Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: July 2007
Authors: Janina Adamus
Journal of Materials Processing Technology 80-81 (1998), p. 121-125
[5] R.
Journal of Materials Processing Technology, 125-126 (2002), p. 206-212 [8] A.M.
Journal of Materials Processing Technology 103 (2000), p. 44-50 [9] N.
Journal of Materials Processing Technology 139 (2003), p. 64-70 [10] S.S.
Journal of Materials Processing Technology 162-163 (2005), p. 524-529 [11] R.
Journal of Materials Processing Technology, 125-126 (2002), p. 206-212 [8] A.M.
Journal of Materials Processing Technology 103 (2000), p. 44-50 [9] N.
Journal of Materials Processing Technology 139 (2003), p. 64-70 [10] S.S.
Journal of Materials Processing Technology 162-163 (2005), p. 524-529 [11] R.
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: May 2021
Authors: A.A. Yusupova, L.R. Baraeva, A.A. Bobrishev
Materials and Methods
For production of inorganic sulfides based on sulfuric cake raw materials, the following components were used: sulfur (S), which was the waste from the Nizhnekamsk oil refinery with 99.98% wt. of base material (GOST 127-93); zinc chloride ZnCl2, (GOST 4529-78); The composite materials were studied using the methods of physical chemical analysis.
Schematic diagram of the technology of sulfuric materials based on sulfuric cake.
The strength of such materials is 20-32 MPa, water absorption of about 1-2%.
Sciences.
Korolev, Building materials based on sulfur, Penza-Saransk, 2003
Schematic diagram of the technology of sulfuric materials based on sulfuric cake.
The strength of such materials is 20-32 MPa, water absorption of about 1-2%.
Sciences.
Korolev, Building materials based on sulfur, Penza-Saransk, 2003
Online since: June 2012
Authors: Yan Gao, Jia Lu Li
This method could also be applied to homogeneous materials.
Secondly, the testing program was designed with the reference of ASTM E756-2005 “Standard Test Method for measuring vibration-damping properties of materials”.
So it is very important to select a suitable fiber volume fraction of laminated composites, in order to make the composite materials to meet the actual application requirements for the natural frequency and damping property.
Guild: Composites Science and Technology, 66 (2006), p. 487 [3] S.
Nayfeh: Journal of Vibration and Control, 9(2003), p. 209
Secondly, the testing program was designed with the reference of ASTM E756-2005 “Standard Test Method for measuring vibration-damping properties of materials”.
So it is very important to select a suitable fiber volume fraction of laminated composites, in order to make the composite materials to meet the actual application requirements for the natural frequency and damping property.
Guild: Composites Science and Technology, 66 (2006), p. 487 [3] S.
Nayfeh: Journal of Vibration and Control, 9(2003), p. 209
Online since: November 2014
Authors: Eng San Thian, Bee Yen Tay, Bow Ho, Poon Nian Lim, Wilson Wang
Gristina, Biomaterial-centered infection: microbial adhesion versus tissue integration, Science 237 (1987) 1588-1595
Kim, A mechanistic study of the antibacterial effect of silver ions on Escherichia coli and Staphylococcus aureus, Journal of Biomedical materials Research 52 (2000) 662-668
Rao, Antibacterial nanosized substituted hydroxyapatite: synthesis and characterization, Journal of Biomedical Materials Research 80A (2007) 581-591
Hotokebuchi, Calcium phosphate coating containing silver shows high antibacterial activity and low cytotoxicity and inhibits bacterial adhesion, Materials Science and Engineering C 30 (2010) 175-180
Thian, The effects of silver, silicon-containing apatite towards bacteria and cell responses, Biomedical Materials 9 (2014) 015010-015018.
Kim, A mechanistic study of the antibacterial effect of silver ions on Escherichia coli and Staphylococcus aureus, Journal of Biomedical materials Research 52 (2000) 662-668
Rao, Antibacterial nanosized substituted hydroxyapatite: synthesis and characterization, Journal of Biomedical Materials Research 80A (2007) 581-591
Hotokebuchi, Calcium phosphate coating containing silver shows high antibacterial activity and low cytotoxicity and inhibits bacterial adhesion, Materials Science and Engineering C 30 (2010) 175-180
Thian, The effects of silver, silicon-containing apatite towards bacteria and cell responses, Biomedical Materials 9 (2014) 015010-015018.
Online since: February 2011
Authors: Shu Mei Kang, Ming Gang Shen, Cheng Wei Li, Hua Chen
Study on Characteristics of Ultrasonic Fields by Hydraulic Model of Ladle Refining
Shumei Kang1,a, Minggang Shen1,b, Chengwei Li1, and Hua Chen2
1 School of Materials and Metallurgy, University of Science and Technology LiaoNing, Anshan,
Liaoning, 114051, China
2 Angang Steel Company Limited, Bayuquan Iron &Steel Subsidiary, Yingkou 11500, China
a kangshumei_911@163.com, blnassmg@163.com
Keywords: Ultrasonic; Cavitation Bubble; Hydraulic Model; Ladle Refining; High Speed Camera; Mixing Time.
Tamon Journal of Porous Materials.
Korean Journal of Chemical Engineering.
Japanese journal of applied physics.
Materials Science and Engineering, Vol. 380 (2004), p.378 .
Tamon Journal of Porous Materials.
Korean Journal of Chemical Engineering.
