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Online since: April 2025
Authors: Teo Pao Ter, Wan Nik Wan Mohd Norsani, Yusoff Mahani, Razali Mohd Hasmizam, Ismail Mohammad Amir Husni
Journal of Industrial and Engineering Chemistry 2020, 88:29-57
International Journal of Polymer Science 2018, 2018:8190190
Asian Journal of Materials Science 2009,1:7
International Journal of Minerals, Metallurgy, and Materials 2017, 24:462-72
Journal of Applied Physics 2013, 114
International Journal of Polymer Science 2018, 2018:8190190
Asian Journal of Materials Science 2009,1:7
International Journal of Minerals, Metallurgy, and Materials 2017, 24:462-72
Journal of Applied Physics 2013, 114
Online since: October 2010
Authors: Guray Kaya, Bekir Karasu, Erkul Karacaoğlu, Selvin Yesilay Kaya
Influences of Eu2+ and Dy3+ Contents on the Properties of
Long Afterglow Strontium Aluminate Phosphors
Selvin Yesilay Kaya1, Bekir Karasu2, Guray Kaya3, Erkul Karacaoglu2
1Anadolu University, Faculty of Fine Arts, Department of Glass, Eskisehir, Turkiye
2Anadolu University, Faculty of Engineering and Architecture, Department of Materials Science and Engineering, Eskisehir, Turkiye
3Dumlupinar University, Faculty of Engineering, Department of Ceramic Engineering, Kutahya, Turkiye
Email: 1syesilay@anadolu.edu.tr, 2bkarasu@anadolu.edu.tr, 3gurayk@anadolu.edu.tr
Keywords: Phosphors, Long afterglow, Strontium aluminate, Photoluminescence, Solid-state reaction.
L., Feng, Ceramics International, 30, 2004, 285–290
[3] X., Luo, W., Caoa, Z., Xiao, Journal of Alloys and Compounds, 416, 2006, 250–255
[4] C., Chang, Z., Yuan, D., Mao, Journal of Alloys and Compounds, 415, 2006, 220–224
[6] N., Suriyamurthy and B., Panigrahi, Indian Journal of Engineering & Material Science, Vol. 16, 2003, 178-180
L., Feng, Ceramics International, 30, 2004, 285–290
[3] X., Luo, W., Caoa, Z., Xiao, Journal of Alloys and Compounds, 416, 2006, 250–255
[4] C., Chang, Z., Yuan, D., Mao, Journal of Alloys and Compounds, 415, 2006, 220–224
[6] N., Suriyamurthy and B., Panigrahi, Indian Journal of Engineering & Material Science, Vol. 16, 2003, 178-180
Online since: July 2016
Authors: Abla Krouma, Zubair Imam Syed
A Review on the Use of Engineered Cementitious Composite in Bridges
Abla Krouma1, a, Zubair Imam Syed1, b
1Department of Civil Engineering, Abu Dhabi University, Abu Dhabi, UAE
aabla.krouma@yahoo.com, bzubair.syed@adu.ac.ae
Keywords: Engineered Cementitious Composite; ECC; Bridges; Durability; Crack Width; Link Slab.
Li, "Flexural/Tensile‐Strength Ratio in Engineered Cementitious Composites," Journal of Materials in Civil Engineering, vol. 6, no. 4, pp. 513-528, November 1994
Li, "Effect of fiber volume fraction on the off-crack-plane fracture energy in strain-hardening engineered cementitious composites," Journal of the American Ceramic Society, vol. 78, no. 12, p. 3369–3375, 1995
Materials in Civil Engineering, vol. 10, no. 2, pp. 66-69, 1998
Venkatesh, "A Literature Review on Engineered Cementitious Composites for Structural Applications," International Journal of Engineering Research & Technology (IJERT), vol. 3, no. 12, December 2014
Li, "Flexural/Tensile‐Strength Ratio in Engineered Cementitious Composites," Journal of Materials in Civil Engineering, vol. 6, no. 4, pp. 513-528, November 1994
Li, "Effect of fiber volume fraction on the off-crack-plane fracture energy in strain-hardening engineered cementitious composites," Journal of the American Ceramic Society, vol. 78, no. 12, p. 3369–3375, 1995
Materials in Civil Engineering, vol. 10, no. 2, pp. 66-69, 1998
Venkatesh, "A Literature Review on Engineered Cementitious Composites for Structural Applications," International Journal of Engineering Research & Technology (IJERT), vol. 3, no. 12, December 2014
Online since: May 2014
Authors: I.W. Donaldson
The amount of ceramic added to the Al-1.5Mg-1.5Sn composition was limited to what could be used in a press and sinter process approach.
Figure 6 shows the influence of ceramic additions.
Bishop, Recent Advances in the Development of “Press-and-Sinter” Aluminum PM Alloys for the Production of Light Weight Automotive Components, International Conference on Powder Metallurgy and Particulate Materials, MPIF, 2010, Vol. 7, pp.92-110
Bishop, Effects of magnesium, tin and nitrogen on the sintering response of aluminum powder, Journal of Materials Processing Technology, 2010, pp. 2252-2260 [9] W.D.
