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Online since: January 2012
Authors: Qiang Feng, Feng Hua Fang
(Natural Sciences),2005,27(1):6~10.
[6] Qiang Feng, Seepage Analysis for Dashiban Landslide Applied Multi-day Rainstorm Once in Fifty Years, Advanced Materials Research, Vols.374-377:2493-2496,2012
[7] Qiang Feng, Seepage Analysis for Dashiban Landslide Applied Multi-day Rainstorm Once in Hundred Years, Applied Mechanics and Materials, Vols.117-119:443-446,2012
[8] Qiang Feng, Shirong Xiao, Seepage Analysis for Qianjiangping Landslide Applied Three Gorges Reservoir Water Level and Heavy Rainfall, Applied Mechanics and Materials, Vols. 90-93:734-737,2011
[9] Qiang Feng, Shirong Xiao, Mechanical Mechanism Analysis for Qianjiangping Landslide Damage on Three Gorges Reservoir, Advanced Materials Research,Vol. 340:126-129,2012
[6] Qiang Feng, Seepage Analysis for Dashiban Landslide Applied Multi-day Rainstorm Once in Fifty Years, Advanced Materials Research, Vols.374-377:2493-2496,2012
[7] Qiang Feng, Seepage Analysis for Dashiban Landslide Applied Multi-day Rainstorm Once in Hundred Years, Applied Mechanics and Materials, Vols.117-119:443-446,2012
[8] Qiang Feng, Shirong Xiao, Seepage Analysis for Qianjiangping Landslide Applied Three Gorges Reservoir Water Level and Heavy Rainfall, Applied Mechanics and Materials, Vols. 90-93:734-737,2011
[9] Qiang Feng, Shirong Xiao, Mechanical Mechanism Analysis for Qianjiangping Landslide Damage on Three Gorges Reservoir, Advanced Materials Research,Vol. 340:126-129,2012
Online since: May 2011
Authors: Bing Quan He, Wen Ting Chen, Yang Zheng
The Improvement Method Design for β-SiC Recrystallization
Bingquan He1,a, Wenting Chen2,b,Yang Zheng3,c
1Faculty of Economics and Management, Kunming University of Science & Technology , Kunming, China,650093
2Faculty of Economics and Management, Kunming University of Science & Technology , Kunming, China,650093
3Faculty of Economics and Management, Kunming University of Science & Technology , Kunming, China,650093
acwt8626@qq.com,bcwt8626@qq.com, czhengyang-at-jl@163.com
Keywords: aqqlomeration temperature β–SiC qranularity rate
Abstract.Sintered SiC ceramics with difficulty, and its production process and production are more expensive, lower sintering temperature of SiC ceramics and look for new low-cost production process is the focus of materials research workers.
Re-crystallization of SiC components of the raw materials requirements of high purity, can not add sintering aids, sintering temperature up to about 2450°C).
Improved design According to the existing process defect, it puts forward the improved design ideas: A.Opted to join β-SiC as help burn agent, because in 2000°C it will change to the α-SiC, do not affect production powder materials, making the purity of raw material keeping or raise.
C.a mixture raw materials of α-SiC and β-SiC, β-SiC converted to α-SiC at 1600 °C, in the sintering process, Transformation from the β-SiC to the α-SiC purity of the raw material purity α-SiC, that is 98%, greatly improving the purity of the powder obtained, reducing the impurities to improve the mechanical properties of powder.
Theory for the Deagglomeration of Pigments Clusters in Dispersion Machinery by Mechanical Force, Journal of Coating Technology, 1987,59(754):45-58
Re-crystallization of SiC components of the raw materials requirements of high purity, can not add sintering aids, sintering temperature up to about 2450°C).
Improved design According to the existing process defect, it puts forward the improved design ideas: A.Opted to join β-SiC as help burn agent, because in 2000°C it will change to the α-SiC, do not affect production powder materials, making the purity of raw material keeping or raise.
C.a mixture raw materials of α-SiC and β-SiC, β-SiC converted to α-SiC at 1600 °C, in the sintering process, Transformation from the β-SiC to the α-SiC purity of the raw material purity α-SiC, that is 98%, greatly improving the purity of the powder obtained, reducing the impurities to improve the mechanical properties of powder.
Theory for the Deagglomeration of Pigments Clusters in Dispersion Machinery by Mechanical Force, Journal of Coating Technology, 1987,59(754):45-58
Online since: September 2013
Authors: Ying Wang
Materials Protection, Vol. 43 (2010), p. 44 (in Chinese)
[3] Y.
Advanced Materials Research, Vol. 287-290 (2011), p. 738 [5] Z.L.
