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Online since: April 2011
Authors: Attanasio Aldo, Gianluca Danilo D'Urso
[4] D.W, Schwach, Y.B., Guo, Materials Science and Engineering A Vol. 395(2005), p. 116-123
[12] D.W., Schwach, Y.B., Guo, 2005, Materials Science and Engineering A Vol. 395 (2005), p. 116-123
[15] A.R.C., Sharman, J.I., Hughes, K., Ridg-way, Journal of Materials Processing Technology Vol. 173(2006), p. 359-367
[16] C.H., CheHaron, Journal of Materials Processing Technology Vol. 118 (2001), p. 231-237
[18] S., Kannan, H.A., Kishawy, Journal of Materials Processing Technology Vol. 198 (2008), p. 399-406
[12] D.W., Schwach, Y.B., Guo, 2005, Materials Science and Engineering A Vol. 395 (2005), p. 116-123
[15] A.R.C., Sharman, J.I., Hughes, K., Ridg-way, Journal of Materials Processing Technology Vol. 173(2006), p. 359-367
[16] C.H., CheHaron, Journal of Materials Processing Technology Vol. 118 (2001), p. 231-237
[18] S., Kannan, H.A., Kishawy, Journal of Materials Processing Technology Vol. 198 (2008), p. 399-406
Online since: January 2014
Authors: Yin Cheng, Hai Jun Yang, Wei Wei Zhou, Xi Hu, Zhong Qing Wu
Pan: Journal of Energetic Materials Vol. 19(2011), p.483-490
[2]X.M.
Wang: Journal of Energetic Materials Vol. 16(2008), p. 298-300 [3] X.H.
Zhao: Journal of Explosive Materials Vol. 37(2008), p. 33-35 [4] P.
Qian: Journal of The Safety Science and Technology of China Vol. 4(2008), p. 63-66 [5] S.P.
Chen: Journal of Polymer Materials Science & Engineering Vol. 28(2012), p. 179-182 [8]Y.
Wang: Journal of Energetic Materials Vol. 16(2008), p. 298-300 [3] X.H.
Zhao: Journal of Explosive Materials Vol. 37(2008), p. 33-35 [4] P.
Qian: Journal of The Safety Science and Technology of China Vol. 4(2008), p. 63-66 [5] S.P.
Chen: Journal of Polymer Materials Science & Engineering Vol. 28(2012), p. 179-182 [8]Y.
Online since: October 2010
Authors: Cihangir Duran, Mehmet Konyar, Didem Ovali, Huseyn Cengiz Yatmaz, Koray Öztürk
Hossain, Journal of Hazardous Materials 147 (2007) 471-477
Bayramoglu, Journal of Hazardous Materials 175 (2010) 484-491
Chaudhuri, Journal of Hazardous Materials 173 (2010) 445-449
Vaezi, Journal of Materials Processing Technology 205 (2008) 332-337
Jiang, Journal of Materials Science 39 (2004) 5389-5392.
Bayramoglu, Journal of Hazardous Materials 175 (2010) 484-491
Chaudhuri, Journal of Hazardous Materials 173 (2010) 445-449
Vaezi, Journal of Materials Processing Technology 205 (2008) 332-337
Jiang, Journal of Materials Science 39 (2004) 5389-5392.
Online since: October 2011
Authors: Zhen Lu Shen, Mei Chao Li, Jing Na Zhu, Wei Min Mo
Preparation and Characterization of Platinum/Polyaniline
Core-shell Composite
Jingna Zhu, Zhenlu Shen*, Weimin Mo and Meichao Li
Research Center of Analysis and Measurement, College of Chemical Engineering and Materials Science, Zhejiang University of Technology, Hangzhou 310032, Zhejiang, China
email: zhenlushen@zjut.edu.cn
Keywords: core-shell composite; platinum; polyaniline; chemical synthesis
Abstract.
Ye: Journal of Physical Chemistry C Vol. 111 (2007), P. 8463 [6] M.
Taejin: Materials Science Forum (2010), P. 2771 [11] J.
