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Online since: September 2013
Authors: Jia Hui Peng, Zhi Kun Li
Materials and Experiments
2.1 Materials
2.1.1 Cement: P.O 42.5 ordinary Portland cement, specific surface area is 340m2/kg, apparent density is 3.1g/cm3.
2.1.2 Raw materials for synthesis of PC: Iso-pentenyl polyethylene glycol (TPEG): Liaoyang Oxiranchem,Inc., the degree of polymerization is 23; Acrylic acid (AA): AR, Beijing Yili Fine Chemicals Co., Ltd.; Initiator: H2O2, AR, Beijing Orient Chemical Company; Chain transfer agent: AR; Reducing agent: AR; Deionized water.
2.2 Experiments
2.2.1 Separation: Membrane ultrafiltration was utilized.
Journal of Applied Polymer Science, in press
Construction and Building Materials, 25(3): 1466-1473
Journal Wuhan University of Technology(Materials Science Edition), 2005, 20(3):95-98
Journal of Applied Polymer Science, in press.
Journal of Applied Polymer Science, in press
Construction and Building Materials, 25(3): 1466-1473
Journal Wuhan University of Technology(Materials Science Edition), 2005, 20(3):95-98
Journal of Applied Polymer Science, in press.
Online since: October 2010
Authors: Min Jie Wang, Chun Zheng Duan, Yu Jun Cai, Hai Yang Yu, Bing Yan
In addition, it can remove the difficult-to-cut materials with
high hardness.
Some of the data are gained from other literatures and material manuals related.
At this moment, the shear forces and carrying capacity of the material reduce rapidly.
Sutter and A.Molinari: Journal of Manufacturing Science and Engineering Vol.127 (2005), p. 245 [2] G.Sutter and N.Ranc: International Journal of Machine Tools and Manufacture Vol.47 (2007), p.1507 [3] Z.N.Farhat: Materials Science and Engineering A361 (2003), p.100 [4] T.I.El-Wardany, H.A.
Kishawy and M.A.Elbestawi: Journal of Manufacturing Science and EngineeringVol. 122(2000), p.620 [5] C.Hortig and B.Svendsen: Journal of Materials Processing TechnologyVol. 186(2007), p.66 [6] G.Sutter: International Journal of Machine Tools & ManufactureVol.45(2005), p.719 [7] R.Komanduri, Schroeder and J.
Some of the data are gained from other literatures and material manuals related.
At this moment, the shear forces and carrying capacity of the material reduce rapidly.
Sutter and A.Molinari: Journal of Manufacturing Science and Engineering Vol.127 (2005), p. 245 [2] G.Sutter and N.Ranc: International Journal of Machine Tools and Manufacture Vol.47 (2007), p.1507 [3] Z.N.Farhat: Materials Science and Engineering A361 (2003), p.100 [4] T.I.El-Wardany, H.A.
Kishawy and M.A.Elbestawi: Journal of Manufacturing Science and EngineeringVol. 122(2000), p.620 [5] C.Hortig and B.Svendsen: Journal of Materials Processing TechnologyVol. 186(2007), p.66 [6] G.Sutter: International Journal of Machine Tools & ManufactureVol.45(2005), p.719 [7] R.Komanduri, Schroeder and J.
Online since: February 2012
Authors: Zhi Meng Guo, Qing Ye, Jun Jie Hao, Min Chao Ru
Acknowledgements
This work was supported by State Key Lab of Advanced Metals and Materials(2010Z-09) and Public Foundation of Beijing Key Lab of Advanced Powder Metallurgy and Particulate Materials(USTB).
Metallurgical and Materials Transactions A-Physical Metallurgical and Materials Science. 2011,42A(6): 1630-1645
Metallurgical and Materials Transactions A-Physical Metallurgical and Materials Science. 2008,39A(7): 1519-1524
Journal of Materials Engineering and Performance. 2011,20(3): 341-347
Journal of Materials Processing Technology. 2008,208(1-3): 457-462
Metallurgical and Materials Transactions A-Physical Metallurgical and Materials Science. 2011,42A(6): 1630-1645
Metallurgical and Materials Transactions A-Physical Metallurgical and Materials Science. 2008,39A(7): 1519-1524
Journal of Materials Engineering and Performance. 2011,20(3): 341-347
Journal of Materials Processing Technology. 2008,208(1-3): 457-462
Online since: October 2015
Authors: Alena Sicakova, Martina Draganovska, Karol Urban
Subsequently, products prepared using these optimized raw materials can show better or even new properties.
Lot of other materials is investigated worldwide, focusing also on the ability of powdered material act as pozzolana or inactive micro-filler.
These materials were expected as a micro-filler - substitution of natural aggregate (NA) in 0/4 fraction.
