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Online since: September 2015
Authors: Pavel Svoboda, Karl Heinz Winter
Journal of Eng.
Journal of Engineering Mechanics, Vol.122, No.3, March 1996, pp.245-262 [15] I.
Fracture processes in concrete, rock and ceramics, edts J.G.M. van Mier, J.G.
Procházka, A.N.Kravtsov, S.Lok, Assessment of Laminated Cylindrical Arch Loaded by a Shock Wave, International Journal of Protective Structures, ISSN 2041-4196 2011, vol. 2, no. 2, p. 267-282 [18] S.
Civil engineering studies, University of Illinois, July 1974.
Journal of Engineering Mechanics, Vol.122, No.3, March 1996, pp.245-262 [15] I.
Fracture processes in concrete, rock and ceramics, edts J.G.M. van Mier, J.G.
Procházka, A.N.Kravtsov, S.Lok, Assessment of Laminated Cylindrical Arch Loaded by a Shock Wave, International Journal of Protective Structures, ISSN 2041-4196 2011, vol. 2, no. 2, p. 267-282 [18] S.
Civil engineering studies, University of Illinois, July 1974.
Online since: July 2016
Authors: Sergey N. Dub, Athanasios G. Mamalis, Oleg G. Lysenko, Vladimir I. Grushko, Eugene I. Mitskevich, Nikolay V. Novikov
Pollock, Nanoindentation, In: Friction, Lubrication and Wear Technology, ASM Handbook 18, ASM International.
ASM International: Materials Park, 8(2000) 232–243
Mackerle, Engineering computations, Int.
McColm, Ceramic Hardness, Plenum Press, New York, 1990
Veprek (Eds.), Surface Engineering 2002: Synthesis, Characterization and Applications, Mater.
ASM International: Materials Park, 8(2000) 232–243
Mackerle, Engineering computations, Int.
McColm, Ceramic Hardness, Plenum Press, New York, 1990
Veprek (Eds.), Surface Engineering 2002: Synthesis, Characterization and Applications, Mater.
Online since: January 2009
Authors: Xian Liang Zhou, Jian Yun Zhang, Xiao Zhen Hua, Ai Hua Zou
Influence of Mg and Si in the Aluminum on the Thermo-physical
Properties of Pressureless Infiltrated SiCp/Al Composites
Xianliang ZHOU, Aihua ZOU, Xiaozhen HUA, Jianyun ZHANG
School of Materials Science and Engineering, NanChang Hangkong University,
Nanchang, 330063, China
a
email:zhouxianliang@hotmail.com
Key words: SiCp/Al Composite; Pressureless Infiltration; Coefficient of Thermal Expansion,
Thermal Conductivity
Abstract.
Some studies have been made to overcome this barrier, such as the addition of Mg and Si to the aluminum matrix, passive oxidation of SiC, utilization for N2 atmosphere and controlling of the infiltration time and temperature[12-15].Some experiments have been carried out to prepare the SiCp/Al composites by pressure infiltration, which has been reported that Mg contained in matrix may improve in the wettability between ceramics and metals, and that Si may prevent or retard the development of unwanted phases[16], but relatively little attention has been paid to the effect of Mg and Si in the aluminum on the thermo-physical properties of pressureless infiltrated SiCp/Al composites.As is shown that the key requirements for electronic packaging materials are a high thermal conductivity, a CTE similar to that of elements common to microelectronics systems, a high thermal dimensional stability and an appropriate strength [17].