Callister, Material Science and Engineering, Fourth Edition, 1997, Wiley Publishing
Figure 6 shows the influence of ceramic additions.
Bishop, Recent Advances in the Development of “Press-and-Sinter” Aluminum PM Alloys for the Production of Light Weight Automotive Components, International Conference on Powder Metallurgy and Particulate Materials, MPIF, 2010, Vol. 7, pp.92-110
Bishop, Effects of magnesium, tin and nitrogen on the sintering response of aluminum powder, Journal of Materials Processing Technology, 2010, pp. 2252-2260 [9] W.D.
Callister, Material Science and Engineering, Fourth Edition, 1997, Wiley Publishing
Online since: January 2010
Authors: Qi Wu Zhang, Fumio Saito, Kanatip Kumproa, Apinon Nuntiya
Journal of Alloys and Compounds. 458 (2008), 474-478
Journal of Alloys and Compounds (2008), in Press
Ceramics International. 35 (2009), 515-519
Journal of the European Ceramic Society. 22 (2002), 1823-1829
Materials Science and Engineering.
Journal of Alloys and Compounds (2008), in Press
Ceramics International. 35 (2009), 515-519
Journal of the European Ceramic Society. 22 (2002), 1823-1829
Materials Science and Engineering.
Online since: June 2008
Authors: Sun Qi, Yao Dai, Wei Tan, Chang Qing Sun
These results provide the basis for fracture analysis and engineering
applications of this FGM.
Composites Engineering. 5 (1995), 5753 [3] P.
International Journal of Solids and Structures 34 (1997), 1 [4] M.Ozturk and F.Erdogan.
International Journal of Fracture, 98 (1999), 243 [5] Z.
International Journal of Fracture, 34(1987), 3 [7] Y.
Composites Engineering. 5 (1995), 5753 [3] P.
International Journal of Solids and Structures 34 (1997), 1 [4] M.Ozturk and F.Erdogan.
International Journal of Fracture, 98 (1999), 243 [5] Z.
International Journal of Fracture, 34(1987), 3 [7] Y.
Online since: January 2015
Authors: Robert Ulewicz
Optimization of the Selection Process of Galvanic Coatings
ULEWICZ Robert
1Czestochowa University of Technology, Institute of Production Engineering
42-201 Czestochowa.
Siarkowski, Determination of the objective function when selecting the agricultural machinery, Agricultural Engineering – Inżyniera Rolnicza 14 (2005) 135-146 [in Polish]
Chalupova, Effect of inclusions on very high cycle behaviour in a ferritic corrosion resisting steel, 11th International Conference on the Mechanical Behavior of Materials (ICM11) Procedia Engineering 10 (2011) 1408-1413
Nový, Very high cycle regime fatigue of SGRJ235G2 steel, Material Engineering – Materiálové inžinierstvo, 12 (2005) 28-30
Journal of the Balkan Tribological Association 20/1 (2014) 124-130
Siarkowski, Determination of the objective function when selecting the agricultural machinery, Agricultural Engineering – Inżyniera Rolnicza 14 (2005) 135-146 [in Polish]
Chalupova, Effect of inclusions on very high cycle behaviour in a ferritic corrosion resisting steel, 11th International Conference on the Mechanical Behavior of Materials (ICM11) Procedia Engineering 10 (2011) 1408-1413
Nový, Very high cycle regime fatigue of SGRJ235G2 steel, Material Engineering – Materiálové inžinierstvo, 12 (2005) 28-30
Journal of the Balkan Tribological Association 20/1 (2014) 124-130
Online since: July 2008
Authors: Pierre Cezard, T. Sourmail
Conf. on Semi-Solid Processing of Alloys and
Composites, 1994, p.117
[13] P.Kapranos, D.H.Kirkwood, C.M.Sellars, Journal of engineering manufacture, 1993, vol. 207, no1, pp. 1-8
[14] P.Kapranos, D.H.Kirkwood, C.M.Sellars, Proc. of the 4th Int.
Conf. on Semi-Solid Processing of Alloys and Composites, 1996 [15] P.Kapranos, D.H.Kirkwood, C.M.Sellars, Journal de physique IV, supplément au Journal de Physique III, Volume 3, nov.1993, p.835 [16] D.H.Kirkwood, Proc. of the 4th Int.
