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Online since: January 2013
Authors: Bin Liu, Qing Zong Si, Bao Pin Zhang, Zhen Guo Wang, Ming Xi Li, Xiao Li An
The practioner should select biomimetic materials with similar Young's modulus of enamel in treatment, ensuring the strength, stiffness and stability of the filling materials.
It indicates that choosing materials for filling deep caries need to be considered the bond strength and protect dental pulp as well.
Journal of Modern Stomatology, 2008,22(3):289-291 [2] Peng Bin, dental restoration [M].Wuhan: Science and Technology Press.2003:17-20
Science and Technology Press, 2012, 47(6):340-344
Journal of the mechanical behavior of biomedical materials.2011, 4: 515-522 [12] Zhao W, Wang YZ, Hong HL, Chen Z, Fan MW, Yu SF.
It indicates that choosing materials for filling deep caries need to be considered the bond strength and protect dental pulp as well.
Journal of Modern Stomatology, 2008,22(3):289-291 [2] Peng Bin, dental restoration [M].Wuhan: Science and Technology Press.2003:17-20
Science and Technology Press, 2012, 47(6):340-344
Journal of the mechanical behavior of biomedical materials.2011, 4: 515-522 [12] Zhao W, Wang YZ, Hong HL, Chen Z, Fan MW, Yu SF.
Online since: March 2011
Authors: Renato Natal Jorge, A.A. Fernandes, H. Mata, M.P.L. Parente, Robertt Valente
However, due to manufacturing difficulties and reproducibility, the industrial only recently began using cellular materials as "engineering materials".
These materials have been the subject of much research work.
Miller / International Journal of Mechanical Sciences 42 (2000) 729}754 [2] A.G.
Hanssen et al. / International Journal of Mechanical Sciences 44 (2002) 359–406 [3] MF Ashby et al., Metal foams: a design guide, Oxford, Butterworth-Heinemann, 2000
[7] Banhart, J., Manufacture, Progress in materials Science, 2001. 46: p. 559-632
These materials have been the subject of much research work.
Miller / International Journal of Mechanical Sciences 42 (2000) 729}754 [2] A.G.
Hanssen et al. / International Journal of Mechanical Sciences 44 (2002) 359–406 [3] MF Ashby et al., Metal foams: a design guide, Oxford, Butterworth-Heinemann, 2000
[7] Banhart, J., Manufacture, Progress in materials Science, 2001. 46: p. 559-632
Online since: July 2012
Authors: Yang Jiang, Zhi Gang Lu, Jie Guo, Wei Guo Ren
Porous materials’ explosion suppression.
Polymer foam materials and technology.
Materials science and engineering journals, 2003.21 (2) : 298 ~ 301 [4] L.Y.
Aluminum- magnesium alloy blasting materials and suppression performance study. o Shenyang Project College Journal (natural science edition), 2006, 2 (2) : 176 ~ 178 [6] T.
Journal of Applied Polymer Science, 1997,65 (1) : 179 ~ 186 [7] Jarre1 U S 4237237, 1980; [8] J.
Polymer foam materials and technology.
Materials science and engineering journals, 2003.21 (2) : 298 ~ 301 [4] L.Y.
Aluminum- magnesium alloy blasting materials and suppression performance study. o Shenyang Project College Journal (natural science edition), 2006, 2 (2) : 176 ~ 178 [6] T.
Journal of Applied Polymer Science, 1997,65 (1) : 179 ~ 186 [7] Jarre1 U S 4237237, 1980; [8] J.
Online since: October 2009
Authors: Raphael Mitteau, Jean Joel Raharijaona, Jean Michel Missiaen, Aurelie Thomazic
Bi-layer
materials are processed by powder metallurgy route.
Figure 6: Plots of the a) shrinkage and b) shrinkage rate curves for 10C, 20F and 10C/20F materials. 10C material has a low sinterability in contrast with 20F material.
Dilatometric plots of 10F and 20C monomaterials and of 20C/10F bi-layer materials are given on the Figure 9.
Figure 9: Plots of the a) shrinkage and b) shrinkage rate curves for 20C, 10F and 20C/10F materials.
Moon, Journal of Alloys and Compounds 335 (2002) 233
Figure 6: Plots of the a) shrinkage and b) shrinkage rate curves for 10C, 20F and 10C/20F materials. 10C material has a low sinterability in contrast with 20F material.
Dilatometric plots of 10F and 20C monomaterials and of 20C/10F bi-layer materials are given on the Figure 9.
Figure 9: Plots of the a) shrinkage and b) shrinkage rate curves for 20C, 10F and 20C/10F materials.