References [1] JOHNSTON C, YOUNG R: International Newsletter on Microsystems and MEMs Vol.2 (2000),p.14 [2] CARL ZWEBEN: Optoelectronics(2002), p.37 [3] CUI Yan: Journal of Materials Engineering (2002), p.3 [4] BYUNG-CHUL KO,GYEONG-SU PARK,YEON-YOO:J Mat Pro Tec Vol.95(1999), p.210 [5] LIU Cheng, QIN Shu-yi, ZHAN Guo-ding: Mat Sci Eng Vol.A332(2002), p.203 [6] HEMAMBAR C ,RAO B S,JAYARAM :Materials and Manufacturing Processes Vol.16(2001), p.779 [7] ZHANG Wei-yu, ZUO Tao, XIAO Bo-lu, FAN Jian-zhong, TIAN Xiao-feng: Powder Metallurgy Technology Vol.22(2004), p.354 [8] LI Ming-wei, HAN Jian-min, LI Wei-jing ,CUI Shi-hai, WANG Jin-hua: Journal of northern jiao tong university Vol.28(2004), p.100 [9] VELHINHL A, SEQUERRA P D, MARTINS R : Nuclear Instruments and Methods in Physics Research Vol.B200(2003), p.295 [10] Pech-Canul MI, Katz RN, Makhlouf MM: J Mater Process Tech Vol.108(2000), p.68 [11] Lee JC, Ahn JP, Shim JH:Scripta Mater Vol.41(1999), p.895 [12
JEON: J Mat Sci Vol.35(2000), p.6231 [13] CANDAN E, AJ;AHLATCI H : Wear Vol.247(2001), p.133 [14] SHI Zhong-liang,OCHIAI S ,SOJO M: Journal of Materials Research Vol.16(2001), p.400 [15] ZULFIA A , HANDR J: J Mat Sci Vol.37(2002), p.953 [16] Aghajanian M K,Rocazella M A,Burke J T: J.Mat Sci Vol.26(1991), p.447 [17] Robins M: Electron Packag Prod Vol.40(2000), p.9 [18] ZHANG Jian-yun,HUA Xiao-zhen,Zhou Xianliang: Metal Functional Materials Vol.9(2002), p.26 [19] ZHANG Jian-yun ,SUN Liang-xin , HUA Xiao-zhen: Aerospace Materials & Technology Vol.34(2004), p.32 [20] Clyne TW, Withers PJ: Cambridge University Press Vol.263(1996) [21] LIU Xiang dong , WANG Ying: FOUNDRY TECHNOLOGY Vol.25(2004), p.58 [22] Hashim J, Looney L, Hashm MSJ: J Mater Process Tech Vol.119(2001), p.8
Some studies have been made to overcome this barrier, such as the addition of Mg and Si to the aluminum matrix, passive oxidation of SiC, utilization for N2 atmosphere and controlling of the infiltration time and temperature[12-15].Some experiments have been carried out to prepare the SiCp/Al composites by pressure infiltration, which has been reported that Mg contained in matrix may improve in the wettability between ceramics and metals, and that Si may prevent or retard the development of unwanted phases[16], but relatively little attention has been paid to the effect of Mg and Si in the aluminum on the thermo-physical properties of pressureless infiltrated SiCp/Al composites.As is shown that the key requirements for electronic packaging materials are a high thermal conductivity, a CTE similar to that of elements common to microelectronics systems, a high thermal dimensional stability and an appropriate strength [17].
References [1] JOHNSTON C, YOUNG R: International Newsletter on Microsystems and MEMs Vol.2 (2000),p.14 [2] CARL ZWEBEN: Optoelectronics(2002), p.37 [3] CUI Yan: Journal of Materials Engineering (2002), p.3 [4] BYUNG-CHUL KO,GYEONG-SU PARK,YEON-YOO:J Mat Pro Tec Vol.95(1999), p.210 [5] LIU Cheng, QIN Shu-yi, ZHAN Guo-ding: Mat Sci Eng Vol.A332(2002), p.203 [6] HEMAMBAR C ,RAO B S,JAYARAM :Materials and Manufacturing Processes Vol.16(2001), p.779 [7] ZHANG Wei-yu, ZUO Tao, XIAO Bo-lu, FAN Jian-zhong, TIAN Xiao-feng: Powder Metallurgy Technology Vol.22(2004), p.354 [8] LI Ming-wei, HAN Jian-min, LI Wei-jing ,CUI Shi-hai, WANG Jin-hua: Journal of northern jiao tong university Vol.28(2004), p.100 [9] VELHINHL A, SEQUERRA P D, MARTINS R : Nuclear Instruments and Methods in Physics Research Vol.B200(2003), p.295 [10] Pech-Canul MI, Katz RN, Makhlouf MM: J Mater Process Tech Vol.108(2000), p.68 [11] Lee JC, Ahn JP, Shim JH:Scripta Mater Vol.41(1999), p.895 [12
JEON: J Mat Sci Vol.35(2000), p.6231 [13] CANDAN E, AJ;AHLATCI H : Wear Vol.247(2001), p.133 [14] SHI Zhong-liang,OCHIAI S ,SOJO M: Journal of Materials Research Vol.16(2001), p.400 [15] ZULFIA A , HANDR J: J Mat Sci Vol.37(2002), p.953 [16] Aghajanian M K,Rocazella M A,Burke J T: J.Mat Sci Vol.26(1991), p.447 [17] Robins M: Electron Packag Prod Vol.40(2000), p.9 [18] ZHANG Jian-yun,HUA Xiao-zhen,Zhou Xianliang: Metal Functional Materials Vol.9(2002), p.26 [19] ZHANG Jian-yun ,SUN Liang-xin , HUA Xiao-zhen: Aerospace Materials & Technology Vol.34(2004), p.32 [20] Clyne TW, Withers PJ: Cambridge University Press Vol.263(1996) [21] LIU Xiang dong , WANG Ying: FOUNDRY TECHNOLOGY Vol.25(2004), p.58 [22] Hashim J, Looney L, Hashm MSJ: J Mater Process Tech Vol.119(2001), p.8
Online since: July 2014
Authors: Xing Yan Chen, Tao Tao
Analysis of application of molecular sieve on the woody Fire-Retardant research
Xingyan Chen 1, a ,Tao Tao1, b
1 School of Materials Science and Engineering, Central South University of Forestry and Technology, Changsha, Hunan 410004, China
acxy9101@163.com, btaotaohunter@163.com
Keywords: Molecular sieve, Mesoporous molecular sieve, Woody material, Flame retardant, Applied research.
