Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: May 2011
Authors: Ying Wang, Hong Gao, Gang Li, Yan Sheng Li, Zhen Shu Nan
References
[1] Bin Zhao, Huilan Chen.Synthesis novel multi-petals ZnO nano-structure by a cyclodextrin assisted solution route.Materials Letters, 61 (2007) ,4890–4893
[2] Yanghai Gui, Changsheng Xie,Qinyi Zhang, Mulin Hu, Jun Yu, Zhe Weng.Synthesis and characterization of ZnO nanostructures by two-step oxidation of Zn nano- and microparticles.Journal of Crystal Growth ,289 (2006), 663–669
[3] X.M.
Zhou.Seed-mediated synthesis of uniform ZnOnanorods in the presence of polyethylene glycol.Journal of Crystal Growth, 270 (2004), 527–534 [4] Xiao Li Zhang, Young Hwan Kim, Young Soo Kang.Low-temperature synthesis and shape control of ZnO nanorods.Current Applied Physics ,6 (2006) ,796–800 [5] Huiying Wei, Youshi Wu, Ning Lun, Chunxia Hu.Hydrothermal synthesis and characterization of ZnO nanorods.Materials Science and Engineering, A 393 (2005), 80–82 [6] Tarek Alammar, Anja-Verena Mudring.Facile ultrasound-assisted synthesis of ZnO nanorods in an ionic liquid.Materials Letters, 63 (2009) ,732–735 [7] Rizwan Wahab, S.G.
Ansari, Young-Soon Kim, Hyung-Kee Seo, Hyung-Shik Shin.Room temperature synthesis of needle-shaped ZnO nanorods via sonochemical method.Applied Surface Science ,253 (2007) ,7622–7626 [8] Fanfei BaiT, Ping He, Zhijie Jia, Xintang Huang, Yun He.Size-controlled preparation of monodispersed ZnO nanorods.Materials Letters ,59 (2005) ,1687– 1690 [9] BAI Fan-fei, HE Ping, JIA Zhi-jie, HUANG Xin-tang, HE Yun.One Step Synthesis of Monodispersed ZnO Nanorods by in-Situ Reaction.Journal of Materials Science&Engineerin,23(2005),580-583 [10] Kuo-Liang Ying, Tsung-Eong Hsieh,Yi-Feng Hsieh.Colloidal dispersion of nano-scale ZnO powders using amphibious and anionic polyelectrolytes.Ceramics International,35(2009) 1165–1171 [11] Y.
Tan.PREPARATION AND CHARACTERIZATION OF NANO-ZnO FLAKES PREPARED BY REACTIVE ION EXCHANGE METHOD.Journal of Thermal Analysis and Calorimetry, 95 (2009) 2, 671–674 [12] G Nagaraju,S.Ashoka,P.Chithaiah,C.N.Tharamani,G.T.Chandrappa .Surfactant free hydrother mally derived ZnO nanowires,nanorods, microrods and their characterization.Materials Science in Semiconductor Processing, 13 (2010), 21–28 [13] LI Xiao- he1, FENG Ping, HE Yue- hui.Probe into Dispersion of Nano Size Powder in Water.Nanoscience & Nanotechnology,2007,1,17-21 [14] Guolin Song, Sude Ma, Guoyi Tang, Xiaowei Wang.Ultrasonic-assisted synthesis of hydrophobic magnesium hydroxide Nanoparticles.Colloids and Surfaces A: Physicochem.
Materials Letters, 61 (2007), 4890–4893
Zhou.Seed-mediated synthesis of uniform ZnOnanorods in the presence of polyethylene glycol.Journal of Crystal Growth, 270 (2004), 527–534 [4] Xiao Li Zhang, Young Hwan Kim, Young Soo Kang.Low-temperature synthesis and shape control of ZnO nanorods.Current Applied Physics ,6 (2006) ,796–800 [5] Huiying Wei, Youshi Wu, Ning Lun, Chunxia Hu.Hydrothermal synthesis and characterization of ZnO nanorods.Materials Science and Engineering, A 393 (2005), 80–82 [6] Tarek Alammar, Anja-Verena Mudring.Facile ultrasound-assisted synthesis of ZnO nanorods in an ionic liquid.Materials Letters, 63 (2009) ,732–735 [7] Rizwan Wahab, S.G.
Ansari, Young-Soon Kim, Hyung-Kee Seo, Hyung-Shik Shin.Room temperature synthesis of needle-shaped ZnO nanorods via sonochemical method.Applied Surface Science ,253 (2007) ,7622–7626 [8] Fanfei BaiT, Ping He, Zhijie Jia, Xintang Huang, Yun He.Size-controlled preparation of monodispersed ZnO nanorods.Materials Letters ,59 (2005) ,1687– 1690 [9] BAI Fan-fei, HE Ping, JIA Zhi-jie, HUANG Xin-tang, HE Yun.One Step Synthesis of Monodispersed ZnO Nanorods by in-Situ Reaction.Journal of Materials Science&Engineerin,23(2005),580-583 [10] Kuo-Liang Ying, Tsung-Eong Hsieh,Yi-Feng Hsieh.Colloidal dispersion of nano-scale ZnO powders using amphibious and anionic polyelectrolytes.Ceramics International,35(2009) 1165–1171 [11] Y.
