water reducer is produced by Qingdao Hong Ha Co., Ltd of Polymer Material.
References [1] Yang Yuxi, Liu Xuequan: Journal of Heilongjiang traffic science and technology, Vol. 30 (2007), p. 51
[2] Chen Changli, Tu Qingmo, Ling Youzhi: Journal of new building materials, Vol. 35 (2008), p. 43 [3] Yang Qingguo, Yuan Pei, Chen Dewu, et al.: Transportation standardization, Vol. 210 (2009): p.88 [4] Lu Wenbin : Concrete, 2009 (8), p.82 [5] Wang Huasheng, Zhao Huiru: Concrete technology handbook.
[6] Zhao Junmei, Li Yusheng, Xing Deqiang: Journal of cement, 2003 (7), p.7 [7] Han Bin, Sun Tongchun, Li Qiuyi: Journal of building materials in China, 2006 (8), p.85 [8] Li Yumei, in: Silicon ash and silica fume concrete, hohai university of science and technology intelligence (2000) [9] Wu Zhongwei: Architectural technology, Vol.30 (1999), p. 160 [10] Wu Zhongwei, Lian Huizhen, in High performance concrete (China railway publishing house, Beijing 1999) [11] Lan Mingzhang, Wang Xiaofang, in: Ground granulated slag processing and application.
Online since: July 2012
Authors: M. Sadaiah, Nitin D. Misal, Atul R. Saraf
Journal of Engineering Science and Technology, Vol.3,No.9, 7108-7116
Journal of Advances in Science and Technology.
[4] Cakir, O, 2008, “Chemical etching of aluminum”, journal of materials processing technology, 199,337–3400
[5] Cakir, O, 2006, “Copper etching with cupric chloride and regeneration of waste etchant”, journal of materials processing technology, 175, 63–68
[12] Roy, R, Allen, D.M. and Zamora, O “Cost of photochemical machining”, Journal of Materials Processing Technology, 149, 2004, 460–465.
Journal of Advances in Science and Technology.
[4] Cakir, O, 2008, “Chemical etching of aluminum”, journal of materials processing technology, 199,337–3400
[5] Cakir, O, 2006, “Copper etching with cupric chloride and regeneration of waste etchant”, journal of materials processing technology, 175, 63–68
[12] Roy, R, Allen, D.M. and Zamora, O “Cost of photochemical machining”, Journal of Materials Processing Technology, 149, 2004, 460–465.
Online since: January 2013
Authors: Wei Zhou, Ying Chun Guan
Xu, Casting of SiC Reinforced Metal Matrix Composites, Journal of Materials Processing and Technology, 63 (1997) 358-363
Mark, Hot Cracking in Tungsten Inert Gas Welding of Magnesium Alloy AZ91D, Materials Science and Technology, 23 (2007) 1294-1299
Zhou, Calorimetric Analysis of AZ91D Magnesium Alloy, Materials Letters, 62 (2008) 4494-4496
Li, Solidification Microstructure of AZ91D Mg Alloy after Laser Surface Melting, Applied Physics A: Materials Science & Processing, 101 (2010) 339-344
Zhou, Tensile and Fatigue Behaviour of AZ91D Magnesium Alloy, Journal of Materials Science Letters, 21 (2001) 457-459.
Mark, Hot Cracking in Tungsten Inert Gas Welding of Magnesium Alloy AZ91D, Materials Science and Technology, 23 (2007) 1294-1299
Zhou, Calorimetric Analysis of AZ91D Magnesium Alloy, Materials Letters, 62 (2008) 4494-4496
Li, Solidification Microstructure of AZ91D Mg Alloy after Laser Surface Melting, Applied Physics A: Materials Science & Processing, 101 (2010) 339-344
Zhou, Tensile and Fatigue Behaviour of AZ91D Magnesium Alloy, Journal of Materials Science Letters, 21 (2001) 457-459.
Online since: November 2005
Authors: Qing Jie Zhang, Peng Cheng Zhai, Toshiyuki Hashida, Gang Chen
From Fig. 4, the shape of the curves for different materials and different load
levels are very similar.
Buck: Materials Science and Engineering Vol. 83 (1986), pp.29-38 [2] T.
Hamaguchi: Jounal of Nuclear Materials Vol. 150 (1987), pp. 194-202 [3] Y.H.
