Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: February 2013
Authors: Jenn Kai Tsai, Teen Hang Meen, Chien Jung Huang, Shi Mian Chao, Tien Chuan Wu, Yi Ting Jhuo, Jun Xiang Wang, Wen Ray Chen
Acknowledgements
This research is supported by the National Science Council, R.O.C. under contract Nos.
[4] Michael Dürr, Andreas Schmid, Markus Obermaier, Silvia Rosselli, Akio Yasuda, Fabriele Nelles, 2005, “Low-temperature fabrication of dye-sensitizedsolar cells by transfer of composite porous layers”, Nature materials, 4, 607-611
[7] Guido Rothenberger, Pascal Comte, Michael Grätzel, 1999, “A contribution to the optical design of dye-sensitized nanocrystalline solar cells”, Solar Energy Materials & Solar Cells, 58, 321-336
Akiyam, Susumu Kuwabat, 2007, “Optical simulation of transmittance into a nanocrystalline anatase TiO2 film for solar cell applications”, Solar Energy Materials & Solar Cells, 91, 201-206
[10] In Gyoung Yu, Yong Joo Kim, Hark Jin Kim, Chongmu Lee,Wan In Lee, 2010, “Size-dependent light-scattering effects of nanoporous TiO2 spheres in dye-sensitized solar cells”, Journal of Materials Chemistry.
[4] Michael Dürr, Andreas Schmid, Markus Obermaier, Silvia Rosselli, Akio Yasuda, Fabriele Nelles, 2005, “Low-temperature fabrication of dye-sensitizedsolar cells by transfer of composite porous layers”, Nature materials, 4, 607-611
[7] Guido Rothenberger, Pascal Comte, Michael Grätzel, 1999, “A contribution to the optical design of dye-sensitized nanocrystalline solar cells”, Solar Energy Materials & Solar Cells, 58, 321-336
Akiyam, Susumu Kuwabat, 2007, “Optical simulation of transmittance into a nanocrystalline anatase TiO2 film for solar cell applications”, Solar Energy Materials & Solar Cells, 91, 201-206
[10] In Gyoung Yu, Yong Joo Kim, Hark Jin Kim, Chongmu Lee,Wan In Lee, 2010, “Size-dependent light-scattering effects of nanoporous TiO2 spheres in dye-sensitized solar cells”, Journal of Materials Chemistry.
Online since: June 2013
Authors: Xiao Yuan Liu, Sheng Yu Gong, Xi Hui Yang
Its own Material can also be automatically exported according to 3D max system.
Code is as follows: Material { Diffuse Color 0.2 0.3 0.3 # set the diffuse color Specular Color 0 0 0 # no specular reflection color Ambient Intensity 0.3 # ambient light influence is set to low Emissive Color 0 0 0 # specified luminous object light color Shininess 0.2 # surface brightness is set to lower Transparency 0 # completely opaque } Material VARY in plug-in settings cannot be exported, therefore, we need to take the settings into consideration, use the Material node model materials, textures, for example, the primary color plastic frosted translucent beer in VRML environment.
Journal of Suzhou Technical University (Natural Science), 21(4):49-53,2005,10 [5] XuezhiJiang,Zhonghua Li.
Journal of Liaoning Technical University(Natural Science). 23(2):238-240,2004 [6] Ziqiang Zhou,Mujun Li,Lianwan Shen.Computer & Information Technology. 2007(11):50-54 [7] Tao Cheng,Lin Lin,Yuying Wei etc.