Journal of Chinese Society for Corrosion and Protection, Vol. 27 (2007), p. 119 (in Chinese)) [6] Y.X.
Henan Science, Vol. 23 (2005), p. 877 (in Chinese) [9] S.H.
Journal of Zhengzhou University (Engineering Science), Vol. 26 (2005), p. 85 (in Chinese) [10]C.
Advanced Materials Research, Vol. 287-290 (2011), p. 738 [5] Z.L.
Journal of Chinese Society for Corrosion and Protection, Vol. 27 (2007), p. 119 (in Chinese)) [6] Y.X.
Henan Science, Vol. 23 (2005), p. 877 (in Chinese) [9] S.H.
Journal of Zhengzhou University (Engineering Science), Vol. 26 (2005), p. 85 (in Chinese) [10]C.
Online since: September 2014
Authors: Suriati Sufian, Muti Mohamed Norani, Rahmam Syuhaidah
Jin, "Preparation of Aspect Ratio-Controlled Carbon Nanotubes," Advanced Materials Research, vol. 47, pp. 1101-1104, 2008
Contini, et al., "Purification of MWCNTs grown on a nanosized unsupported Fe-based powder catalyst," Diamond and Related Materials, vol. 16, pp. 1565-1570, 8// 2007
Chen, "Microwave digestion and acidic treatment procedures for the purification of multi-walled carbon nanotubes," Diamond and Related Materials, vol. 14, pp. 798-803, 3// 2005
Rui, "Phosphine functionalised multiwalled carbon nanotubes: A new adsorbent for the removal of nickel from aqueous solution," Journal of Environmental Sciences, vol. 24, pp. 1133-1141, 6// 2012
Hwang, "Capture of CO2 from flue gas via multiwalled carbon nanotubes," Science of The Total Environment, vol. 407, pp. 3017-3023, 4/1/ 2009.
Contini, et al., "Purification of MWCNTs grown on a nanosized unsupported Fe-based powder catalyst," Diamond and Related Materials, vol. 16, pp. 1565-1570, 8// 2007
Chen, "Microwave digestion and acidic treatment procedures for the purification of multi-walled carbon nanotubes," Diamond and Related Materials, vol. 14, pp. 798-803, 3// 2005
Rui, "Phosphine functionalised multiwalled carbon nanotubes: A new adsorbent for the removal of nickel from aqueous solution," Journal of Environmental Sciences, vol. 24, pp. 1133-1141, 6// 2012
Hwang, "Capture of CO2 from flue gas via multiwalled carbon nanotubes," Science of The Total Environment, vol. 407, pp. 3017-3023, 4/1/ 2009.
Online since: May 2011
Authors: Ji Sheng Qiu
The analysis firstly has focused on solving the constitutive relation of the materials and the effect of steel fiber to determine the finite element simulation.
Because the steel fiber concrete multi-ribbed composite slab system is the dual composite of materials and structure type, many factors have influence on its performance.
ACI Journal, 1985,82(4):475-483
Journal of material in civil engineering, 1999:21-29 [7] Hsu.
ACI Structure Journal, 1994,91(4):448-457 [8] Jisheng Qiu.
Because the steel fiber concrete multi-ribbed composite slab system is the dual composite of materials and structure type, many factors have influence on its performance.
ACI Journal, 1985,82(4):475-483
Journal of material in civil engineering, 1999:21-29 [7] Hsu.
ACI Structure Journal, 1994,91(4):448-457 [8] Jisheng Qiu.
Online since: November 2011
Authors: Long Long Feng, Zhuo Jun Chen, Ming Wang
Test Materials.
Brazing of 422 stainless steel using the AWS classification BNi-2 braze alloy [J].Journal of Materials Science, 2006, 41(19):6353-6361
Journal of Oil University, 2000, (5): 80-83.
Wide gap brazing of stainless steel to nickel-based superalloy[J].Journal of Materials Processing Technology,2001,113(1):215-221.
Journal of Petroleum University, 1999, 23(2):66-68.
Brazing of 422 stainless steel using the AWS classification BNi-2 braze alloy [J].Journal of Materials Science, 2006, 41(19):6353-6361
Journal of Oil University, 2000, (5): 80-83.
Wide gap brazing of stainless steel to nickel-based superalloy[J].Journal of Materials Processing Technology,2001,113(1):215-221.
Journal of Petroleum University, 1999, 23(2):66-68.
