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Online since: February 2011
Authors: Nian Fen Wu, Song Jiang Ma, Fang Wen Li, Hai Wu Jia, Juan Yang, Jing Xiao, Mei Ling Fu
But its treatment effect mainly centers on performance of filter materials especially its lipophilicity.
Materials and methods Materials.
[3] Songjun Li and Laitao Luo: JiangXi Science Vol. 19(2001), p. 61–66,in Chinese
[5] Angel Cambiella, Enrique Ortea, Guillermo Rios, et al: Journal of HazardousMaterials Vol. 131(2006), p. 195–199
[8] Mingqin Jiang, Qingping Wang, Xiaoying Jin and Zuliang Chen: Journal of Hazardous Materials Vol. 170(2009),p. 332–339
Materials and methods Materials.
[3] Songjun Li and Laitao Luo: JiangXi Science Vol. 19(2001), p. 61–66,in Chinese
[5] Angel Cambiella, Enrique Ortea, Guillermo Rios, et al: Journal of HazardousMaterials Vol. 131(2006), p. 195–199
[8] Mingqin Jiang, Qingping Wang, Xiaoying Jin and Zuliang Chen: Journal of Hazardous Materials Vol. 170(2009),p. 332–339
Influences of MCrAlY Coatings and TBCs on Oxidation Behavior of a Ni-Based Single Crystal Superalloy
Online since: April 2015
Authors: Li Xin, Hua Wei, Fu Hui Wang, Sheng Long Zhu, Long Shi
Influences of MCrAlY Coatings and TBCs on Oxidation Behavior of a Ni-based Single Crystal Superalloy
Long Shi1, a*, Li Xin2, b, Hua Wei2, c, Shenglong Zhu2, d and Fuhui Wang2, e
1School of Materials and Metallurgy, Northeastern University, Shenyang 110819, China
2State Key Laboratory for Corrosion and Protection, Institute of Metal Research, Chinese Academy of Sciences, Shenyang 110016, China
ashilong198408@163.com, bxli@imr.ac.cn, chwei@imr.ac.cn, dslzhu@imr.ac.cn, efhwang@imr.ac.cn
Keywords: Ni-based single-crystal superalloy, DD98M, MCrAlY, Thermal barrier coating, Oxidation.
They have played an key role on the protection of high temperature structural materials [3-5].
Pomeroy, Coatings for gas turbine materials and long term stability issues, Mater.
Matthews, Ionization assisted physical vapor deposition of zirconia thermal barrier coatings, Journal of Vacuum Science Technology A. 4 (1986) 2656-2666
Hutchinson, Me-chanisms controlling the durability of thermal barrier coatings, Progress in Materials Science, 46 (2001) 505-553
They have played an key role on the protection of high temperature structural materials [3-5].
Pomeroy, Coatings for gas turbine materials and long term stability issues, Mater.
Matthews, Ionization assisted physical vapor deposition of zirconia thermal barrier coatings, Journal of Vacuum Science Technology A. 4 (1986) 2656-2666
Hutchinson, Me-chanisms controlling the durability of thermal barrier coatings, Progress in Materials Science, 46 (2001) 505-553
Online since: February 2014
Authors: Gao Feng Li, Sheng Hao Xiao, Qing Hai Luo
At present, the commonly used cool storage material includes water, ice, soil, eutectic salts, gas hydrates and the organic phase change materials.
2) Cool storage space
The seasonal natural ice storage technology store up natural cold in winter and use it in summer.
Journal of Agricultural Mechanization Research.
Cold Regions Science and Technology.
Journal of Refrigeration, Vol. 6(1984), p.50-57(in Chinese) [13] L.F.
Journal of PLA University of Science and Technology (Natural Science Edition).
Journal of Agricultural Mechanization Research.
Cold Regions Science and Technology.
Journal of Refrigeration, Vol. 6(1984), p.50-57(in Chinese) [13] L.F.
Journal of PLA University of Science and Technology (Natural Science Edition).
Online since: August 2014
Authors: Mircea Horia Tierean, Ionut Bogdan Roman, Julia Mirza Rosca, Liana Sanda Baltes
Regulary, the welding process increases the corrosion rate of the materials, but using the LSP treatment with adequate pulse density, it is possible to decrease the corrosion rate of the weld.