Molecular sieve in intumescent flame retardant (IFR) application of IR-RE system in the [D]. flame retardant property of Beijing University of Chemical Technology, 2000-05 [6] Ping Wei, JianqiWang: Polymer materials science and engineering, 2003 (5): 179-186 In Chinese
[9] Mingzhi Wang ,Yijing Chen, li li: Journal of forestry machinery and woodworking equipment, 2011 (7) : 20-23.
[10] Liaoyuan Xia, Yiqiang Wu, Yunchu Hu: Journal of inorganic materials, 2013 (5) : 532-536.
[11] Yiqiang Wu, Chunhua Yao, Yunchu Hu etc: Journal of central south forestry university of science and technology, 2012 (1) : 1-8.
Molecular sieve in intumescent flame retardant (IFR) application of IR-RE system in the [D]. flame retardant property of Beijing University of Chemical Technology, 2000-05 [6] Ping Wei, JianqiWang: Polymer materials science and engineering, 2003 (5): 179-186 In Chinese
[9] Mingzhi Wang ,Yijing Chen, li li: Journal of forestry machinery and woodworking equipment, 2011 (7) : 20-23.
[10] Liaoyuan Xia, Yiqiang Wu, Yunchu Hu: Journal of inorganic materials, 2013 (5) : 532-536.
[11] Yiqiang Wu, Chunhua Yao, Yunchu Hu etc: Journal of central south forestry university of science and technology, 2012 (1) : 1-8.
Online since: August 2013
Authors: Xiao Pei Wu, Wei Bo Zhu, Duan Cheng Wang, Qing Hua Chen
A Modification of Spherical Particles Calcium Sulfate for Alveolar Bone Defect
Xiaopei Wu 1,a, Weibo Zhu1,b, Duancheng Wang 1,c and Qinghua Chen1, d
1 School of Materials Science and Engineering, Kunming University of Science and Technology, Kunming, 650093, China
awxp06134@sina.com, b625296056@qq.com, c410235244@qq.com, dchenqinghua_ynl@163.com
Keywords: calcium sulfate, spherical particles, alveolar bone, sodium silicate.
Sakka, et a1. : Solution able to reproduce in vivo surface-structure change in bioactive glass ceramic A-W, J Biomed Mater Res Vol.24(1990), p.72l-734 [8] J.
Wander: Study of the influence of some DCCAs on the structure of sol-gel silica membranes, Journal of Non-crystalline solids.
:Temperature effects on the radiation stability and ion exchange capacity of smectites, Journal of Nuclear Materials Vol. 297(2001), p.345-354 [14] G.
Jia: Deposition of Plate-Like Apatite on Nacre Surfaces and Its in Vitro Bioactivity, Rare Metal Materials and Engineering Vol. 38(z2)(2009), p. 834-837 [16] T.
Sakka, et a1. : Solution able to reproduce in vivo surface-structure change in bioactive glass ceramic A-W, J Biomed Mater Res Vol.24(1990), p.72l-734 [8] J.
Wander: Study of the influence of some DCCAs on the structure of sol-gel silica membranes, Journal of Non-crystalline solids.
:Temperature effects on the radiation stability and ion exchange capacity of smectites, Journal of Nuclear Materials Vol. 297(2001), p.345-354 [14] G.
Jia: Deposition of Plate-Like Apatite on Nacre Surfaces and Its in Vitro Bioactivity, Rare Metal Materials and Engineering Vol. 38(z2)(2009), p. 834-837 [16] T.
Online since: May 2015
Authors: Laurenţiu Slătineanu, Oana Dodun, Margareta Coteaţă, Gheorghe Nagit, Vasile Merticaru
In order to be machined by wire electrical discharge processes, the workpiece material must be electroconductive; in the last decades, the researchers proved also the possibilities to apply the electrical discharge machining to certain ceramic materials and composite materials [4].
