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Online since: August 2018
Authors: Sandra Izuchukwu, Casparus J.R. Verbeek, James Micheal Bier
Journal of applied polymer science, 1994. 52(5): p. 617-628
Journal of food science, 2008. 73(2)
Journal of applied polymer science, 2004. 93(2): p. 624-629
American Society for Testing and Materials
Journal of applied polymer science, 1984. 29(5): p. 1523-1530
Journal of food science, 2008. 73(2)
Journal of applied polymer science, 2004. 93(2): p. 624-629
American Society for Testing and Materials
Journal of applied polymer science, 1984. 29(5): p. 1523-1530
Online since: April 2013
Authors: Ayda Khosravanihaghighi, Mahmood Pakshir
The Effects of Sic Grain Size on Sic-Based Refractory
Paints
Ayda Khosravanihaghighi1,a and Mahmood Pakshir2,b
1 MSc student Shiraz University, school of engineering, department of Materials, Iran
2Assosiate prof, Shiraz University, school of engineering, department of Materials, Iran
aaida.khosravani@aol.com, bpakshir@shirazu.ac.ir
Keywords: SiC; Refractory Paint; Geopolymers; Ceramic Coatings
Abstract.
[4] D.Chen, L.He, S.Shang, Study on aluminum phosphate binder and related Al2O3-SiC ceramic coating Submitted to Material Science and Engineering journal, Vol.348(1-2) (2003), p.29-35
[7] S.Wolfgang, Refractory Materials,Chap.2-3(1999), p.21-23,216-218,327-341
[16] D.Pernica, PNB.Reis, JAM.Ferreira, P.Louda, Effect of test conditions on the bending strength of geopolymer-reinforced composite submitted to Journal of Material Science ,Vol.45, (2010), p.744-9
[18] Ch.Panagiotopoulou, E.Kontori, Th.Perraki, G.Kakali, Dissolution of aluminosilicate minerals and by products in alkaline media submitted to Journal of Material Science , Vol.42 (2007), p.2697
[4] D.Chen, L.He, S.Shang, Study on aluminum phosphate binder and related Al2O3-SiC ceramic coating Submitted to Material Science and Engineering journal, Vol.348(1-2) (2003), p.29-35
[7] S.Wolfgang, Refractory Materials,Chap.2-3(1999), p.21-23,216-218,327-341
[16] D.Pernica, PNB.Reis, JAM.Ferreira, P.Louda, Effect of test conditions on the bending strength of geopolymer-reinforced composite submitted to Journal of Material Science ,Vol.45, (2010), p.744-9
[18] Ch.Panagiotopoulou, E.Kontori, Th.Perraki, G.Kakali, Dissolution of aluminosilicate minerals and by products in alkaline media submitted to Journal of Material Science , Vol.42 (2007), p.2697
Online since: December 2011
Authors: Qiong Wang, Guang Ying Yang, Zhen Jun Wang, Rui Wang
Study of mastic-aggregate interfacial adhesion in cement emulsified asphalt mixture based on the Discrete Element Method (DEM)
Zhenjun WANGa, Rui WANGb, Qiong WANGc and Guangying YANGd
School of Materials Science & Engineering, Chang’an University, Xi’an 710061, P.
Cement emulsified asphalt mixture is a kind of composite materials, which is comprised of organic and inorganic materials, such as emulsified asphalt and cement, and has both advantages of cement concrete and asphalt concrete.
,Chen S.F. and Wang B.G.: Journal of Chang’an University (Natural Science Edition) Vol. 30 (2010), p. 6-10.
(in Chinese) [5] You Z.P.and ButtlarW.G.: Journal of Materials in Civil Engineering Vol. 34 (2004), p. 140-145
[6] Hyunwook K., Michael P.W. and William G.B.: Jounal of Materials in Civil Engneering Vol. 6 (2008), p. 552-563.
Cement emulsified asphalt mixture is a kind of composite materials, which is comprised of organic and inorganic materials, such as emulsified asphalt and cement, and has both advantages of cement concrete and asphalt concrete.
,Chen S.F. and Wang B.G.: Journal of Chang’an University (Natural Science Edition) Vol. 30 (2010), p. 6-10.
(in Chinese) [5] You Z.P.and ButtlarW.G.: Journal of Materials in Civil Engineering Vol. 34 (2004), p. 140-145
[6] Hyunwook K., Michael P.W. and William G.B.: Jounal of Materials in Civil Engneering Vol. 6 (2008), p. 552-563.