Japanese journal of applied physics.
Materials Science and Engineering, Vol. 380 (2004), p.378 .
Online since: September 2011
Authors: Bing Qiang Yu, Li Po Yang
Yu2, b
1National Engineering Research Center for Equipment and Technology of Cold-rolled Plate & Strip
2State Key Laboratory of Metastable Materials Science and Technology, Yanshan University, Qinhuangdao 066004, Hebei, China
ayanglp@ysu.edu.cn, byf6688@163.com
Keywords: Cold rolling strip, Shape detecting, Shape control, Shape meter
Abstract.
Tieu: Journal of Materials Processing Technology Vol. 209(2009), p. 4584 [6] Z.Y.
Du, et al.: Advanced Materials Research Vol. 97(2010), p. 81 [7] Z.Y.
Tieu: Journal of Materials Processing Technology Vol. 209(2009), p. 4584 [8] Z.M.
LIU, et al.: Chinese Journal of Scientific Instrument Vol. 31(2010), p. 904
Tieu: Journal of Materials Processing Technology Vol. 209(2009), p. 4584 [6] Z.Y.
Du, et al.: Advanced Materials Research Vol. 97(2010), p. 81 [7] Z.Y.
Tieu: Journal of Materials Processing Technology Vol. 209(2009), p. 4584 [8] Z.M.
LIU, et al.: Chinese Journal of Scientific Instrument Vol. 31(2010), p. 904
Online since: January 2013
Authors: Min Shen, Yang Liu
Prediction of the cohesive strength
The interface is an extremely important structure in composite; it bridges the reinforcement and the matrix and has a critical influence on mechanical properties of materials.
Acknowledgements This work was financially supported by the National Natural Science Foundation of China (No.10972155).
Journal of Reinforced Plastics and Composites. 2010
Journal of Guangzhou University (Nature Science Edition). 2008; 7(4):32-34.
Journal of Southwest Jiaotong University. 2000; 35(2):188-191.
Acknowledgements This work was financially supported by the National Natural Science Foundation of China (No.10972155).
Journal of Reinforced Plastics and Composites. 2010
Journal of Guangzhou University (Nature Science Edition). 2008; 7(4):32-34.
Journal of Southwest Jiaotong University. 2000; 35(2):188-191.
Online since: November 2011
Authors: Song Jing Li, Jacob M. Mchenya, Sheng Zhuo Zhang
An ultraviolet light was introduced to illuminate the flow field in the area under investigation, so that the camera can easily shot the image of flow field through the transparent materials of the front cover in the flapper nozzle assembly.
Haijun and Lu.Xianghui: Chinese Journal of Mechanical Engineering.vol.22(1), (2009), pp.102-108 [3] S.Steven and S.
Zong: Chinese Journal of mechanical Engineering,vol.23(1),(2010) pp. 27-37 [6] X,Junlong, W,Xuejun, Wu,Guanghui and Wu,Keqi: Journal of thermal science, vol.13(4), (2009), pp.321-327 [7] B.
Driscoll: Experiments in fluids vol.48 (3), 2010 pp. 487-495 [8] P.Mavros and C.Xuereb: Chemical Engineering Science vol.57 (18), (2002) pp.3939-3952
Vol.62 (11), (2011), pp. 847-850 [15] C.Cierpka, R.Segura, T.Hain: Measurement Science &Technology with errors due to depth of correlation and spatial averaging for micro fluidics, Measurements Science &Technology, vol.21, (4), (2010) Article Number 045401, [16] O.Adreev, A.Kobzev, Yu.Kolesnikov, and A.Thess: 12th euromech European Turbulence conference, Marburg, Germany, (2009) [17] A.Voigt, C.Bayer, K.Shirai: Applied optics vol.47 (27) (2008), pp. 5028-5040 [18] M.Geveci, P.Oshkai, D.Rockwell, J.C.Lin, and M.Pollack: Journal of fluid and structure, vol.18 (6), (2003), pp.665-695
Haijun and Lu.Xianghui: Chinese Journal of Mechanical Engineering.vol.22(1), (2009), pp.102-108 [3] S.Steven and S.
Zong: Chinese Journal of mechanical Engineering,vol.23(1),(2010) pp. 27-37 [6] X,Junlong, W,Xuejun, Wu,Guanghui and Wu,Keqi: Journal of thermal science, vol.13(4), (2009), pp.321-327 [7] B.
Driscoll: Experiments in fluids vol.48 (3), 2010 pp. 487-495 [8] P.Mavros and C.Xuereb: Chemical Engineering Science vol.57 (18), (2002) pp.3939-3952
Vol.62 (11), (2011), pp. 847-850 [15] C.Cierpka, R.Segura, T.Hain: Measurement Science &Technology with errors due to depth of correlation and spatial averaging for micro fluidics, Measurements Science &Technology, vol.21, (4), (2010) Article Number 045401, [16] O.Adreev, A.Kobzev, Yu.Kolesnikov, and A.Thess: 12th euromech European Turbulence conference, Marburg, Germany, (2009) [17] A.Voigt, C.Bayer, K.Shirai: Applied optics vol.47 (27) (2008), pp. 5028-5040 [18] M.Geveci, P.Oshkai, D.Rockwell, J.C.Lin, and M.Pollack: Journal of fluid and structure, vol.18 (6), (2003), pp.665-695