Experimental Technology and Management. 25(12):93-98. 2008,12 [8] Nana Wang, Yu Wang.Journal of QingDao University (Natural Science Edition). 19(2):69-73, 2006,5 [9] Sijun liu.Research on Virtual Reality Product Display System Based on VRML.Master's degree thesisof Sichuan University.2006,5
Code is as follows: Material { Diffuse Color 0.2 0.3 0.3 # set the diffuse color Specular Color 0 0 0 # no specular reflection color Ambient Intensity 0.3 # ambient light influence is set to low Emissive Color 0 0 0 # specified luminous object light color Shininess 0.2 # surface brightness is set to lower Transparency 0 # completely opaque } Material VARY in plug-in settings cannot be exported, therefore, we need to take the settings into consideration, use the Material node model materials, textures, for example, the primary color plastic frosted translucent beer in VRML environment.
Journal of Suzhou Technical University (Natural Science), 21(4):49-53,2005,10 [5] XuezhiJiang,Zhonghua Li.
Journal of Liaoning Technical University(Natural Science). 23(2):238-240,2004 [6] Ziqiang Zhou,Mujun Li,Lianwan Shen.Computer & Information Technology. 2007(11):50-54 [7] Tao Cheng,Lin Lin,Yuying Wei etc.
Experimental Technology and Management. 25(12):93-98. 2008,12 [8] Nana Wang, Yu Wang.Journal of QingDao University (Natural Science Edition). 19(2):69-73, 2006,5 [9] Sijun liu.Research on Virtual Reality Product Display System Based on VRML.Master's degree thesisof Sichuan University.2006,5
Online since: May 2012
Authors: Xin Zhi Shi, Mei Ling Qu, Gao Feng Wang, Chang Qi
At the same time, it also saves materials for wire lines and reduces pollution from disused battery.
During the simulation, we considered three substances: metal (such as copper), insulating materials (such as polyvinyl and Styrofoam), human.
The insulating materials will lower the power transfer efficiency when placed closer than several centimeters from coils.
Considering many common materials don’t interact with magnetic fields, and the inference has been greatly restrained, this technology can be widely used in our daily life.
Joannopoulos: Science, Vol.317 (2007) , p.83
During the simulation, we considered three substances: metal (such as copper), insulating materials (such as polyvinyl and Styrofoam), human.
The insulating materials will lower the power transfer efficiency when placed closer than several centimeters from coils.
Considering many common materials don’t interact with magnetic fields, and the inference has been greatly restrained, this technology can be widely used in our daily life.
Joannopoulos: Science, Vol.317 (2007) , p.83
Online since: September 2014
Authors: Rustam Usmanov, Vera Murgul, Nikolay Vatin, Marina Rakočević
Journal of Applied Engineering Science, 12(1) (2014) pp. 1-10
[5] D.
Journal of Applied Engineering Science. 12(1) (2014) pp. 37-44 [6] A.
Applied Mechanics and Materials.
Applied Mechanics and Materials.
Applied Mechanics and Materials.
Journal of Applied Engineering Science. 12(1) (2014) pp. 37-44 [6] A.
Applied Mechanics and Materials.
Applied Mechanics and Materials.
Applied Mechanics and Materials.
Online since: December 2011
Authors: Wen Jiong Cao, Yi He, Zhao Yao Zhou, De Zhi Yang
For isotropic material, Thermal Conductivity is a constant in every direction.
Material properties of mould show in the Table.1 Material properties of mould.
Journal of Shaanxi University of Science &Technology. 2003,21(4):120-123
[2] Y.F.Qu,Q.L.Huang.Journal of Applied Polymer Science.2003(87):2052-2056.a [3] J.P.Wu,H.Y.Zhan.Guangdong Pulp&Paper.2000(01)
Journal of Xihua University (Natural Science Edition).2006(5)
Material properties of mould show in the Table.1 Material properties of mould.
Journal of Shaanxi University of Science &Technology. 2003,21(4):120-123
[2] Y.F.Qu,Q.L.Huang.Journal of Applied Polymer Science.2003(87):2052-2056.a [3] J.P.Wu,H.Y.Zhan.Guangdong Pulp&Paper.2000(01)
Journal of Xihua University (Natural Science Edition).2006(5)
Online since: August 2016
Authors: R.K. Shah, Hitesh Parmar, A.T. Oza
Oza2
1Arts, Science and R.A.