Tan.PREPARATION AND CHARACTERIZATION OF NANO-ZnO FLAKES PREPARED BY REACTIVE ION EXCHANGE METHOD.Journal of Thermal Analysis and Calorimetry, 95 (2009) 2, 671–674 [12] G Nagaraju,S.Ashoka,P.Chithaiah,C.N.Tharamani,G.T.Chandrappa .Surfactant free hydrother mally derived ZnO nanowires,nanorods, microrods and their characterization.Materials Science in Semiconductor Processing, 13 (2010), 21–28 [13] LI Xiao- he1, FENG Ping, HE Yue- hui.Probe into Dispersion of Nano Size Powder in Water.Nanoscience & Nanotechnology,2007,1,17-21 [14] Guolin Song, Sude Ma, Guoyi Tang, Xiaowei Wang.Ultrasonic-assisted synthesis of hydrophobic magnesium hydroxide Nanoparticles.Colloids and Surfaces A: Physicochem.
Materials Letters, 61 (2007), 4890–4893
Online since: May 2009
Authors: Qing Long An, Ming Chen, X.Y. Wang, H. Xu, Yun Shan Zhang
Material Model.
Liu: Science&Technology of Baotou (Group) Corporation, Vol. 32 (2006), pp.24-26
Sun et al.: Materials and Corrosion, Vol. 52 (2001), pp.590-597
[3] D.A.Lados,D.Apelian,J.K.Donald: International Journal of Fatigue,Vol. 29 (2007), pp.687-694
Chen: Advanced Materials Research,Vol.53-54 (2008), pp.415-420.
Liu: Science&Technology of Baotou (Group) Corporation, Vol. 32 (2006), pp.24-26
Sun et al.: Materials and Corrosion, Vol. 52 (2001), pp.590-597
[3] D.A.Lados,D.Apelian,J.K.Donald: International Journal of Fatigue,Vol. 29 (2007), pp.687-694
Chen: Advanced Materials Research,Vol.53-54 (2008), pp.415-420.
Online since: September 2013
Authors: Yan Wang, Hong Liang Chen, Ji Song Yang, Hui Ying Li, Xin Xin Li, Wei Shen Yang
Noack, Zeolite membranes – Recent developments and progress,Microporous Mesoporous and Materials, 2008, 115: 215
[8] M.
Kapteijn, b-Oriented MFI membranes prepared from porous silica coatings, Microporous Mesoporous and Materials, 2009, 120: 165 [10] X.
Peters, High-flux MFI membranes, Microporous Mesoporous and Materials, 2002, 52: 179 [12] Y.
Microporous Mesoporous and Materials, 2001, 43: 319
Study of water-containing binary systems with complete and partial miscibility, Journal of Membrane Science, 1990, 51: 169 [15] H.
Kapteijn, b-Oriented MFI membranes prepared from porous silica coatings, Microporous Mesoporous and Materials, 2009, 120: 165 [10] X.
Peters, High-flux MFI membranes, Microporous Mesoporous and Materials, 2002, 52: 179 [12] Y.
Microporous Mesoporous and Materials, 2001, 43: 319
Study of water-containing binary systems with complete and partial miscibility, Journal of Membrane Science, 1990, 51: 169 [15] H.
Online since: October 2018
Authors: S.N. Galyshev, Fanil F. Musin, Rida Gallyamova, A.G. Badamshin, V.A. Dokichev
Materials and Methods
As an initial material, a high-strength carbon fiber of the UMT49-12K-EP brand (produced by the Umatex Group) was selected.
Series: Materials Science and Engineering 7 (2010) 1-9
Zeng, Fabrication of Al2O3-coated carbon fiber-reinforced Al-matrix composites, Journal of Applied Polymer Science 70 (1998) 177-183
Yang, Preparation and thermal properties of SiC/CF nanocomposites, 18th International Conference On Composite Materials (2011)
Kosmac, Microstructure and mechanical properties of carbon/carbon-silicon carbide composites prepared by sol-gel processing, Materials and technology 46 (2012) 435-438
Series: Materials Science and Engineering 7 (2010) 1-9
Zeng, Fabrication of Al2O3-coated carbon fiber-reinforced Al-matrix composites, Journal of Applied Polymer Science 70 (1998) 177-183
Yang, Preparation and thermal properties of SiC/CF nanocomposites, 18th International Conference On Composite Materials (2011)
Kosmac, Microstructure and mechanical properties of carbon/carbon-silicon carbide composites prepared by sol-gel processing, Materials and technology 46 (2012) 435-438
Online since: July 2014
Authors: Xue Feng Wu, Teng Fei Gao, Bo Wen Zhao, He Rong Cao
Introduction
Laser assisted machining is an effective method to improve the machinability of difficult-to-machine materials, where a high power laser is employed to focally heat a workpiece before removing material.