Takahashi: Journal of Nuclear Materials Vol. 150 (1987), pp. 42-52 [6] J.D.
Shoji: Journal of Materials Research Vol. 17 (2002), pp. 1945-1953 [9] F.
Buck: Materials Science and Engineering Vol. 83 (1986), pp.29-38 [2] T.
Hamaguchi: Jounal of Nuclear Materials Vol. 150 (1987), pp. 194-202 [3] Y.H.
Takahashi: Journal of Nuclear Materials Vol. 150 (1987), pp. 42-52 [6] J.D.
Shoji: Journal of Materials Research Vol. 17 (2002), pp. 1945-1953 [9] F.
Online since: August 2014
Authors: Jiang Wei Cao, Guo Xin Zhang, Min Li
Choice of materials.
The residual austenite and bainite after heat treatment also affect the wear resistance of materials.
It is difficult, if using the whole material design, to ensure that the materials have high strength, high toughness and good wear resistance.
References [1] K.Liu,Mh.Jiao:submitted to Journal of Hefei University of Technology (Natural Science) (2005)
Guo: submitted to Journal of Shandong University of Technology (Natural Science Edition) (2004)
The residual austenite and bainite after heat treatment also affect the wear resistance of materials.
It is difficult, if using the whole material design, to ensure that the materials have high strength, high toughness and good wear resistance.
References [1] K.Liu,Mh.Jiao:submitted to Journal of Hefei University of Technology (Natural Science) (2005)
Guo: submitted to Journal of Shandong University of Technology (Natural Science Edition) (2004)
Online since: March 2017
Authors: Tian Qing Liu, Ke Dong Song, Dao Yu Chen, Peng Song Li, Jing Jing Zhang, Mei Ling Zhuang, Yu Zhang, Hai Chao Dong
Chitosan become one of the most beloved materials as a natural scaffold material because of its ability to mimic the extracellular matrix.
What is more, raw materials are simple and easy to get.
Chitosan can form an increasingly high degree of artificial extracellular matrix with other composite materials.
[6] Krajewska, B., Membrane-based processes performed with use of chitin/chitosan materials.
International Journal of Biological Macromolecules
What is more, raw materials are simple and easy to get.
Chitosan can form an increasingly high degree of artificial extracellular matrix with other composite materials.
[6] Krajewska, B., Membrane-based processes performed with use of chitin/chitosan materials.
International Journal of Biological Macromolecules
Online since: March 2013
Authors: Zhen Ting Wang, Yang Wang
Preparation of the Sulfur-Free Expanded Graphite Using
Induction Heating Method
Zhenting Wang a and Yang Wang b
1College of Materials Science & Engineering, Heilongjiang Institute of Science & Technology,
Harbin 150027, P.R.
Introduction In recent years expanded graphite has been a new type of rapid development carbon materials.
Experimental Test Materials.
Qiu, Preparations, structures and applications of exfoliated graphite, Journal of jiangsu University(Natural Science Edition). 26 (2005) 248-252
Zhou, Development of producing expanded graphite via chemical oxidization method, Journal of Chang’ an University(Earth Science Edition). 25 (2003) 85-91
Introduction In recent years expanded graphite has been a new type of rapid development carbon materials.
Experimental Test Materials.
Qiu, Preparations, structures and applications of exfoliated graphite, Journal of jiangsu University(Natural Science Edition). 26 (2005) 248-252
Zhou, Development of producing expanded graphite via chemical oxidization method, Journal of Chang’ an University(Earth Science Edition). 25 (2003) 85-91
Online since: March 2025
Authors: Li Zhao, Guang Yu Li, Jia Feng Liu, Xun Fei Cai, Qi Hu, Yu Ye Hu, Ya Long Jiang
Journal of magnetism and magnetic materials, 375: 38-42 (2015)
Materials Science and Engineering, 142(2/3): 116−120(2007)
Journal of Materials Science-Materials in Electronics, 28(16): 11712-11721(2017)
Journal of Materials Science-Materials in Electronics, 27(2): 1286-1292(2016)
Journal of materials science: materials in electronics, 2017, 28: 11712-11721
Materials Science and Engineering, 142(2/3): 116−120(2007)
Journal of Materials Science-Materials in Electronics, 28(16): 11712-11721(2017)
Journal of Materials Science-Materials in Electronics, 27(2): 1286-1292(2016)
Journal of materials science: materials in electronics, 2017, 28: 11712-11721