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Online since: January 2019
Authors: Qiang Zhu, Hong Xing Lu, Ai Di Shen, Peng Yang, Le Cheng, Xiang Kai Zhang
Acknowledgement
The authors would like to thank the financial support from the Shenzhen Science and Technology Innovation Commission under project (No.
Progress in Materials Science. 2005, 50(3) 341-412
The Open Materials Science Journal. 2008, 2, 6-10
International Journal of Cast Mteals Research. 2007, 20, 6
Materials Science Form. 2016, 850, 802-808
Progress in Materials Science. 2005, 50(3) 341-412
The Open Materials Science Journal. 2008, 2, 6-10
International Journal of Cast Mteals Research. 2007, 20, 6
Materials Science Form. 2016, 850, 802-808
Online since: May 2011
Authors: Wojciech Kwiatek, Ewa Stodolak-Zych, Czeslawa Paluszkiewicz, Piotr Jelen
Bioactivity of a Chitosan based Nanocomposite
Czeslawa Paluszkiewicz1,a, Ewa Stodolak-Zych2,b,
Wojciech Kwiatek3,c, Piotr Jelen1,d
1AGH – University of Science and Technology, Faculty of Materials Science and Ceramics, Department of Silicate Chemistry, Al.
Mickiewicza 30, 30-059 Krakow, Poland 2 AGH – University of Science and Technology, Faculty of Materials Science and Ceramics, Department of Biomaterials, Al.
This modification can guarantee bioactivity of CS materials or CS/HA composite materials [20-21].
Current Opinion in Solid State and Materials Science; 7 (2003) 289–99
Materials Journal of Sol-Gel Science and Technology; 21 (2001) 105–13
Mickiewicza 30, 30-059 Krakow, Poland 2 AGH – University of Science and Technology, Faculty of Materials Science and Ceramics, Department of Biomaterials, Al.
This modification can guarantee bioactivity of CS materials or CS/HA composite materials [20-21].
Current Opinion in Solid State and Materials Science; 7 (2003) 289–99
Materials Journal of Sol-Gel Science and Technology; 21 (2001) 105–13
Online since: June 2011
Authors: Zhan Zhao, Dao Qu Geng, Jing Xu, Zhen Fang, Li Dong Du, Jun Juan Zhao, Shao Hua Wu
New style four-electrode MEMS conductivity chip
Shao-hua Wu1, a, Zhan Zhao2, b, Zhen Fang3, c, Li-dong Du4, d,
Dao-qu Geng5, e, Jing Xu6, f, Jun-juan Zhao 7, g
1State Key Laboratory of Transducer Technology, Institute of Electronics,
Chinese Academy of Science, Beijing, China
Graduate University of Chinese Academy of Sciences, Beijing, China
2State Key Laboratory of Transducer Technology, Institute of Electronics,
Chinese Academy of Science, Beijing, China
arandlife_str@163.com, bzhaozhan@mail.ie.ac.cn, czfang@mail.ie.ac.cn
Key words: MEMS, Conductivity, Anti-pollution, Four electrodes
Abstract: MEMS sensor for solution conductivity measurement has been applied widely which has many advantages such as cheap, accurate, batch fabricate, and good consistent etc.
PEEK resin was used to fix the distance of the chip even when the temperature changes a lot, or the sensor is working in the corrosion environment caused by chemical material.
Chinese journal of science instrument, 1998, 19(4), 399:402
Journal of northeast china institute of electric power engineering, 2005, 25(6), 76:78
PEEK resin was used to fix the distance of the chip even when the temperature changes a lot, or the sensor is working in the corrosion environment caused by chemical material.
Chinese journal of science instrument, 1998, 19(4), 399:402
Journal of northeast china institute of electric power engineering, 2005, 25(6), 76:78
Online since: April 2011
Authors: Wei Yi Zhang, Mei Yang, Li Ya Hou
The shape, size and porosity of three-dimensional scaffold are adjusted by controlling the shape, size and proportion of porogen and biodegradable material [2].
Cui: Chinese Journal of Biomedical Engineering Vol. 25 (2006) NO.2, p. 197 [2] E.L.
Lei: Journal of Wuhan University of Technology Vol. 32 (2010) NO.12, p. 15 [3] P.X.
Hou: Science &Technology Review Vol. 23 (2005) NO.8, p. 4 [6] W.Y.
Hou: Science &Technology Review Vol. 24 (2006) NO.3, p. 41 [7] L.
Cui: Chinese Journal of Biomedical Engineering Vol. 25 (2006) NO.2, p. 197 [2] E.L.
Lei: Journal of Wuhan University of Technology Vol. 32 (2010) NO.12, p. 15 [3] P.X.
Hou: Science &Technology Review Vol. 23 (2005) NO.8, p. 4 [6] W.Y.
Hou: Science &Technology Review Vol. 24 (2006) NO.3, p. 41 [7] L.
Online since: March 2026
Authors: Ali Kamil Kareem, Ikram F. Hadi, I.R. Ali, Mohanad A. Kadhem, Mohammed A. Sahab, Fatima E. Ali, Ali R. Tayeh, Tabarak H. Rahim, Ghaith M. Hussein
Sterilize and mechanically convert the waste into recyclable raw materials; 3.
The materials were classified because each material has its own physical and chemical properties, and each material is a specific type of plastic, as each type of plastic has its own melting point.