Zoler, Morphological - functional aspects of electro-discharge machined surface textures, Journal of Mechanical Engineering 55 (2009) 95-103
Aggarwal, Simultaneous optimization of material removal rate and surface roughness for WEDM of WC-Co composite using grey relational analysis along with Taguchi method, International Journal of Industrial Engineering Computations 2 (2011) 479–490
Khan, Parametric optimization for surface roughness, kerf and MRR in wire electrical discharge machining (WEDM) using Taguchi design of experiment, Journal of Mechanical Science and Technology 27 (2013) 2133~2141
Zoler, Morphological - functional aspects of electro-discharge machined surface textures, Journal of Mechanical Engineering 55 (2009) 95-103
Aggarwal, Simultaneous optimization of material removal rate and surface roughness for WEDM of WC-Co composite using grey relational analysis along with Taguchi method, International Journal of Industrial Engineering Computations 2 (2011) 479–490
Khan, Parametric optimization for surface roughness, kerf and MRR in wire electrical discharge machining (WEDM) using Taguchi design of experiment, Journal of Mechanical Science and Technology 27 (2013) 2133~2141
Online since: December 2019
Authors: N.N. Onoprienko
Baskakov, On the issue of improving the quality of domestically produced building mortars, Research Journal of Applied Sciences. 9 (12) (2014) 1202-1205
Sumskoi, Designing Of Mortar Compositions On The Basis Of Dry Mixes, International Journal of Applied Engineering Research. 10 (5) (2015) 12383-12390
Kantserev, Application of nanofluids in refrigerating engineering, Chemical Bulletin. 1 (1) (2018) 37–40
Pivinsky, Ceramic binders and ceramo-concretes, Metallurgy, Moscow, 1990
Baoguo, Huixian Wang, Rheological properties of self-compacting of concrete paste containing chemical admixtures, Journal of Wuhan University of Technology- Mater.
Sumskoi, Designing Of Mortar Compositions On The Basis Of Dry Mixes, International Journal of Applied Engineering Research. 10 (5) (2015) 12383-12390
Kantserev, Application of nanofluids in refrigerating engineering, Chemical Bulletin. 1 (1) (2018) 37–40
Pivinsky, Ceramic binders and ceramo-concretes, Metallurgy, Moscow, 1990
Baoguo, Huixian Wang, Rheological properties of self-compacting of concrete paste containing chemical admixtures, Journal of Wuhan University of Technology- Mater.
Online since: September 2023
Authors: M. Abisha Meji, D. Usha
Introduction
Nowadays, nanotechnology is essential for the development of novel materials useful in the engineering and medical sector.
Review of current findings, challenges and future perspectives, International Journal of Nanomedicine 16 (2021): 5713. 10.2147/ijn.s327334 [3] Ha, Juyoung, Novel Applications of Nanoparticles in Nature and Building Materials, Novel Nanomaterials; IntechOpen: London, UK (2021): 331
[4] Marouzi, Somayeh, Zahra Sabouri, and Majid Darroudi, Greener synthesis and medical applications of metal oxide nanoparticles, Ceramics International 47, no. 14 (2021): 19632-19650. 10.1016/j.ceramint.2021.03.301 [5] Aslam, Mohammad, Ahmad Zuhairi Abdullah, and Mohd Rafatullah, Recent development in the green synthesis of titanium dioxide nanoparticles using plant-based biomolecules for environmental and antimicrobial applications, Journal of Industrial and Engineering Chemistry 98 (2021): 1-16. 10.1016/j.jiec.2021.04.010 [6] Sadhasivam, Sahana, Megala Shanmugam, Pillai Divya Umamaheswaran, Anbazhagan Venkattappan, and Anusuya Shanmugam, Zinc oxide nanoparticles: green synthesis and biomedical applications, Journal of Cluster Science 32, no. 6 (2021): 1441-1455. 10.1007/s10876-020-01918-0 [7] Abdelbaky, Ahmed S., Taia A.
Mohana Priya, and Matias Soto-Moscoso, Green synthesis of zinc oxide nanoparticles by Justicia adhatoda leaves and their antimicrobial activity, Chemical Engineering & Technology 44, no. 3 (2021): 551-558. 10.1002/ceat.202000470 [16] Abomuti, May Abdullah, Ekram Y.