International Journal of Heat and Mass Transfer, 2000, 43(8): 1409-1424
International Journal of Heat and mass transfer, 2000, 43(8): 1425-1437
Journal of manufacturing science and engineering, 2006, 128(2): 425-434
Journal of manufacturing science and engineering, 2008, 130(3)
International Journal of Heat and Mass Transfer, 2000, 43(8): 1409-1424
International Journal of Heat and mass transfer, 2000, 43(8): 1425-1437
Journal of manufacturing science and engineering, 2006, 128(2): 425-434
Journal of manufacturing science and engineering, 2008, 130(3)
Online since: June 2025
Authors: Kushal Sharma, Vimal Kumar Joshi, Deepika Garg, Sunil Sunil
Journal of Magnetism and Magnetic Materials, 537 (2021), 168222
International Journal of Thermal Sciences 184 (2023) 108014
Journal of Magnetism and Magnetic Materials 567 (2023) 170329
Materials Today: Proceedings, 46 (2021) 2240-2248
Journal of Magnetism and Magnetic Materials, 201(1-3) (1999) 252-255
International Journal of Thermal Sciences 184 (2023) 108014
Journal of Magnetism and Magnetic Materials 567 (2023) 170329
Materials Today: Proceedings, 46 (2021) 2240-2248
Journal of Magnetism and Magnetic Materials, 201(1-3) (1999) 252-255
Online since: October 2014
Authors: Hong Wu Qin, Xiao Xue Xing, Xian Zhang
However, in a number of materials (chemically pure Sn, technical Sn, and eutectic alloy) AE signals have been registered below an inflection point on a time-temperature curve, i.e. in a solid condition.
Materials with various concentrations of components crystallize on different mechanisms.
The research activities have been funded by Changchun Science and Technology (No. 13GH15).
Time-frequency analysis of impact sound of composite materials.
Journal of Materials Processing Technology. 2001, 109:242~247
Materials with various concentrations of components crystallize on different mechanisms.
The research activities have been funded by Changchun Science and Technology (No. 13GH15).
Time-frequency analysis of impact sound of composite materials.
Journal of Materials Processing Technology. 2001, 109:242~247
Online since: December 2015
Authors: Afidah Abu Bakar, Siti Hawa Hamzah, Mohd Hisbany Mohd Hashim, Amir Syafiq Samsudin, Mohamad Firdaus Mohamad
The introduction of ribbed slab reduces the material and thus the cost but the strength of the structure also reduce due to the reducing material.
All items such as sizing, meshing and material properties need to be considered in this study.
In Journal of Engineering Science and Technology Vol. 7, No. 5 (2012).
In Journal of Structural Engineering, Vol 126.
L., Guerra, E.A., and Gomes, F.M.P., The Influnce of Steel Fibre Aspect Ratio on the Mechanical Performance of Concrete, Journal of Construction and Building Materials, 2007, 1-6.
All items such as sizing, meshing and material properties need to be considered in this study.
In Journal of Engineering Science and Technology Vol. 7, No. 5 (2012).
In Journal of Structural Engineering, Vol 126.
L., Guerra, E.A., and Gomes, F.M.P., The Influnce of Steel Fibre Aspect Ratio on the Mechanical Performance of Concrete, Journal of Construction and Building Materials, 2007, 1-6.
Online since: July 2011
Authors: Wei Fang Zhang, Sheng Wang Liu, Qing Yun Tang
This article makes a detailed introduction about the setup and tests a kind of typical materials of aero-engine hot end components.
Conclusions An experimental setup to measure TCC that is suitable for structural materials of hot end of aeroengine was introduced; TCC between typical structural materials TC4/30CrMnSi was tested, and its influence factors such as load size, processes of loading and unloading were studied; The results show that when the temperature of interface is fixed, TCC increases with the load, and is greater in the process of unloading than loading under the same condition.
Journal of Thermophysics and Heat Transfer 1998; Vol. 12(No. 3): 374-381
Journal of Materials Processing Technology 2004; 145(2): 207-214
Experimental Study on the Hysteresis Effect of Thermal Contact Conductance at Light Loads: 40th AIAA Aerospace Sciences Meeting & Exhibit[Z].
Conclusions An experimental setup to measure TCC that is suitable for structural materials of hot end of aeroengine was introduced; TCC between typical structural materials TC4/30CrMnSi was tested, and its influence factors such as load size, processes of loading and unloading were studied; The results show that when the temperature of interface is fixed, TCC increases with the load, and is greater in the process of unloading than loading under the same condition.
Journal of Thermophysics and Heat Transfer 1998; Vol. 12(No. 3): 374-381
Journal of Materials Processing Technology 2004; 145(2): 207-214
Experimental Study on the Hysteresis Effect of Thermal Contact Conductance at Light Loads: 40th AIAA Aerospace Sciences Meeting & Exhibit[Z].