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Online since: October 2014
Authors: Qiong Song, Chun Hui Su, Xiao Wei Zhu, Hong Bo Zhang
Preparation and luminescence properties of Eu3+ doped niobium silicate glass ceramics
Qiong Song 1,2,a, Chun-hui Su *3.b, Hong-bo Zhang *1,c, Xiao-wei Zhu 2,d
1School of Material Science and Engineering,Changchun University of Science and Technology, Jilin Changchun 130022
2School of Food Engineering, Jilin Teacher′s Institute of Engineering and Technology,
Jilin Changchun 130052
3Changchun Normal University, Jilin Changchun 130032
asq0902@126.com, bsch@cust.edu.cn, czhb538840@126.com, dzxw9401@126.com
Keywords: luminescence ;glass ceramics; rare earths; niobium silicate
Abstract: niobium silicate glass with the mass composition of 35SiO2-25Nb2O5-20Na2O-10K2O-
7B2O3-3Eu2O3 was synthesized by a traditional glass melting method.
Since then, glass ceramic have been greatly developed in material research and development and theory research.
It is used as integrated circuit in the sealing of metal materials, which make use of its electrical properties and mechanical properties, and optical properties of no requirements, so the fluorescence properties of niobium acid salt glass ceramic did not in-depth study[7-8].
[6] Pornpis Kongputhon, Anuson Niyompan, Rungnapa TIpakontitikul:Journal of Crystal Growth.
Solid State Sciences.
Since then, glass ceramic have been greatly developed in material research and development and theory research.
It is used as integrated circuit in the sealing of metal materials, which make use of its electrical properties and mechanical properties, and optical properties of no requirements, so the fluorescence properties of niobium acid salt glass ceramic did not in-depth study[7-8].
[6] Pornpis Kongputhon, Anuson Niyompan, Rungnapa TIpakontitikul:Journal of Crystal Growth.
Solid State Sciences.
Online since: November 2012
Authors: Ferri M.H.Aliabadi, Z. Sharif-Khodaei, M. Ghajari
Introduction
Composite materials are being increasingly used in modern aircrafts due to their superior properties.
Aliabadi, "Damage Identification Using Lamb Waves," Key Engineering Materials, vol. 452, pp. 29-32, 2011
Aliabadi, "Lamb-Wave Based Technique for Impact Damage Detection in Composite Stiffened Panels," Key Engineering Materials, vol. 488, pp. 5-8, 2012
Tomlinson, "Fail-safe sensor distributions for impact detection in composite materials," Smart Materials and Structures, vol. 9, p. 298, 2000
Aliabadi, "Impact Detection Using Artificial Neural Networks," Key Engineering Materials, vol. 488, pp. 767-770, 2012
Aliabadi, "Damage Identification Using Lamb Waves," Key Engineering Materials, vol. 452, pp. 29-32, 2011
Aliabadi, "Lamb-Wave Based Technique for Impact Damage Detection in Composite Stiffened Panels," Key Engineering Materials, vol. 488, pp. 5-8, 2012
Tomlinson, "Fail-safe sensor distributions for impact detection in composite materials," Smart Materials and Structures, vol. 9, p. 298, 2000
Aliabadi, "Impact Detection Using Artificial Neural Networks," Key Engineering Materials, vol. 488, pp. 767-770, 2012
Online since: July 2016
Authors: Eva Smazalová, Šárka Houdková
Such a combination can be found at the CrC and Ni/Co based materials with high content of Cr, resisting to oxidation.
Results The hardness and brittleness are the two properties, believed to be the most important for wear resistance of materials [4].
To measure the materials properties in the range of the splat, nanoindentation measurements should be rather used and will be performed in our next work.
Haušild, High temperature resistance of selected HVOF coatings, Key Engineering Materials Vol. 662 (2015) pp 111-114 [3] B.
Lawn, M.V.Swain, Microfracture beneath point indentations in brittle solids, Journal of Materials Science 10 (1975) pp 113-122 [4] B.
Results The hardness and brittleness are the two properties, believed to be the most important for wear resistance of materials [4].
To measure the materials properties in the range of the splat, nanoindentation measurements should be rather used and will be performed in our next work.
Haušild, High temperature resistance of selected HVOF coatings, Key Engineering Materials Vol. 662 (2015) pp 111-114 [3] B.
Lawn, M.V.Swain, Microfracture beneath point indentations in brittle solids, Journal of Materials Science 10 (1975) pp 113-122 [4] B.