Lakshmi, Green synthesis of zinc oxide nanoparticles by Cardiospermum, Journal of Complementary Medicine Research 11, no. 5 (2021): 128-128
Review of current findings, challenges and future perspectives, International Journal of Nanomedicine 16 (2021): 5713. 10.2147/ijn.s327334 [3] Ha, Juyoung, Novel Applications of Nanoparticles in Nature and Building Materials, Novel Nanomaterials; IntechOpen: London, UK (2021): 331
[4] Marouzi, Somayeh, Zahra Sabouri, and Majid Darroudi, Greener synthesis and medical applications of metal oxide nanoparticles, Ceramics International 47, no. 14 (2021): 19632-19650. 10.1016/j.ceramint.2021.03.301 [5] Aslam, Mohammad, Ahmad Zuhairi Abdullah, and Mohd Rafatullah, Recent development in the green synthesis of titanium dioxide nanoparticles using plant-based biomolecules for environmental and antimicrobial applications, Journal of Industrial and Engineering Chemistry 98 (2021): 1-16. 10.1016/j.jiec.2021.04.010 [6] Sadhasivam, Sahana, Megala Shanmugam, Pillai Divya Umamaheswaran, Anbazhagan Venkattappan, and Anusuya Shanmugam, Zinc oxide nanoparticles: green synthesis and biomedical applications, Journal of Cluster Science 32, no. 6 (2021): 1441-1455. 10.1007/s10876-020-01918-0 [7] Abdelbaky, Ahmed S., Taia A.
Mohana Priya, and Matias Soto-Moscoso, Green synthesis of zinc oxide nanoparticles by Justicia adhatoda leaves and their antimicrobial activity, Chemical Engineering & Technology 44, no. 3 (2021): 551-558. 10.1002/ceat.202000470 [16] Abomuti, May Abdullah, Ekram Y.
Lakshmi, Green synthesis of zinc oxide nanoparticles by Cardiospermum, Journal of Complementary Medicine Research 11, no. 5 (2021): 128-128
Online since: December 2022
Authors: Ojo Sunday Isaac Fayomi, Ayuba Ushe Samuel, O.A. Omotosho
Journal of Achievements in Materials and Manufacturing Engineering, 89(2), 49-55
Journal of industrial and engineering chemistry, 85, 34-65
International Journal of Heat and Mass Transfer, 119, 614-623
Materials Science and Engineering: A, 742, 224-230
Materials Science and Engineering: A, 749, 166-175
Journal of industrial and engineering chemistry, 85, 34-65
International Journal of Heat and Mass Transfer, 119, 614-623
Materials Science and Engineering: A, 742, 224-230
Materials Science and Engineering: A, 749, 166-175
Online since: December 2010
Authors: Susana Méndez, Jacques Lacaze, Iker Asenjo, Jon Sertucha, Ramón Suárez, Peio Larrañaga
Microstructure Investigation of Small-Section Nodular Iron Castings
with Chunky Graphite
Iker Asenjo
1,a
, Jacques Lacaze
2,b
, Peio Larrañaga1,c,
Susana Méndez1,d, Jon Sertucha
1,e
, Ramón Suárez1,f
1
Engineering and Foundry Processes Department, AZTERLAN,
Aliendalde Auzunea 6, E-48200 Durango (Bizkaia), Spain
2
CIRIMAT, Université de Toulouse, ENSIACET,
BP 74233, 31432 Toulouse cedex 4, France
a
iasenjo@azterlan.es, bjacques.lacaze@ensiacet.fr, cplarranaga@azterlan.es,
d
smendez@azterlan.es,
e
jsertucha@azterlan.es, frsuarez@azterlan.es
Keywords: nodular iron, chunky graphite, light-section castings
Abstract.
Inoculation was performed by adding 0.45% of the melt weight of a commercial inoculant (70-78 Si, 3.2-4.5 Al, 0.3-1.5 Ca and ~0.5 RE, wt.%) as inserts placed in the gating system before the ceramic filter.
Kallböm: Materials Science and Engineering A Vol. 413-414 (2005), p. 346 [6] M.
Lacaze: International Journal of Cast Metals Research Vol. 20 (2007), p. 319 [8] J.
Armendariz: ISIJ International Vol. 49 (2009), p. 220 [9] P.
Inoculation was performed by adding 0.45% of the melt weight of a commercial inoculant (70-78 Si, 3.2-4.5 Al, 0.3-1.5 Ca and ~0.5 RE, wt.%) as inserts placed in the gating system before the ceramic filter.
Kallböm: Materials Science and Engineering A Vol. 413-414 (2005), p. 346 [6] M.
Lacaze: International Journal of Cast Metals Research Vol. 20 (2007), p. 319 [8] J.
Armendariz: ISIJ International Vol. 49 (2009), p. 220 [9] P.