Lee: Journal of Polymer Science Part a-Polymer Chemistry Vol. 45 (2007), P. 5741 [20] A.
Wang: Journal of Polymer Science Part a-Polymer Chemistry Vol. 48 (2010), P. 3903
Ye: Journal of Physical Chemistry C Vol. 111 (2007), P. 8463 [6] M.
Taejin: Materials Science Forum (2010), P. 2771 [11] J.
Lee: Journal of Polymer Science Part a-Polymer Chemistry Vol. 45 (2007), P. 5741 [20] A.
Wang: Journal of Polymer Science Part a-Polymer Chemistry Vol. 48 (2010), P. 3903
Online since: October 2007
Authors: Wan Qi Jie, Jie Hua Li, Qi Tang Hao, Guang Yu Yang
Materials Science and Engineering, 1999, A263: 1~7
Materials Science and Engineering, 2001, A319~321(12): 751~755
Materials Transaction, 2001, 42(10): 2144~2147
International Materials Reviews, 2004, 49(1): 13~30
Materials Science and Engineering, 1991, A106: 10~113
Materials Science and Engineering, 2001, A319~321(12): 751~755
Materials Transaction, 2001, 42(10): 2144~2147
International Materials Reviews, 2004, 49(1): 13~30
Materials Science and Engineering, 1991, A106: 10~113
Online since: March 2019
Authors: Nik Nazri Nik Ghazali, Mohd Faizul Mohd Sabri, Tuan Zahari Tuan Zaharinie, Lee Qi, Suriani Ibrahim, Shaifulazuar Rozali
Methodology
Materials
Commercial solid sugar was obtained from local store.
Journal of Colloid and Interface Science 291 (2005) 7-12
Materials Letters. 63 (2009) 2564 - 2566
International Journal of Chemical, Molecular, Nuclear, Materials and Metallurgical Engineering 7 (2013) 1027 - 1033
Materials Science and Engineering: R: Reports 70 (2010) 1-28
Journal of Colloid and Interface Science 291 (2005) 7-12
Materials Letters. 63 (2009) 2564 - 2566
International Journal of Chemical, Molecular, Nuclear, Materials and Metallurgical Engineering 7 (2013) 1027 - 1033
Materials Science and Engineering: R: Reports 70 (2010) 1-28
Online since: September 2011
Authors: Xiue Gu, Gao Feng Quan, Zhi Min Ding
The effective factors such as materials modulus, the density as well as the assembling all contribute to the analyzed results.
Table 2 The relationship between basic frequency and material elastic modulus Material elastic modulus (GPa) 25 35 45 55 65 75 basic frequency(HZ) 1721 1744 1760 1782 1801 1816 Table 3 Relationship between basic frequency and materials density materials density(kg/m3) 1160 1360 1560 1760 1960 2160 basic frequency(HZ) 1774 1768 1760 1751 1743 1732 It is seen that the honeycomb panel’s basic frequency will decrease with the materials density increasing, and it will increase with the material elastic modulus increasing .So we can choose the right material according to the requirements of the task timely.
Chinese Journal of Nonferrous Metals.2006.8:p.19 [2] Jing’an Liu.
Sichuan Nonferrous Metals , 2005,4 [3] Gaofeng Quan, Zhaoming Liu, Xiue Gu, Materials Science Forum, 2011, Vol.680:1221-1224 [4] Gaofeng Quan,Zhaoming Liu, Materials Science Forum, 2010, Vol 654 – 656pp743 [5] Gaofeng Quan,Zhaoming Liu, Yingbo Zhang, Intl.
Journal of Aeronautical Materials.2000,20:pp172-177
Table 2 The relationship between basic frequency and material elastic modulus Material elastic modulus (GPa) 25 35 45 55 65 75 basic frequency(HZ) 1721 1744 1760 1782 1801 1816 Table 3 Relationship between basic frequency and materials density materials density(kg/m3) 1160 1360 1560 1760 1960 2160 basic frequency(HZ) 1774 1768 1760 1751 1743 1732 It is seen that the honeycomb panel’s basic frequency will decrease with the materials density increasing, and it will increase with the material elastic modulus increasing .So we can choose the right material according to the requirements of the task timely.