Online since: October 2010
Authors: Jian Sheng Liu, Hui Guang Guo, Hui Qin Chen, Wen Wu He
Hot Deformation Behavior of 316LN Stainless Steel
Wenwu HEa, Jiansheng LIU
b, Huiqin CHEN
a, Huiguang GUOa
School of Materials Science and Engineering, Taiyuan University of Science and Technology,
Taiyuan 030024, Shanxi, China
a
hwwssl@126.com, b
jiansliu@126.com
Keywords: 316LN stainless steel, Constitutive equation, Dynamic recrystallization, Iso-efficiency
map
Abstract.
In some materials such as aluminum, the dynamic recovery (DRV) can balance work hardening and a plateau is achieved.
However, in many materials such as austenite phase in steels, the major restoration process during hot deformation is dynamic recrystallization due to low stacking fault energy of austenite steel [1-3].
Moreover, the hot processing map technology based on dynamic materials model is a method to evaluate the thermal deformation mechanisms of a wide range of metal materials such as alloys of magnesium, aluminum, titanium and Ni-base superalloy as well as steels [4].
Ren: Journal of University of Science and Technology Beijing, Vol. 31 (2009) No. 12, pp. 1555-1559 (in Chinese).
In some materials such as aluminum, the dynamic recovery (DRV) can balance work hardening and a plateau is achieved.
However, in many materials such as austenite phase in steels, the major restoration process during hot deformation is dynamic recrystallization due to low stacking fault energy of austenite steel [1-3].
Moreover, the hot processing map technology based on dynamic materials model is a method to evaluate the thermal deformation mechanisms of a wide range of metal materials such as alloys of magnesium, aluminum, titanium and Ni-base superalloy as well as steels [4].
Ren: Journal of University of Science and Technology Beijing, Vol. 31 (2009) No. 12, pp. 1555-1559 (in Chinese).
Online since: September 2013
Authors: Xi Hong Li, Ling Min Shen, Dan Zhou Liu, Ding Ai Cao, Min Wang
Material and Method
Materials and Sample Preparation.
Wang: Journal of food engineering, Vol. 86 (2008).No.1, p.25-29
Mattheis: Journal of the American Society for Horticultural Science, Vol. 124 (1999).No.6, p.690-695
Luo: LWT-Food Science and Technology, Vol. 40 (2007).No.2, p. 285-291
Wang: LWT-Food Science and Technology, Vol.42(2009).No.2, p.654-659.
Wang: Journal of food engineering, Vol. 86 (2008).No.1, p.25-29
Mattheis: Journal of the American Society for Horticultural Science, Vol. 124 (1999).No.6, p.690-695
Luo: LWT-Food Science and Technology, Vol. 40 (2007).No.2, p. 285-291
Wang: LWT-Food Science and Technology, Vol.42(2009).No.2, p.654-659.
Online since: March 2015
Authors: Wei Shen Zhu, Dun Fu Zhang, Song Yu, Hao Zhou
Introduction
Fig. 1 The installation of similar material model test
Rock mass is the complex geologic body with various macro geological structure surfaces such as joints, fault, and crack.
Similar material model test Fig. 2 Several stages of crack propagation Some shear physical testing specimen using similar material with several collinear fractures are introduced[5].
Z013008, Doctoral Fund of China Education Ministry 20130131110033, National Natural Science Fund of China 51279095.
References: [1] Chen WZ, Li SC, Zhu WS, Chinese Journal of Rock Mechanics and Engineering, Vol. 22-1, (2003),p.18-23 [2] Lin P, Huang KZ, Wang RK, Journal of Tsinghua University(Science and Technology), Vol.9,(2006)p.10-21 [3] Jiao YY, Zhang XL, Li TC, DDARF method for simulation crack failure processes.
(Science press, Beijing 2010) [4] Shi genhua, Discontinuous Deformation Analysis(Tinghua University press, Beijing 1997) [5] Zhu WS, He MC, Stability of surrounding rocks under complex conditions and the dynamic construction mechanics of rock mass, (Science press, Beijing 1995)
Similar material model test Fig. 2 Several stages of crack propagation Some shear physical testing specimen using similar material with several collinear fractures are introduced[5].
Z013008, Doctoral Fund of China Education Ministry 20130131110033, National Natural Science Fund of China 51279095.
References: [1] Chen WZ, Li SC, Zhu WS, Chinese Journal of Rock Mechanics and Engineering, Vol. 22-1, (2003),p.18-23 [2] Lin P, Huang KZ, Wang RK, Journal of Tsinghua University(Science and Technology), Vol.9,(2006)p.10-21 [3] Jiao YY, Zhang XL, Li TC, DDARF method for simulation crack failure processes.