Polythiophene (pure) obtained from a chemical company was dark brown material.
[8] XI-SHU WANG, XI-QIAO FENG, journal of material science letters 21, 2002, pp 715-717
[9] D.S.Correa, M.R.Cardoso et al., polymer 49, 2008, pp 1562-1566 [10] A.Entezami , N.Arsalanl, Iranian journal of polymer science & technology, vol.1 , 1992, pp 33-35
Goncalves, Ligia M.M.Costa et al., journal of applied polymer science, vol.114, 2009, pp 680-687
Polythiophene (pure) obtained from a chemical company was dark brown material.
[8] XI-SHU WANG, XI-QIAO FENG, journal of material science letters 21, 2002, pp 715-717
[9] D.S.Correa, M.R.Cardoso et al., polymer 49, 2008, pp 1562-1566 [10] A.Entezami , N.Arsalanl, Iranian journal of polymer science & technology, vol.1 , 1992, pp 33-35
Goncalves, Ligia M.M.Costa et al., journal of applied polymer science, vol.114, 2009, pp 680-687
Online since: June 2012
Authors: Chu Wang Su, Jing Da Huang, Jian Ju Luo, Lian Lai, Yuan Yi Wuang
Test materials and Methods
Test Materials.
The Mytilaria laosensis were provided by DaQingShan testing-center of China forestry science and technology institute.
Forest Products Journal, 1995, 45(7P8): 912-916
Tropical Forestry Science and Technology.
Research and Evaluation on the Planning and Sanding Properties of Mytilaria laosensis [J].Advanced Materials Research. 2012, 420: 982-986
The Mytilaria laosensis were provided by DaQingShan testing-center of China forestry science and technology institute.
Forest Products Journal, 1995, 45(7P8): 912-916
Tropical Forestry Science and Technology.
Research and Evaluation on the Planning and Sanding Properties of Mytilaria laosensis [J].Advanced Materials Research. 2012, 420: 982-986
Online since: July 2012
Authors: Hai Yan Zhong, Yong Zhu, Bo Zhou, Qi Zhi Long, Jie Lv, Qing Ming Cao
Materials and methods
Materials.
The potential reason may be the difference of raw materials (seed) from which two oil samples used in this study were obtained
Acknowledgements Funding from National Natural Science Foundation of China (Grant No. 31070612) and Hunan Natural Science Foundation (Grant No. 09JJ3042).
Guangdong Agricultural Science, 6 ( 2011): 100-102 (in Chinese)
Journal of Instrumental Analasis,30 (2011): 696-700 (in Chinese)
The potential reason may be the difference of raw materials (seed) from which two oil samples used in this study were obtained
Acknowledgements Funding from National Natural Science Foundation of China (Grant No. 31070612) and Hunan Natural Science Foundation (Grant No. 09JJ3042).
Guangdong Agricultural Science, 6 ( 2011): 100-102 (in Chinese)
Journal of Instrumental Analasis,30 (2011): 696-700 (in Chinese)
Online since: February 2012
Authors: Wei Li, Jin Ju Du
As a promising optoelectronic material, lead sulfide has been widespread concern.
Computational method The first-principles calculations presented here were performed by the Castep program on the platform of Materials Studio, which is based on density functional theory using a plane-wave basis set for the expansion of the wave functions [16].
Acknowledgments This work was sponsored by the National Science Foundation of China (Grant No. 61072028 ) and the Natural Science Foundation of Guangdong Province (No. 10151063101000048).