Chinese Journal of Nonferrous Metals.2006.8:p.19 [2] Jing’an Liu.
Sichuan Nonferrous Metals , 2005,4 [3] Gaofeng Quan, Zhaoming Liu, Xiue Gu, Materials Science Forum, 2011, Vol.680:1221-1224 [4] Gaofeng Quan,Zhaoming Liu, Materials Science Forum, 2010, Vol 654 – 656pp743 [5] Gaofeng Quan,Zhaoming Liu, Yingbo Zhang, Intl.
Journal of Aeronautical Materials.2000,20:pp172-177
Online since: February 2014
Authors: Bi Jun Luo, Dan Wu, Yu Qi Wang, Shao Yan Lu, Xi Ping Huang, Qi Zhang
Experimental Sections
2.1 Materials.
Summaries (1) Take MgCl2-rich purified brine as starting materials to prepare magnesium carbonate tri-hydrate is feasible.
(3) Vigorously promote that take MgCl2-rich brine resources as starting materials to prepare high performance, high value-added function material of magnesium carbonate and other magnesium series products.
European Journal of Pharmaceutical Sciences Vol.19 (2003), p. 281-289 [5] Cheng WT, Li ZB and George PD: Effects of temperature on the preparation of magnesium carbonate hydrates by reaction of MgCl2 with Na2CO3.
Journal of Materials Science Letters Vol.22 (2003), p. 825-829 [7] Mitsuhashi K, Tagami N and Tanabe K: Synthesis of micro tubes with a surface of “house of cards”structure via needlelike particles and control of their pore size.
Summaries (1) Take MgCl2-rich purified brine as starting materials to prepare magnesium carbonate tri-hydrate is feasible.
(3) Vigorously promote that take MgCl2-rich brine resources as starting materials to prepare high performance, high value-added function material of magnesium carbonate and other magnesium series products.
European Journal of Pharmaceutical Sciences Vol.19 (2003), p. 281-289 [5] Cheng WT, Li ZB and George PD: Effects of temperature on the preparation of magnesium carbonate hydrates by reaction of MgCl2 with Na2CO3.
Journal of Materials Science Letters Vol.22 (2003), p. 825-829 [7] Mitsuhashi K, Tagami N and Tanabe K: Synthesis of micro tubes with a surface of “house of cards”structure via needlelike particles and control of their pore size.
Online since: October 2023
Authors: P. Ravi Kumar, B. Rajesh, B. Durga Prasad Nayak, I. Jithendra Naga Sai Babu, Tata Nancharaiah, Bhil Ajay
The endeavours in quest for consistency in compound piece, design and surface have brought about the continuing progress of material science and innovation.
This new kind of material is named as "practically reviewed materials" (FGMs).
Applied Sciences, 10(4), 1397
Journal of Thermal Stresses, 34(10), 1054-1070
Applications and Applied Mathematics: An International Journal (AAM), 12(1), 40
This new kind of material is named as "practically reviewed materials" (FGMs).
Applied Sciences, 10(4), 1397
Journal of Thermal Stresses, 34(10), 1054-1070
Applications and Applied Mathematics: An International Journal (AAM), 12(1), 40
Online since: July 2022
Authors: Ton van den Boogaard, Emin Semih Perdahcioglu, Shahrzad Mirhosseini, Celal Soyarslan
In: Materials Science and Engineering: A 539 (2012), pp. 259-270
In: Journal of Materials Engineering and Performance 28.5 (2019), pp. 2903-2918
In: Materials Science and Engineering: A 560 (2013), pp. 129-139
In: Materials 13.7 (Apr. 2020)
"An approach to micro-macro modeling of heterogeneous materials".
In: Journal of Materials Engineering and Performance 28.5 (2019), pp. 2903-2918
In: Materials Science and Engineering: A 560 (2013), pp. 129-139
In: Materials 13.7 (Apr. 2020)
"An approach to micro-macro modeling of heterogeneous materials".