(Science press, Beijing 2010) [4] Shi genhua, Discontinuous Deformation Analysis(Tinghua University press, Beijing 1997) [5] Zhu WS, He MC, Stability of surrounding rocks under complex conditions and the dynamic construction mechanics of rock mass, (Science press, Beijing 1995)
Online since: September 2014
Authors: Claudio Testani, Antonello Astarita, Antonino Squillace
R., 1996, An overview on the use of titanium in the aerospace industry, Materials Science and Engineering a-Structural Materials Properties Microstructure and Processing, 213/1-2:103-114
Silberschmidt - Analysis of a free machining α+β titanium alloy using conventional and ultrasonically assisted turning Journal of Materials Processing Technology Volume 214, Issue 4, April 2014, Pages 906–915
S., 2002, Characterization of deformation stability in hot forging of conventional Ti-6Al-4V using processing maps, Journal of Materials Processing Technology, 130:540-545
S., 2011, A Self-Consistent Approach for Modeling the Flow Behavior of the Alpha and Beta Phases in Ti-6Al-4V, Metallurgical and Materials Transactions a-Physical Metallurgy and Materials Science, 42A/7:1805-1814
Barboza, et Al., Materials Science and Engineering A 428 (2006) 319–326
Silberschmidt - Analysis of a free machining α+β titanium alloy using conventional and ultrasonically assisted turning Journal of Materials Processing Technology Volume 214, Issue 4, April 2014, Pages 906–915
S., 2002, Characterization of deformation stability in hot forging of conventional Ti-6Al-4V using processing maps, Journal of Materials Processing Technology, 130:540-545
S., 2011, A Self-Consistent Approach for Modeling the Flow Behavior of the Alpha and Beta Phases in Ti-6Al-4V, Metallurgical and Materials Transactions a-Physical Metallurgy and Materials Science, 42A/7:1805-1814
Barboza, et Al., Materials Science and Engineering A 428 (2006) 319–326
Online since: April 2011
Authors: Li Ying Li, Wang Yong, Han Tao, Chao Wen Li
Chuang: Materials Engineering and Performance, Vol. 6 (1997) No.1, p.61
[5] J.L.
Sei: Metallurgical and materials transactions A, Vol. 31 (2000) No.4., p.1107 [7] L.Y.
Li: submitted to International Journal of Minerals, Metallurgy and Materials (2010) [8] L.Y.
Han: submitted to Transactions of Materials and Heat Treatment (2010) [9] L.H Chen, Y.L.
Li: Journal of University of Science and Technology Beijing, Vol. 31 (2009) No.8, p.983 [10] K.
Sei: Metallurgical and materials transactions A, Vol. 31 (2000) No.4., p.1107 [7] L.Y.
Li: submitted to International Journal of Minerals, Metallurgy and Materials (2010) [8] L.Y.
Han: submitted to Transactions of Materials and Heat Treatment (2010) [9] L.H Chen, Y.L.
Li: Journal of University of Science and Technology Beijing, Vol. 31 (2009) No.8, p.983 [10] K.
Online since: June 2014
Authors: Qi Xing Zhou, Jun Jie Du
In this paper, the feasibility of improving the phytoremediation efficiency of contaminated soils by amending with nano-materials is also discussed.
In the past few years, the application of nano-scale materials in remediating polluted soils has gained even more attention.
TEM image of RGO-nZVI Pot Experiment Experimental Materials and Methods.
Five treatments (Fig. 5) were set up in this experiment which include a control designated as CK without adding nano materials and four treatments designated as T1, T2, T3 and T4 for each type of adding nano-scale amendments of nZVI, GO and RGO-nZVI.
Offeman, "Preparation of graphitic oxide," Journal of the American Chemical Society, vol. 80, pp. 1339-1339, 1958
In the past few years, the application of nano-scale materials in remediating polluted soils has gained even more attention.
TEM image of RGO-nZVI Pot Experiment Experimental Materials and Methods.
Five treatments (Fig. 5) were set up in this experiment which include a control designated as CK without adding nano materials and four treatments designated as T1, T2, T3 and T4 for each type of adding nano-scale amendments of nZVI, GO and RGO-nZVI.
Offeman, "Preparation of graphitic oxide," Journal of the American Chemical Society, vol. 80, pp. 1339-1339, 1958