A, 395, Issues 1-2, pp.53-61 [19] F.Knauf, G.Hirt, P.Himmich, K.Bobzin, Proc. of 10th ESAFORM Conf. on Material forming, Volume 907, pp. 1173-1178 [21] W.Püttgen, W.Bleck, G.Hirt, H.Shimahara, Advanced Engineering Materials 2007, 9, n°4, pp231, 245 [22] W.Püttgen, B.hallstedt, W.Bleck, J.F.Löffler, P.J.Uggowitzer, Acta mat. 55 (2007) 6553-6560 [23] W.Püttgen, B.hallstedt, W.Bleck, P.J.Uggowitzer, Acta mat. 55 (2007) 1033-1042 [24] D.I.Uhlenhaut, J.Kradolfer, W.Püttgen, J.F.Löffler, P.J.Uggowitzer, Acta mat. 54 (2006), n°10, pp. 2727- 2734 [25] W.Püttgen, W.Bleck, I.Seidl, R.Kopp, C.Bertrand, Advanced Engineering Materials 2005, 7, n°8, pp.726 - 735 [26] E.Lugscheider, T.Hornig, R.Kopp, J.Kallweit, T.Möller, Advanced Eng.
By D.E.Alman, J.A.Hawk, J.W.Simmons ASM International.International Metallographic Society.
[81] M.Glowacki, M.Hojny, III European Conference on Computational Mechanics : solids, structures and coupled problems in engineering : June 5-8, 2006 Lisbon, Portugal [82] R.Baadjou, H.Shimahara, G.Hirt, Solid State Phenomena Vols. 116-117 (2006) pp. 383-386 [83] R.Kopp, J.Kallweit, T.Möller, I.Seidl, J. of Mat.
Conf. on Semi-Solid Processing of Alloys and Composites, 1996 [15] P.Kapranos, D.H.Kirkwood, C.M.Sellars, Journal de physique IV, supplément au Journal de Physique III, Volume 3, nov.1993, p.835 [16] D.H.Kirkwood, Proc. of the 4th Int.
A, 395, Issues 1-2, pp.53-61 [19] F.Knauf, G.Hirt, P.Himmich, K.Bobzin, Proc. of 10th ESAFORM Conf. on Material forming, Volume 907, pp. 1173-1178 [21] W.Püttgen, W.Bleck, G.Hirt, H.Shimahara, Advanced Engineering Materials 2007, 9, n°4, pp231, 245 [22] W.Püttgen, B.hallstedt, W.Bleck, J.F.Löffler, P.J.Uggowitzer, Acta mat. 55 (2007) 6553-6560 [23] W.Püttgen, B.hallstedt, W.Bleck, P.J.Uggowitzer, Acta mat. 55 (2007) 1033-1042 [24] D.I.Uhlenhaut, J.Kradolfer, W.Püttgen, J.F.Löffler, P.J.Uggowitzer, Acta mat. 54 (2006), n°10, pp. 2727- 2734 [25] W.Püttgen, W.Bleck, I.Seidl, R.Kopp, C.Bertrand, Advanced Engineering Materials 2005, 7, n°8, pp.726 - 735 [26] E.Lugscheider, T.Hornig, R.Kopp, J.Kallweit, T.Möller, Advanced Eng.
By D.E.Alman, J.A.Hawk, J.W.Simmons ASM International.International Metallographic Society.
[81] M.Glowacki, M.Hojny, III European Conference on Computational Mechanics : solids, structures and coupled problems in engineering : June 5-8, 2006 Lisbon, Portugal [82] R.Baadjou, H.Shimahara, G.Hirt, Solid State Phenomena Vols. 116-117 (2006) pp. 383-386 [83] R.Kopp, J.Kallweit, T.Möller, I.Seidl, J. of Mat.
Online since: November 2012
Authors: Pradeep Kumar, Amit Bansal, Shantanu Das, Apurbba Kumar Sharma
Material selection
The mild steel (MS) is the most extensively used metallic material in most of the engineering and structural application.
Taube, Productivity improvement through the use of industrial microwave technologies, Computers & Industrial Engineering 42 (2002) 281-290
Miles, Microwave heating applications in environmental engineering – a review.
Groombridge, High energy rate materials joining using industrial microwaves, in: 6th International Conference on Manufacturing Engineering, Melbourne, Australia, November, (1995) 635 -640
Suttan, Microwave processing of ceramic materials, The American Ceramic Society Bulletin 168 (1989) 376-386
Taube, Productivity improvement through the use of industrial microwave technologies, Computers & Industrial Engineering 42 (2002) 281-290
Miles, Microwave heating applications in environmental engineering – a review.
Groombridge, High energy rate materials joining using industrial microwaves, in: 6th International Conference on Manufacturing Engineering, Melbourne, Australia, November, (1995) 635 -640
Suttan, Microwave processing of ceramic materials, The American Ceramic Society Bulletin 168 (1989) 376-386
Online since: November 2021
Authors: Dong Bin Tang, Jun Feng Ma, Tian Qing Cui, Qun Si Wang, Qi Zhou
Chemical Engineering Journal. 2020;391
Journal of Environmental Chemical Engineering. 2018;6:3531-55
Journal of Environmental Chemical Engineering. 2019;7
Ceramics International. 2009; 35: 1289-92
Ceramics International. 2015;41:4340-7
Journal of Environmental Chemical Engineering. 2018;6:3531-55
Journal of Environmental Chemical Engineering. 2019;7
Ceramics International. 2009; 35: 1289-92
Ceramics International. 2015;41:4340-7