Bumanis, Bore-silicate glass waste of lamp as a micro-filler for concrete, in: Academic Journal Construction Science, vol. 10, 2009, p. 131
Wang, Effect of Ground Waste Concrete Powder on Cement Properties, in: Advances in Materials Science and Engineering, vol. 2013 (2013), Article ID 918294, 5 p
Lot of other materials is investigated worldwide, focusing also on the ability of powdered material act as pozzolana or inactive micro-filler.
These materials were expected as a micro-filler - substitution of natural aggregate (NA) in 0/4 fraction.
Bumanis, Bore-silicate glass waste of lamp as a micro-filler for concrete, in: Academic Journal Construction Science, vol. 10, 2009, p. 131
Wang, Effect of Ground Waste Concrete Powder on Cement Properties, in: Advances in Materials Science and Engineering, vol. 2013 (2013), Article ID 918294, 5 p
Online since: February 2019
Authors: Tetsuya Yoshida, Fusahito Yoshida, Michihiro Takiguchi, Komgrit Lawanwong, Takashi Katahira, Takeshi Uemori, Tetsuo Naka
Chu: Journal of Materials Processing Technology, 50(1995), 361-374
Yoshida: Key Engineering Materials, 535-536 (2013), 292-295
Uemori: International Journal of Mechanical Sciences 45 (2003), 1687-1702 [6] J.F.Wang, R.H.Wagoner, D.K.Matlock and F.Barlat: International Journal of Solids and Structures, 42-5-6(2005), 1287-1307
Kim: Journal of Materials Science, 42-15(2007), 6171–6176
Yoshida: International Journal of Mechanical Sciences (2018), to be published
Yoshida: Key Engineering Materials, 535-536 (2013), 292-295
Uemori: International Journal of Mechanical Sciences 45 (2003), 1687-1702 [6] J.F.Wang, R.H.Wagoner, D.K.Matlock and F.Barlat: International Journal of Solids and Structures, 42-5-6(2005), 1287-1307
Kim: Journal of Materials Science, 42-15(2007), 6171–6176
Yoshida: International Journal of Mechanical Sciences (2018), to be published
Online since: January 2013
Authors: Xin Jiang Wei, Yuan Zhu Zhang, Xiao Zhen Li
[6] Savage, B.M. and Janssen, D.J.: ACI Materials Journal, Vol. 94(1997), P.94
[7] C.Leech,D.Lockington,R. and HOOTON: ACI Materials Journal ,Vol. 105(2008),P.44–51
[9] ZP Bažant, LJ Najjar: Material and Structure.Vol.25(1972),P.3-10
[10] Xi Y., Bažant Z.P. and Molina, L.: Journal of Advanced Cement-Based Materials.
V. and Vitaliani, R.V.: ACI Materials Journal, Vol.90(1993), P.441-451
[7] C.Leech,D.Lockington,R. and HOOTON: ACI Materials Journal ,Vol. 105(2008),P.44–51
[9] ZP Bažant, LJ Najjar: Material and Structure.Vol.25(1972),P.3-10
[10] Xi Y., Bažant Z.P. and Molina, L.: Journal of Advanced Cement-Based Materials.
V. and Vitaliani, R.V.: ACI Materials Journal, Vol.90(1993), P.441-451
Online since: June 2014
Authors: Chun Hua Zhang, Song Zhang, Chen Liang Wu, Jie Liu, Jun Zhe Tan
Laser Cladding of Co-Based Alloy on 316 Stainless Steel
ZHANG Song1,a, WU Chenliang1,b, LIU Jie1, ZHANG Chunhua1, TAN Junzhe2
1School of Materials Science and Engineering, Shenyang University of Technology, Shenyang 110870, China; 2Shenyang Blower Works Group Corporation, Shenyang 110869, China
asongzhang_sy@163.com, bchenliangwu_sy@163.com
Keywords: laser cladding, microstructure, Co-based alloy.
Huang: Journal of Functional Materials Vol. 40 (2009), p. 1009 [4] S.
Man: Rare Metal Materials and Engineering Vol. 3 (2001), p. 220 [5] K.H.
Man: Rare Metal Materials and Engineering Vol. 5 (2005), p. 701 [9] B.Y.
Rappaz: Metallurgical and Materials Transactions B Vol. 10 (1992), p. 631
Huang: Journal of Functional Materials Vol. 40 (2009), p. 1009 [4] S.
Man: Rare Metal Materials and Engineering Vol. 3 (2001), p. 220 [5] K.H.
Man: Rare Metal Materials and Engineering Vol. 5 (2005), p. 701 [9] B.Y.