Borrelle et al., “Predicted growth in plastic waste exceeds efforts to mitigate plastic pollution,” Science, vol. 369, no. 6510, pp. 1515–1518, Sept. 2020, doi: 10.1126/science.aba3656
Ok, “COVID-19’s unsustainable waste management,” Science, vol. 368, no. 6498, pp. 1438–1438, June 2020, doi: 10.1126/science.abc7778
Song, “Development of new metal/polymer materials for rapid tooling using Fused deposition modelling,” Materials & Design, vol. 25, no. 7, pp. 587–594, Oct. 2004, doi: 10.1016/j.matdes.2004.02.009
The materials were classified because each material has its own physical and chemical properties, and each material is a specific type of plastic, as each type of plastic has its own melting point.
Borrelle et al., “Predicted growth in plastic waste exceeds efforts to mitigate plastic pollution,” Science, vol. 369, no. 6510, pp. 1515–1518, Sept. 2020, doi: 10.1126/science.aba3656
Ok, “COVID-19’s unsustainable waste management,” Science, vol. 368, no. 6498, pp. 1438–1438, June 2020, doi: 10.1126/science.abc7778
Song, “Development of new metal/polymer materials for rapid tooling using Fused deposition modelling,” Materials & Design, vol. 25, no. 7, pp. 587–594, Oct. 2004, doi: 10.1016/j.matdes.2004.02.009
Online since: May 2012
Authors: Yong Feng, De Li Wu, Dong Duan, Ming Ma Lu
In the application of heterogeneous catalyst, investigations were mainly focused on two types of materials: (i) iron-bearing oxide, such as magnetite[6], goethite[3], ferrihydrite[7], hematite[8], green rust[9], etc.
(ii) transition metals or iron oxides supported by a series of immobilized materials such as MCM-41, silica[10], and nafion membrane[11].
Experimental Chemical and materials.
Chiron, Chemical Engineering Journal. 144 (2008) 453-458
Ma, CIESC Journal. 61 (2010) 1001-1008(In Chinese)
(ii) transition metals or iron oxides supported by a series of immobilized materials such as MCM-41, silica[10], and nafion membrane[11].
Experimental Chemical and materials.
Chiron, Chemical Engineering Journal. 144 (2008) 453-458
Ma, CIESC Journal. 61 (2010) 1001-1008(In Chinese)
Online since: March 2010
Authors: Wei Zhang, Min Fan, Zhi Qiang Du
Guo: Materials for Mechanical Engineering, (in Chinese), Vol.
30(2006), P. 9
[4] T.
Auer: Materials Science, Vol. 21(1986), P. 3348 [6] K.
Coulet: Materials Science and Engineering, A249(1998), P.167 [7] Y.
Hejazi: Journal of Materials Processing Technology, Vol. 124(2002), P. 354 [9] A.
Ambari: Materials Science and Engineering, A363(2003), P. 53 [10] C.J.
Auer: Materials Science, Vol. 21(1986), P. 3348 [6] K.
Coulet: Materials Science and Engineering, A249(1998), P.167 [7] Y.
Hejazi: Journal of Materials Processing Technology, Vol. 124(2002), P. 354 [9] A.
Ambari: Materials Science and Engineering, A363(2003), P. 53 [10] C.J.
Online since: November 2025
Authors: Heng Hannah Liu, Il Yong Kim, Diane Wowk, Gang Qi
Introduction
In the airframe industry, composite materials have been replacing conventional metallic materials at an unprecedented rate, driven by the essential need for lightweight and improved structural performances to achieve high demands on aircraft sustainability objectives.
Meanwhile, the complexity of failure mechanisms exhibited by fiber-reinforced polymer (FRP) composite materials makes predicting composite laminate damage and failure progress a daunting challenge.
Journal of the Mechanics and Physics of Solids, 1990. 38(2): p. 215-253
Composites Science and Technology, 2024. 255: p. 110726
Chen, Some modifications of Hashin’s failure criteria for unidirectional composite materials.
Meanwhile, the complexity of failure mechanisms exhibited by fiber-reinforced polymer (FRP) composite materials makes predicting composite laminate damage and failure progress a daunting challenge.
Journal of the Mechanics and Physics of Solids, 1990. 38(2): p. 215-253
Composites Science and Technology, 2024. 255: p. 110726
Chen, Some modifications of Hashin’s failure criteria for unidirectional composite materials.
Online since: December 2012
Authors: Guang Li, Yuan Xia, You Yu Fan
Fu, Journal of Materials Science 38/3 (2003) 421
Lau, Diamond and Related Materials 12 (2003) 2032
Lau, Diamond and Related Materials 12/10-11 (2003) 2093
Wang, Diamond and Related Materials 19/10 (2010) 1307
Hwang, Diamond and Related Materials 9/9-10 (2000) 1762
Lau, Diamond and Related Materials 12 (2003) 2032
Lau, Diamond and Related Materials 12/10-11 (2003) 2093
Wang, Diamond and Related Materials 19/10 (2010) 1307
Hwang, Diamond and Related Materials 9/9-10 (2000) 1762
Online since: May 2004
Authors: Joaquim Barbosa, C. Vilarinho, M. Pinho, F. Castro, Delfim Soares, R. Silva
Suganuma: Current Opinion in solid State & Materials Science Vol. 5 (2001), p. 55
Wen, Journal of Materials Science in Electronics, 9, 5 8 (1998)
Tréheax: Materials Science & Technology Vol. 3 (1987), p. 241
Selvaduray, Materials Science and Engineering, 27, 95 141 (2000)
Liu: J. of Electronic Materials Vol. 27 Nº 3 (1998), p. 97
Wen, Journal of Materials Science in Electronics, 9, 5 8 (1998)
Tréheax: Materials Science & Technology Vol. 3 (1987), p. 241
Selvaduray, Materials Science and Engineering, 27, 95 141 (2000)
Liu: J. of Electronic Materials Vol. 27 Nº 3 (1998), p. 97