Sungho, Enhancement of abrasion and corrosion resistance of duplex stainless steel by laser shock peening, Journal of Materials Processing Technology 212-6 (2012) 1347– 1354
Influence on pitting corrosion resistance, Materials Science and Engineering, A280, (2000) 294–302
Ocaña, Effects of laser shock processing on 316L stainless steel welds, Journal of Optoelectronics and Advanced Materials, Vol. 15, No. 1- 2, (2013) 121–124
Munteanu, Microstructural characterization and friction coefficient after the laser shock processing treatment on AISI 316 L stainless steel welds, Journal of Optoelectronics and Advanced Materials, Vol. 15, No. 7- 8, (2013) 645 – 649
Sungho, Enhancement of abrasion and corrosion resistance of duplex stainless steel by laser shock peening, Journal of Materials Processing Technology 212-6 (2012) 1347– 1354
Influence on pitting corrosion resistance, Materials Science and Engineering, A280, (2000) 294–302
Ocaña, Effects of laser shock processing on 316L stainless steel welds, Journal of Optoelectronics and Advanced Materials, Vol. 15, No. 1- 2, (2013) 121–124
Munteanu, Microstructural characterization and friction coefficient after the laser shock processing treatment on AISI 316 L stainless steel welds, Journal of Optoelectronics and Advanced Materials, Vol. 15, No. 7- 8, (2013) 645 – 649
Online since: January 2014
Authors: Feng Miao, Qing Xiang Lin, Yi Huang
Introduction
Transparent semiconductors are very promising materials for many optoelectronic applications since they allow visible light to pass through but absorb ultraviolet radiations.
Almost all the transparent oxide materials are n-type semiconductors. p-type semiconductors with high figure of merit and transparencies would enable improved variety of new applications including transparent electronic devices.
It has a wide band gap energy of about 3.5 eV(direct) and 1.8 eV(indirect)[3] Fang L,Huang Q L and Peng L P:J.Chinese Journal of Vacuum Science and Technology, 2009,2(29):144-149(in Chinese). .
Phys. 46 (2013) 235301 (7pp) , coprecipitation[9] Ching-Hong Hsieh, Kaimin Shih,in: Journal of Hazardous Materials 244–245 (2013) 501-506 ,Pechini method[10] Richard H.
Jarman, Julie Bafia, in: Materials Research Bulletin (2013) and the afluxself-removal method.
Almost all the transparent oxide materials are n-type semiconductors. p-type semiconductors with high figure of merit and transparencies would enable improved variety of new applications including transparent electronic devices.
It has a wide band gap energy of about 3.5 eV(direct) and 1.8 eV(indirect)[3] Fang L,Huang Q L and Peng L P:J.Chinese Journal of Vacuum Science and Technology, 2009,2(29):144-149(in Chinese). .
Phys. 46 (2013) 235301 (7pp) , coprecipitation[9] Ching-Hong Hsieh, Kaimin Shih,in: Journal of Hazardous Materials 244–245 (2013) 501-506 ,Pechini method[10] Richard H.
Jarman, Julie Bafia, in: Materials Research Bulletin (2013) and the afluxself-removal method.
Online since: July 2022
Authors: You Cai Xiao, Xiang Dong Xiao, Zhi Xiong Hong, Chen Yang Fan, Yi Sun, Zhi Jun Wang
Experimental Design
Materials.
In the testing of soft materials, because of the low strength of soft materials, the transmission stress is small; the semiconductor strain gauge becomes the most effective method to test weak signals.
Bennett, An implicit finite element material model for energetic particulate composite materials, Int.
Lewis, A rate-dependent damage model for brittle materials based on the dominant crack, Int.
Song, One-Dimensional Dynamic Compressive Behavior of EPDM Rubber, Journal of Engineering Materials & Technology, 125 (2003) 294-301
In the testing of soft materials, because of the low strength of soft materials, the transmission stress is small; the semiconductor strain gauge becomes the most effective method to test weak signals.
Bennett, An implicit finite element material model for energetic particulate composite materials, Int.
Lewis, A rate-dependent damage model for brittle materials based on the dominant crack, Int.
Song, One-Dimensional Dynamic Compressive Behavior of EPDM Rubber, Journal of Engineering Materials & Technology, 125 (2003) 294-301
Online since: August 2012
Authors: G.F.M.V. Souza, R. Béttega, R.F. Miranda, O.S.H. Mendoza, M.A.S. Barrozo
Materials and methods
A schematic representation of the experimental apparatus is shown in Fig. 1.
Freire: Chemical Engineering Science Vol. 61 (2006), p. 2056
Smith: AIChE Journal Vol.7 (1961), p. 29
Costa: International Journal of Food Science Technology Vol. 36 (2001), p. 393
Freire: Seed Science and Technology Vol.28 (2000), p.169.
Freire: Chemical Engineering Science Vol. 61 (2006), p. 2056
Smith: AIChE Journal Vol.7 (1961), p. 29
Costa: International Journal of Food Science Technology Vol. 36 (2001), p. 393
Freire: Seed Science and Technology Vol.28 (2000), p.169.