Online since: June 2012
Authors: Liang Liu, Bao Cai Xu
Preparing and Characterization of Hollow Ceramic Microspheres
Liang Liua ,Baocai Xu
Institute of Advanced Materials, Mechanical Engineering College, Shijiazhuang 050003, China
a Llppmouse@163.com
Keywords: Hollow ceramic microspheres; Absorb material; Self-reactive flame spraying method; equips of collection
Abstract: The hollow microsphere is a kind of new materials .Its comprehensive performance is excellent and has a bright future.
Fig.1 SEM of the hollow ceramic microsphere Fig.2 XRD of the hollow ceramic microsphere As a bran-new microballoon materia, hollow microsphere can also be used for stealth materials.
Journal of Central South University of Technology. 4 (2011) 35-41
Journal of University of Science and Technology Beijing. 4(2004) 20-24
Journal of Central South University of Technology. 2(2004) 34-36
Fig.1 SEM of the hollow ceramic microsphere Fig.2 XRD of the hollow ceramic microsphere As a bran-new microballoon materia, hollow microsphere can also be used for stealth materials.
Journal of Central South University of Technology. 4 (2011) 35-41
Journal of University of Science and Technology Beijing. 4(2004) 20-24
Journal of Central South University of Technology. 2(2004) 34-36
Online since: September 2013
Authors: Bambang Soegijono, Dwita Suastiyanti, M. Hikam
This research was being an earlier research to form multiferroic materials.
It confirms material lead to form good characteristics of multiferroic materials.
[7] H.Seema, S.K.Durrani.S.K, K.Saeed, I.Mohammadzai, N.Husaain, “Auto-combustion synthesis and characterization of multi-ferroic (BiFeO3) materials”, JPMS Conference Issue Materials, 2010
[8] T.Singanahally, Aruna, S.Alexander, Mukasyan, “Combustion synthesis and nanomaterials”, Current Opinion in Solid State and Materials Science 12 pp 44-50, 2008
[9] D.Suastiyanti, B.Soegijono, “Shifting of x-ray diffraction pattern peak on BaFe12O19 nanocrystalline produced by sol gel auto combustion method”, Advanced Materials Research Journal 576 pp 240-243, 2012.
It confirms material lead to form good characteristics of multiferroic materials.
[7] H.Seema, S.K.Durrani.S.K, K.Saeed, I.Mohammadzai, N.Husaain, “Auto-combustion synthesis and characterization of multi-ferroic (BiFeO3) materials”, JPMS Conference Issue Materials, 2010
[8] T.Singanahally, Aruna, S.Alexander, Mukasyan, “Combustion synthesis and nanomaterials”, Current Opinion in Solid State and Materials Science 12 pp 44-50, 2008
[9] D.Suastiyanti, B.Soegijono, “Shifting of x-ray diffraction pattern peak on BaFe12O19 nanocrystalline produced by sol gel auto combustion method”, Advanced Materials Research Journal 576 pp 240-243, 2012.
Online since: September 2013
Authors: Apiwat Muttamara, Nitipud Treeranurat
Introduction
Electrical Discharge Machining (EDM) is a process for removing material from electrical conductive materials.
[2] J.C Rebelo, A Morão Dias, Ruy Mesquita, Paulo Vassalo, Mário Santos, An experimental study on electro-discharge machining and polishing of high strength copper–beryllium alloys, Journal of Materials Processing Technology, Vol. 103(3), July 2000: 389-397
International Journal of Refractory Metals and Hard Materials, Volume 27(4), July 2009: 676-682
Fukuzawa, “A Study of Micro–EDM on Silicon Nitride Using Electrode Materials” International Transaction Journal of Engineering, Management, & Applied Sciences & Technologies, Vol. 2010(1):1-7
Electrical discharge Machining properties of noble crystals, Journal of Materials Processing Technology,Vol.149, Issues 1-3, (2004) :393-397
[2] J.C Rebelo, A Morão Dias, Ruy Mesquita, Paulo Vassalo, Mário Santos, An experimental study on electro-discharge machining and polishing of high strength copper–beryllium alloys, Journal of Materials Processing Technology, Vol. 103(3), July 2000: 389-397
International Journal of Refractory Metals and Hard Materials, Volume 27(4), July 2009: 676-682
Fukuzawa, “A Study of Micro–EDM on Silicon Nitride Using Electrode Materials” International Transaction Journal of Engineering, Management, & Applied Sciences & Technologies, Vol. 2010(1):1-7
Electrical discharge Machining properties of noble crystals, Journal of Materials Processing Technology,Vol.149, Issues 1-3, (2004) :393-397
Online since: January 2025
Authors: Ganjar Fadillah, Febi Indah Fajarwati, Rahmat Hidayat
Potential applications of graphene extend across a wide range of industries, including electronics and electronics. materials science, energy storage, medicine and much more, which emphasizes its deep scientific and technological significance [2].