Vijayan, R.Devanathan, Materials letters, Vol. 58 (2004), p.1223 [2] Wise F W, Acc Chem Res, Vol.33 (2000), p.773 [3] Saraidarov T, Reisfeld R, Sashchiuk A, Physica E, Vol.37(2007), p.173-177
[4] Preobrajenski A B, Chasse T, Applied surface Science, Vol.166(2000), p.201 [5] Sashchiuk A, Lifshitz E, Reisfeld R, Saraidarov T, Materials Science and Engineering: C, Vol.19(2002), p.67 [6] Hu K C, Liu P, Ye S J, Biosensors and Bioelectronics, Vol.24(2009), p.3113 [7] Badr Y, Mahmond M A, Physica B, Vol.388(2007), p.134 [8] Alex P G, Peter I G , Arne N L, Thin Solid films, Vol.516(2008),p.3791 [9] Nanda K K, Kruis F E, Fisan H, J Appl Phys, Vol.91(2002), p. 2315 [10] Lian H J, Yang A, Thewalt M L W, Phys Rev B, Vol.73(2006), p.233202
Computational method The first-principles calculations presented here were performed by the Castep program on the platform of Materials Studio, which is based on density functional theory using a plane-wave basis set for the expansion of the wave functions [16].
Acknowledgments This work was sponsored by the National Science Foundation of China (Grant No. 61072028 ) and the Natural Science Foundation of Guangdong Province (No. 10151063101000048).
Vijayan, R.Devanathan, Materials letters, Vol. 58 (2004), p.1223 [2] Wise F W, Acc Chem Res, Vol.33 (2000), p.773 [3] Saraidarov T, Reisfeld R, Sashchiuk A, Physica E, Vol.37(2007), p.173-177
[4] Preobrajenski A B, Chasse T, Applied surface Science, Vol.166(2000), p.201 [5] Sashchiuk A, Lifshitz E, Reisfeld R, Saraidarov T, Materials Science and Engineering: C, Vol.19(2002), p.67 [6] Hu K C, Liu P, Ye S J, Biosensors and Bioelectronics, Vol.24(2009), p.3113 [7] Badr Y, Mahmond M A, Physica B, Vol.388(2007), p.134 [8] Alex P G, Peter I G , Arne N L, Thin Solid films, Vol.516(2008),p.3791 [9] Nanda K K, Kruis F E, Fisan H, J Appl Phys, Vol.91(2002), p. 2315 [10] Lian H J, Yang A, Thewalt M L W, Phys Rev B, Vol.73(2006), p.233202
Online since: March 2016
Authors: Bo Long Li, Tong Bo Wang, Ying Chao Li, Zhen Qiang Wang, Zuo-Ren Nie
It showed that crack extended along the ASBs and eventually it led to the fracture of materials.
Therefore the commercial pure titanium is selected to be a model material for HCP structure materials and its high-speed local deformation behavior still needs further research, which can provide theoretical basis to design materials with good impact resistance.
References [1] Fu Yanyan, Song Yueqing, Hui Songxiao, Mi Xujun, Research and application of typical aerospace titanium alloys, Chinese Journal of Rare Materials. 06(2006) 850-856
[2] Qian Jiuhong, Application and development of new titanium alloys for aerospace, Chinese Journal of Rare Materials. 03(2000) 218-223
[4] Me–Bar Y, Shechtman D, On the adiabatic shear of Ti–6Al–4V ballistic targets, Materials Science and Engineering, V58(1983) 181–188
Therefore the commercial pure titanium is selected to be a model material for HCP structure materials and its high-speed local deformation behavior still needs further research, which can provide theoretical basis to design materials with good impact resistance.
References [1] Fu Yanyan, Song Yueqing, Hui Songxiao, Mi Xujun, Research and application of typical aerospace titanium alloys, Chinese Journal of Rare Materials. 06(2006) 850-856
[2] Qian Jiuhong, Application and development of new titanium alloys for aerospace, Chinese Journal of Rare Materials. 03(2000) 218-223
[4] Me–Bar Y, Shechtman D, On the adiabatic shear of Ti–6Al–4V ballistic targets, Materials Science and Engineering, V58(1983) 181–188