Online since: December 2014
Authors: Dedi Priadi, Johny Wahyuadi Soedarsono, Andi Rustandi, Ayende Ayende, Sulistijono Sulistijono, Dewa Ngurah Suprapta, Gadang Priyotomo, Ridla Bakri
Spinelli: Materials Chemistry and Physics, Vol 83 (2004), pp.129-134
[5]
K.
Tomic: International Journal of Electrochemical Science, Vol. 8 (2013), pp.1511-1519. [10] R.S.
Mello: Corrosion Science.
Zhancao: Journal of Hazardous Materials, Vol. 258-259 (2013), pp. 61-69. [12] A.D.
Hayvali: Materials Chemistry and Physics.
Tomic: International Journal of Electrochemical Science, Vol. 8 (2013), pp.1511-1519. [10] R.S.
Mello: Corrosion Science.
Zhancao: Journal of Hazardous Materials, Vol. 258-259 (2013), pp. 61-69. [12] A.D.
Hayvali: Materials Chemistry and Physics.
Online since: August 2006
Authors: A. Vautrin, M. Gigliotti, J. Molimard, Frederic Jacquemin
"Calculations of the Room-Temperature Shapes of Unsymmetric Laminates"
Journal of Composite Materials, Vol.15 (1981), p.296
[2] Gigliotti M., Wisnom M.R., Potter K.D.
"Process Modelling of Composite Materials: Residual Stress Development during Cure.
Part II: Experimental Validation" Journal of Composite Materials, Vol.26 (1992), p.2423 [5] Sarrazin H., Kim B., Ahn S.H., Springer G.S.
"Effects of Processing Temperature and Lay-up on Springback" Journal of Composite Materials, Vol.10 (1995), p.1278 [6] Tarsha-Kurdi K.E., Olivier P.
C. et Ahn, K., Development of the transient simulated laminate (TSL) methodology for moisture ingression studies using unsymmetric laminates, Journal of Composite Materials, Vol. 34 (2000), p.1998 [8] Carslaw H.S., Jaeger J.C.
"Process Modelling of Composite Materials: Residual Stress Development during Cure.
Part II: Experimental Validation" Journal of Composite Materials, Vol.26 (1992), p.2423 [5] Sarrazin H., Kim B., Ahn S.H., Springer G.S.
"Effects of Processing Temperature and Lay-up on Springback" Journal of Composite Materials, Vol.10 (1995), p.1278 [6] Tarsha-Kurdi K.E., Olivier P.
C. et Ahn, K., Development of the transient simulated laminate (TSL) methodology for moisture ingression studies using unsymmetric laminates, Journal of Composite Materials, Vol. 34 (2000), p.1998 [8] Carslaw H.S., Jaeger J.C.
Online since: March 2015
Authors: Cheng Jun Qiu, Yan Wei Dou, Bo Zang, Jing Xuan Wang, Xiao Dong Zhang
On the contrary, low tensile stress of the thin film materials could effectively avoid any bending [5].
Among them, material 1 (the upper entity) was defined as polysilicon, its thermal conductivity was 25 W/(m•K), the Seebeck coefficient was 95 μV/K; material 2 (lower entity) was defined as the aluminum material, its thermal conductivity was 240 W/(m•K), the Seebeck coefficient was -165 μV/K [6].
There’s no need to have the third metal material as conductor in the middle.
DEED200803), Heilongjiang Provincial Education Department (Grant NO. 11531268), HLJU Youth Science Foundation (Grant NO.
(In Chinese) [5] Yidong Liu, Tie Li, Xu Wang, Yuelin Wang, CMOS Compatible MEMS P/N Polycrystalline Silicon Thermopile IR Detecor, Journal of Functional Materials and Device. 13 (2007) 226-227.
Among them, material 1 (the upper entity) was defined as polysilicon, its thermal conductivity was 25 W/(m•K), the Seebeck coefficient was 95 μV/K; material 2 (lower entity) was defined as the aluminum material, its thermal conductivity was 240 W/(m•K), the Seebeck coefficient was -165 μV/K [6].
There’s no need to have the third metal material as conductor in the middle.
DEED200803), Heilongjiang Provincial Education Department (Grant NO. 11531268), HLJU Youth Science Foundation (Grant NO.
(In Chinese) [5] Yidong Liu, Tie Li, Xu Wang, Yuelin Wang, CMOS Compatible MEMS P/N Polycrystalline Silicon Thermopile IR Detecor, Journal of Functional Materials and Device. 13 (2007) 226-227.