In this way, the word “waste” can be replaced by “renewable resource materials” as the waste is used as feedstock materials in various processes [8].
Ramelan, "Simple synthesis of rGO (reduced graphene oxide) by thermal reduction of GO (graphene oxide)," in IOP Conference Series: Materials Science and Engineering, 2020, vol. 858, no. 1: IOP Publishing, p. 012009
Fadillah, "Green synthesis approach to produce TiO2/rGO nanocomposite as voltammetric sensor for monitoring trace level bisphenol-A," Materials Science and Engineering: B, vol. 286, p. 116083, 2022
Zhang, "The acetic acid gas sensing properties of graphene quantum dots (GQDs)–ZnO nanocomposites prepared by hydrothermal method," Journal of Materials Science: Materials in Electronics, vol. 28, no. 24, pp. 19164-19173, 2017/12/01 2017, doi: 10.1007/s10854-017-7873-7
In this way, the word “waste” can be replaced by “renewable resource materials” as the waste is used as feedstock materials in various processes [8].
Ramelan, "Simple synthesis of rGO (reduced graphene oxide) by thermal reduction of GO (graphene oxide)," in IOP Conference Series: Materials Science and Engineering, 2020, vol. 858, no. 1: IOP Publishing, p. 012009
Fadillah, "Green synthesis approach to produce TiO2/rGO nanocomposite as voltammetric sensor for monitoring trace level bisphenol-A," Materials Science and Engineering: B, vol. 286, p. 116083, 2022
Zhang, "The acetic acid gas sensing properties of graphene quantum dots (GQDs)–ZnO nanocomposites prepared by hydrothermal method," Journal of Materials Science: Materials in Electronics, vol. 28, no. 24, pp. 19164-19173, 2017/12/01 2017, doi: 10.1007/s10854-017-7873-7
Online since: December 2013
Authors: Bao Guo Yao, Shui Yuan Hong, Jian Chao Wang
Twelve types of fabrics made from different textile materials were tested.
Heat-moisture transfer performance of the textile materials such as fabric is one of the key factors affecting clothing wearing comfort, which also decides the performance of some special functional fabric.
Twelve types of fabrics with different structural features and made from different textile materials were tested for the temperature regulation properties.
D., Science, 1941, 94 (2445): 428-430
[10] Mu Yao and Mei-wu Shi, Journal of Northwest Institute of Textile Science and Technology, 2001, 15 (2): 50-52
Heat-moisture transfer performance of the textile materials such as fabric is one of the key factors affecting clothing wearing comfort, which also decides the performance of some special functional fabric.
Twelve types of fabrics with different structural features and made from different textile materials were tested for the temperature regulation properties.
D., Science, 1941, 94 (2445): 428-430
[10] Mu Yao and Mei-wu Shi, Journal of Northwest Institute of Textile Science and Technology, 2001, 15 (2): 50-52
Online since: December 2013
Authors: Ying Yan, Yu Ping Guo, Lan Kun Cai, Qiong Wu, Hao Zhou, Lai Ming Wu
These gases which do harm to human beings [4] at a low concentration can be released from decorative materials [5, 6], vehicle exhausts [7], industry manufacture [8] etc.
Grossi: Chemistry Central Journal Vol. 6(1) (2012), p.21
Kang, et al: Journal of Natural Gas Chemistry Vol. 20(5) (2011), p.515-519
Li: Journal of Materials Science-materials in Electronics Vol. 22(4) (2011), p.418-421
Khalid: Journal of Hazardous Materials Vol. 186 (2-3) (2011), p.2037-2042
Grossi: Chemistry Central Journal Vol. 6(1) (2012), p.21
Kang, et al: Journal of Natural Gas Chemistry Vol. 20(5) (2011), p.515-519
Li: Journal of Materials Science-materials in Electronics Vol. 22(4) (2011), p.418-421
Khalid: Journal of Hazardous Materials Vol. 186 (2-3) (2011), p.2037-2042
Online since: October 2015
Authors: Mohd Suffian Yusoff, Jeyashelly Andas, Ghani Zaidi Ab
Hameed, Journal of Hazardous Materials 171 (2009) 54-60
Adlan, Journal of Hazardous Materials 190 (2011) 582-587
Zhang, Journal of Hazardous Materials 211–212 (2012) 317-331
Moulin, Journal of Hazardous Materials 150 (2008) 468-493
Choi, Journal of Hazardous Materials 275 (2014) 121-135
Adlan, Journal of Hazardous Materials 190 (2011) 582-587
Zhang, Journal of Hazardous Materials 211–212 (2012) 317-331
Moulin, Journal of Hazardous Materials 150 (2008) 468-493
Choi, Journal of Hazardous Materials 275 (2014) 121-135