Moon, Journal of Alloys and Compounds 335 (2002) 233
Online since: July 2011
Authors: Shu Tao Huang, Xiao Lin Yu, Li Zhou
Lau: Journal of Materials Processing Technology Vol. 102 (2000), pp: 25-29
Zhou: Journal of Materials Processing Technology Vol. 100 (2000), pp: 194-199
Joshi: Journal of Materials Processing Technology Vol. 209 (2009), pp: 4704-4710
Bhattacharayya: Journal of Materials Processing Technology Vol. 140 (2003), pp: 711-716
[8] Tamer Ozben, Erol Kilickap and Orhan Çakır: Journal of Materials Processing Technology Vol. 198 (2008), pp: 220-225
Zhou: Journal of Materials Processing Technology Vol. 100 (2000), pp: 194-199
Joshi: Journal of Materials Processing Technology Vol. 209 (2009), pp: 4704-4710
Bhattacharayya: Journal of Materials Processing Technology Vol. 140 (2003), pp: 711-716
[8] Tamer Ozben, Erol Kilickap and Orhan Çakır: Journal of Materials Processing Technology Vol. 198 (2008), pp: 220-225
Online since: May 2020
Authors: Lei Liu, Run Huang, Lan Zhang
Cobalt Element Doping for Biomedical Use: A Review
Lei Liu1, Run Huang1,a*, Lan Zhang2
1School of Materials Science and Engineering, Anhui University
of Science and Technology, Huainan 232001, China
2State Key Laboratory for Mechanical Behavior of Materials,
Xi'an Jiaotong University, Xi'an, 710049, China
ahuang.run@stu.xjtu.edu.cn
Keywords: Cobalt ion; Implant; Osseintegration; Biological effect
Abstract.
Materials Science & Engineering C, 2019, 99: 770-782
Journal of Cell Science, 2006, 119:2667-2678
Journal of Materials Chemistry, 2012, 22:21686
Materials Letters, 2018, 215:87-90
Materials Science & Engineering C, 2019, 99: 770-782
Journal of Cell Science, 2006, 119:2667-2678
Journal of Materials Chemistry, 2012, 22:21686
Materials Letters, 2018, 215:87-90
Online since: July 2025
Authors: Yasmin Akter, Aidana Bauyrzhan, Ayman Hawari, Ming Liu
The PULSTAR nuclear reactor at North Carolina State University is a 1-MW open-pool reactor and a center for irradiation and examination of materials.
Such materials are widely used as structural and sensor materials related to nuclear reactors where microstructural damage is critical in determining their performance and failure modes.
This demonstrates the sensitivity of PALS in quantifying vacancy levels in materials, which would be otherwise challenging to measure.
Gidley, The Intense Slow Positron Beam Facility at the PULSTAR Reactor and Applications on Nano-materials Study, AIP Conf.
Vallery, “Positron Annihilation as A Method to Characterize Porous Materials”, Annual Review of Materials Research, 36 (2006) 49–79 [9] M.
Such materials are widely used as structural and sensor materials related to nuclear reactors where microstructural damage is critical in determining their performance and failure modes.
This demonstrates the sensitivity of PALS in quantifying vacancy levels in materials, which would be otherwise challenging to measure.
Gidley, The Intense Slow Positron Beam Facility at the PULSTAR Reactor and Applications on Nano-materials Study, AIP Conf.
Vallery, “Positron Annihilation as A Method to Characterize Porous Materials”, Annual Review of Materials Research, 36 (2006) 49–79 [9] M.
Online since: June 2011
Authors: Jin Shan Li, Zhong Bo Zhou, Zhi Shou Zhu, Bin Tang, Hui Chang, Yue Fei, Guo Qiang Shang, Lian Zhou
Prasad: Materials Science and Engineering A Vol. 336 (2002), p. 150–158
[6] T.
Planell: Materials Science and Engineering A Vol. 283 (2000), p. 17–24 [13] S.L.
Semiatin: Materials Science and Engineering A Vol. 332 (2002) p. 343-350 [17] W.
Xia: Materials Science and Engineering A Vol. 332 (2002), p. 430-434 [18] N.
Enayati: Materials Science and Engineering A Vol. 525(2009), p. 107-111 [19] B.
Planell: Materials Science and Engineering A Vol. 283 (2000), p. 17–24 [13] S.L.
Semiatin: Materials Science and Engineering A Vol. 332 (2002) p. 343-350 [17] W.
Xia: Materials Science and Engineering A Vol. 332 (2002), p. 430-434 [18] N.
Enayati: Materials Science and Engineering A Vol. 525(2009), p. 107-111 [19] B.
Online since: April 2015
Authors: Afza Shafie, Beh Hoe Guan, Prengki Pransisco
The nanostructure materials Ni0.5Zn0.35Cu0.15Fe2O4 was synthesized by sol-gel method.
Bera, Journal of Material Processing Technology 197, 279–283 (2008)
Bera, Journal of Material Processing Technology 7, 279–283 (2007)
Jing, Material Science Engineering B 162, 22–25 (2009)
Jiang, Journal Magnetic and Magnetic Material 323, 1717–1721 (2011) [10] M.
Bera, Journal of Material Processing Technology 197, 279–283 (2008)
Bera, Journal of Material Processing Technology 7, 279–283 (2007)
Jing, Material Science Engineering B 162, 22–25 (2009)
Jiang, Journal Magnetic and Magnetic Material 323, 1717–1721 (2011) [10] M.
Online since: October 2014
Authors: Jian Zheng Qiao
Materials and Methods
Test Materials
Pinus massoniana, born 10 years, diameter class is 20cm, 6 trees, by collecting in Hunan Zhuzhou city leading forest region.
Journal of fujian forestry science and technology, 2004, 31 (1): 109
Proceedings of the sixth China functional materials and applications of academic (9) [C]. 2007. 3501-3503
Journal of fujian forestry science and technology, 1990, (1): 11-17
Journal of forestry science and technology development, 2004, 19 (2): 39-40
Journal of fujian forestry science and technology, 2004, 31 (1): 109
Proceedings of the sixth China functional materials and applications of academic (9) [C]. 2007. 3501-3503
Journal of fujian forestry science and technology, 1990, (1): 11-17
Journal of forestry science and technology development, 2004, 19 (2): 39-40