Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: June 2013
Authors: Jun Li, Xun Tao, Hui Min Huang
The final materials which were relatively small paticle size and more uniform distribution.
This indicates that the conductivity and Li+ de-intercalation reversible behaviors of materials be improved by Na doping.
Vol. 144(1997), p. 1188 [2] J.F.Ni, H.H.Zhou and J.T.Chen: Materials Letter.
Vol. 21(2011), p. 4156 [4] F.Mou, X.L.Yang and Z.X.Dai: Journal of Inorganic Materials.
Vol. 27(2012), p.838 [5] Q.M.Zhang, Y.Q.Qiao and M.S.Zhao: Chinese Journal of Inorganic Chemistry.
This indicates that the conductivity and Li+ de-intercalation reversible behaviors of materials be improved by Na doping.
Vol. 144(1997), p. 1188 [2] J.F.Ni, H.H.Zhou and J.T.Chen: Materials Letter.
Vol. 21(2011), p. 4156 [4] F.Mou, X.L.Yang and Z.X.Dai: Journal of Inorganic Materials.
Vol. 27(2012), p.838 [5] Q.M.Zhang, Y.Q.Qiao and M.S.Zhao: Chinese Journal of Inorganic Chemistry.
Online since: December 2014
Authors: Lilian Mieko da Silva, Marta dos Santos, Adriana Faria Azevedo, Maurício Ribeiro Baldan, Antonio Fernando Beloto, Neidenêi Gomes Ferreira
Ferreira, et al.: Diamond and Related Materials Vol. 14 (2005), p. 441
Gruen: Annual Review of Materials Research Vol. 29 (1999), p. 211
Ferreira et al.: Diamond and Related Materials Vol. 12 (2003), p. 596
Cicala, et al.: Diamond and Related Materials Vol. 14 (2005), p. 421
:Journal of Vacuum Science and Technology A.
Gruen: Annual Review of Materials Research Vol. 29 (1999), p. 211
Ferreira et al.: Diamond and Related Materials Vol. 12 (2003), p. 596
Cicala, et al.: Diamond and Related Materials Vol. 14 (2005), p. 421
:Journal of Vacuum Science and Technology A.
Online since: January 2015
Authors: Abdulkadir Güllü, Murat Sarikaya
Ezugwu, Improvements in the machining of aero-engine alloys using self-propelled rotary tooling technique, Journal of Materials Processing Technology 185 (2007) 60–71
Celaya, Plasma assisted milling of heat – resistant superalloys, Journal of Manufacturing Science and Engineering 126 (2004)
Choudhury, H.H Hassan, Application of Taguchi method in the optimization of end milling parameters, Journal of Materials Processing Technology 145 (2004) 84–92
Tarng, Design optimization of cutting parameters for turning operations based on the Taguchi method, Journal of Materials Processing Technology 84 (1998) 122–129
Journal of Refractory Metals and Hard Materials 33 (2012) 75–86
Celaya, Plasma assisted milling of heat – resistant superalloys, Journal of Manufacturing Science and Engineering 126 (2004)
Choudhury, H.H Hassan, Application of Taguchi method in the optimization of end milling parameters, Journal of Materials Processing Technology 145 (2004) 84–92
Tarng, Design optimization of cutting parameters for turning operations based on the Taguchi method, Journal of Materials Processing Technology 84 (1998) 122–129
Journal of Refractory Metals and Hard Materials 33 (2012) 75–86
Online since: January 2014
Authors: Ji Hui Xu, Xiao Hong Ren, Jing Shun Duanmu, Ya Rong Wu
Aviation Human Factors Accident Causation Model Based on Structure Entropy
Ya-Rong Wu 1,a, Jing-Shun Duanmu1,b, Ji-Hui Xu1,c , Xiao-Hong Ren2,d
1 Material Management and Safety Engineering College, Air Force Engineering University, Xi’an, Shaanxi, 710051, China
2 Basic Theory College, Air Force Engineering University, Xi’an, Shaanxi, 710051, China
achuhs@126.com, b dmjs3836@163.com, c gjg123@163.com, d1214624343@qq.com
Keywords: Safety science and engineering; aviation accident; human factors; accident causation model; structure entropy
Abstract.
Journal of Safety and Environment, 4, (2012), 192-196 [3] Z.
Dissertation of Electronic Science and Technology University, (2010) [4] S.
Journal of Traffic and Transportation Engineering, 2, (2008), 96-100
Journal of Safety and Environment, 4, (2012), 192-196 [3] Z.
Dissertation of Electronic Science and Technology University, (2010) [4] S.
Journal of Traffic and Transportation Engineering, 2, (2008), 96-100
Online since: February 2014
Authors: Ying Chun Wang, Hong Zou, Shu Kui Li
Materials Science and Engineering A, 2013, 582:389-396
Materials Science and Engineering: A, 2001, 302(1): 162-7
Materials Science and Engineering: A, 2011, 528(19): 6235-47
Materials Science and Engineering: A, 2010, 527(29): 7841-7
Materials Science and Engineering: A, 2003, 344(1): 158-67
Materials Science and Engineering: A, 2001, 302(1): 162-7
Materials Science and Engineering: A, 2011, 528(19): 6235-47
Materials Science and Engineering: A, 2010, 527(29): 7841-7
Materials Science and Engineering: A, 2003, 344(1): 158-67
Online since: October 2014
Authors: Chun Gui Du, Ren Li
It was made by wood or other wood materials impregnated into the thermosetting resin and vacuum carbonization[1-2].