Rappaz: Metallurgical and Materials Transactions B Vol. 10 (1992), p. 631
Online since: August 2013
Authors: Li Na Zheng, Zhi Zhang, Jing Ni Xiao, Hong Wang
Environmental Risk Assessment of Petrochemical Project
Lina Zheng1,a, Zhi Zhang1,b, Jingni Xiao1,c, Hong Wang2,d
1 College of Marine Technology and Environmental, Key Laboratory of Nearshore Marine Environmental Research, Dalian Ocean University, Dalian 116023, China
2 School of Chemistry and Materials Science, Heilongjiang University, Harbin, 150080, China
aZln@dlou.edu.cn, bzz8851@126.com, c jnx@dlou.edu.cn, dhongw@126.com.
Main evaluation factors of dangerous materials were intended to be liquefied petroleum gas in the project, according to the fire risk, the toxicity, the use and storage conditions of materials.
The leakage of the materials ought to be avoided so as not to cause surface water environment and soil pollution.
Patel: Journal of Cleaner Production Vol. 19 (2011) p. 1659-1667 [5] Zoe Nivolianitou, Myrto Konstandinidou and Christou Michalis: Journal of Hazardous Materials Vol. 137 (2006) p. 1-7 [6] Henno P. van Dokkum and Sherri L.
Colomer Mendoza and Antonio Gallardo Izquierdo: Journal of Hazardous Materials Vol. 162 (2009) p. 1-9 [8] W.
Main evaluation factors of dangerous materials were intended to be liquefied petroleum gas in the project, according to the fire risk, the toxicity, the use and storage conditions of materials.
The leakage of the materials ought to be avoided so as not to cause surface water environment and soil pollution.
Patel: Journal of Cleaner Production Vol. 19 (2011) p. 1659-1667 [5] Zoe Nivolianitou, Myrto Konstandinidou and Christou Michalis: Journal of Hazardous Materials Vol. 137 (2006) p. 1-7 [6] Henno P. van Dokkum and Sherri L.
Colomer Mendoza and Antonio Gallardo Izquierdo: Journal of Hazardous Materials Vol. 162 (2009) p. 1-9 [8] W.
Online since: January 2012
Authors: Ping Han, Wan Jiang Wu, Chuang Liu, Jia Yao, Wei Lu
Performance stability of stalks composites is poor, the materials performance can not be guaranteed perfectly safe.
NDT is a method under the premise of without damaging the performance of the tested object, which applies a variety of physical principles and chemical phenomena, gets effective detection of the materials properties, the integrity, continuity, security reliability and certain physical performance of materials can be evaluated [1].
The reason was the material substances (stalk cell wall) in the mean unit volume increased with the density increase of soybean stalks particleboard, more substantial materials can enhance the resistance to the external damage.
Journal of Wood Science, Vol48, No.4, 2002, P283-288 [5] Hu Y C, T.
Journal of Wood Science, Vol51, No.1, 2005, P7-12
NDT is a method under the premise of without damaging the performance of the tested object, which applies a variety of physical principles and chemical phenomena, gets effective detection of the materials properties, the integrity, continuity, security reliability and certain physical performance of materials can be evaluated [1].
The reason was the material substances (stalk cell wall) in the mean unit volume increased with the density increase of soybean stalks particleboard, more substantial materials can enhance the resistance to the external damage.
Journal of Wood Science, Vol48, No.4, 2002, P283-288 [5] Hu Y C, T.
Journal of Wood Science, Vol51, No.1, 2005, P7-12
Online since: February 2025
Authors: Nejat Rahmanian, Hassan Soleimani, Surajudden Sikiru, Hojjatollah Soleimani, Leila Khodapanah, Amir Rostami, Mohammad Yeganeh Ghotbi, Maziyar Sabet
Methodology
Cobalt (II) salts, such as cobalt (II) chloride hexahydrate, cobalt acetate tetrahydrate, and cobalt (II) nitrate hexahydrate, are mainly used as starting materials.
To mimic the reservoir materials, a sand pack filled with glass beads was used, and an electromagnetic field was applied.
These properties determine how the materials respond to an electromagnetic field (Fig. 8).
Torsæter, "A coreflood investigation of nanofluid enhanced oil recovery," Journal of Petroleum Science and Engineering, vol. 111, pp. 128-138, 2013
Baig, "Development of surface treated nanosilica for wettability alteration and interfacial tension reduction," Journal of Dispersion Science and Technology, vol. 39, no. 10, pp. 1469-1475, 2018
To mimic the reservoir materials, a sand pack filled with glass beads was used, and an electromagnetic field was applied.
These properties determine how the materials respond to an electromagnetic field (Fig. 8).
Torsæter, "A coreflood investigation of nanofluid enhanced oil recovery," Journal of Petroleum Science and Engineering, vol. 111, pp. 128-138, 2013
Baig, "Development of surface treated nanosilica for wettability alteration and interfacial tension reduction," Journal of Dispersion Science and Technology, vol. 39, no. 10, pp. 1469-1475, 2018