Online since: June 2015
Authors: Dennis D. Keiser, Yong Ho Sohn, M. Fu, C.C. Kammerer, Le Zhou
Kim, “Low-temperature irradiation behavior of uranium-molybdenum alloy dispersion fuel,” Journal of Nuclear Materials, 304 (2002) 221
%Mo monolithic fuel plate in AA6061 matrix with Zr diffusion barrier,” Journal of Nuclear Materials, 402 (2010) 8
Petry, “Irradiation behavior of ground U(Mo) fuel with and without Si added to the matrix,” Journal of Nuclear Materials, 412 (2011) 41
Hodaj, “Further insight into mechanisms of solid-state interactions in UMo/Al system,” Journal of Nuclear Materials, 377 (2008) 476
Gribaudo, “Interdiffusion between U(Mo,Pt) or U(Mo,Zr) and Al or Al A356 alloy,” Journal of Nuclear Materials, 395 (2009) 162
%Mo monolithic fuel plate in AA6061 matrix with Zr diffusion barrier,” Journal of Nuclear Materials, 402 (2010) 8
Petry, “Irradiation behavior of ground U(Mo) fuel with and without Si added to the matrix,” Journal of Nuclear Materials, 412 (2011) 41
Hodaj, “Further insight into mechanisms of solid-state interactions in UMo/Al system,” Journal of Nuclear Materials, 377 (2008) 476
Gribaudo, “Interdiffusion between U(Mo,Pt) or U(Mo,Zr) and Al or Al A356 alloy,” Journal of Nuclear Materials, 395 (2009) 162
Online since: January 2014
Authors: Da Ran Fang, Li Wei Quan, Rui Wu, Yuan Yuan Liu, Chuan Cai Wang
Effect of pre-treatment on the precipitation hardening of a novel Al–Mg–Si alloy
QUAN Liwei1, a; WU Rui1,b; FANG Daran1,c;LIU Yuanyuan1,d;
WANG Chuancai2,e
1 School of Materials and Metallurgy, Northeast University, Shenyang 110819, China
2 Qinhuangdao Shouqin Metal Material Co., Ltd.
Materials Science and Engineering A, Vol.280 (2000), 37-49
Journal of Materials and Metallurgy, Vol.9 (2010), 137-142
Materials Science and Engineering of Powder Metallurgy, Vol.16 (2011),p 20-25
International Journal of Machine Tools and Manufacture, Vol.46 (2006), 1966-1971.
Materials Science and Engineering A, Vol.280 (2000), 37-49
Journal of Materials and Metallurgy, Vol.9 (2010), 137-142
Materials Science and Engineering of Powder Metallurgy, Vol.16 (2011),p 20-25
International Journal of Machine Tools and Manufacture, Vol.46 (2006), 1966-1971.
Online since: August 2013
Authors: Hong Ling Zhang, Jia Xi Tang, Li Na Sun, Tie Heng Sun
Soil bioengineering is an integrated technology that uses live plant materials to provide erosion control, slope and stream bank stabilization, landscape restoration, and wildlife habitat[4].
Materials and Methods The Liaohe river is located between N40°31′ to 45°17′ and E116°54′ to 125°32′, on the southwestern part of northeast area of China.
Soil bioengineering is the use of live and dead plant materials, in combination with natural and synthetic support materials to protect riverbank slope stabilization, control soil erosion, and establish vegetation communities.
Materials for this kind of technique are wooden stakes, steel rods, iron wire (5 mm diameter), non-woven fabrics, and live cutting of 10-20 cm length.
Zhou: Chinese Journal of Applied Ecology Vol. 11 (2000), p. 297-30 (In Chinese) [7] W.
Materials and Methods The Liaohe river is located between N40°31′ to 45°17′ and E116°54′ to 125°32′, on the southwestern part of northeast area of China.
Soil bioengineering is the use of live and dead plant materials, in combination with natural and synthetic support materials to protect riverbank slope stabilization, control soil erosion, and establish vegetation communities.
Materials for this kind of technique are wooden stakes, steel rods, iron wire (5 mm diameter), non-woven fabrics, and live cutting of 10-20 cm length.
Zhou: Chinese Journal of Applied Ecology Vol. 11 (2000), p. 297-30 (In Chinese) [7] W.
Online since: July 2022
Authors: Shi He Xin, M'hamed Boutaous, Lan Zhang
At the third
stages, the porosity falls below 10%, materials continue transporting for filling the pores.
International Journal of Thermal Sciences, 2017, 120: 50-62
Optical analysis of polymer powder materials for selective laser sintering[J].
Journal of Materials Processing Technology, 2015, 225: 326-336
Critical reviews in solid state and materials sciences, 2010, 35(4): 263-305.
International Journal of Thermal Sciences, 2017, 120: 50-62
Optical analysis of polymer powder materials for selective laser sintering[J].
Journal of Materials Processing Technology, 2015, 225: 326-336
Critical reviews in solid state and materials sciences, 2010, 35(4): 263-305.