Experimental Materials and Methods Experiment Materials Bamboo particles selected residues of bamboo pieces precise shaving processing, they were screened for removing dust, mud and sand, oversize particles, and dried to a moisture content 4-6%.
Jin: Ordnance Material Science and Technology, Vol. 21(1998), p. 45-48(In Chinese) [2] R.
Jin: Materials Review, Vol. 17(2003), p. 66-69(In Chinese) [4] W.H.
Fei, etal: New Carbon Materials,Vol. 21(2006), p. 1-8(In Chinese)
Experimental Materials and Methods Experiment Materials Bamboo particles selected residues of bamboo pieces precise shaving processing, they were screened for removing dust, mud and sand, oversize particles, and dried to a moisture content 4-6%.
Jin: Ordnance Material Science and Technology, Vol. 21(1998), p. 45-48(In Chinese) [2] R.
Jin: Materials Review, Vol. 17(2003), p. 66-69(In Chinese) [4] W.H.
Fei, etal: New Carbon Materials,Vol. 21(2006), p. 1-8(In Chinese)
Online since: March 2021
Authors: Thomas Seefeld, Christof Gaßmann, Christoph Halisch
Materials and Set-Up
Material.
In: Materials Science and Engineering: A (2019), S. 138654 [11] Al-Bermani, S.
In: Journal of Materials Processing Technology 258 (2018), S. 29–37 [14] Lütjering, Gerd; Williams, James C.: Titanium : With 51 tables. 2. ed.
In: Journal of Materials Processing Technology 215 (2015), S. 123–131 [23] Caballero, A.; Ding, J.; Bandari, Y.; Williams, S.: Oxidation of Ti-6Al-4V During Wire and Arc Additive Manufacture.
In: Journal of Materials Processing Technology 226 (2015), S. 99–105 [25] Luan, J.
In: Materials Science and Engineering: A (2019), S. 138654 [11] Al-Bermani, S.
In: Journal of Materials Processing Technology 258 (2018), S. 29–37 [14] Lütjering, Gerd; Williams, James C.: Titanium : With 51 tables. 2. ed.
In: Journal of Materials Processing Technology 215 (2015), S. 123–131 [23] Caballero, A.; Ding, J.; Bandari, Y.; Williams, S.: Oxidation of Ti-6Al-4V During Wire and Arc Additive Manufacture.
In: Journal of Materials Processing Technology 226 (2015), S. 99–105 [25] Luan, J.
Online since: April 2016
Authors: Li Xian Sun, Fen Xu, Fang Yu, Xiang Fei Zhang, Lin Wang, Ming Hui Fan
However, safety, high quality and volume density are barriers for the developement of hydrogen storage materials[1].
LiH (Alfa Aesar,99.4%), LiAlH4 (Alfa Aesar,95%), MgH2 (Alfa Aesar,98%) and AlCl3 (Alfa Aesar,99.985%) were used as starting materials.
Kim: Metals and Materials International, Vol. 19(2013) No.4, p.879
Chu: Journal of Materials Review, Vol. 27(2013), p.58.
(In Chinese) [10] L.Wang: Preparation and Thermal Analysis of Hydrogen Storage Materials.
LiH (Alfa Aesar,99.4%), LiAlH4 (Alfa Aesar,95%), MgH2 (Alfa Aesar,98%) and AlCl3 (Alfa Aesar,99.985%) were used as starting materials.
Kim: Metals and Materials International, Vol. 19(2013) No.4, p.879
Chu: Journal of Materials Review, Vol. 27(2013), p.58.
(In Chinese) [10] L.Wang: Preparation and Thermal Analysis of Hydrogen Storage Materials.
Online since: November 2013
Authors: Tomáš Vorobeľ, Jozef Jurko, Anton Panda, Ján Duplák, Stanislav Fabian
Davis, Materials.
In: International Journal of Surface Science and Engineering.
In: Key Engineering Materials.
In: Applied Mechanics and Materials, 308 (2013) 57-62
Mrkvica, et al., Cutting efficiency by drilling with tools from different materials, Advanced Materials Research, Materials Processing Technology II. 538-541 (2012) 1327-1331
In: International Journal of Surface Science and Engineering.
In: Key Engineering Materials.
In: Applied Mechanics and Materials, 308 (2013) 57-62
Mrkvica, et al., Cutting efficiency by drilling with tools from different materials, Advanced Materials Research, Materials Processing Technology II. 538-541 (2012) 1327-1331
Online since: February 2013
Authors: Jian Hua Cui, Wan Yun Yin, Guang Hui Xia, Shan Xia, Ren Cai Jin, Shou Chen Liu
We make brief comparison to the application and development of insulation wall in wall materials composition, wall structure forms and wall construction style.
The main technical difficulties and emphases of the new sandwich thermal insulation composite wall (1) Sources of material and composition of the sandwich wall is more diverse, we need to select the wall materials and the inner core materials suitable for the local from a lot of materials
Specific research works are as follows: (1). the study of wall materials composition.
Optimal selection the materials of sandwich part, it is not limited to the existing material.
[8] Y B Zhu, Insulation materials in energy saving in the building wall, Beijing: China Building Materials Press, 2004
The main technical difficulties and emphases of the new sandwich thermal insulation composite wall (1) Sources of material and composition of the sandwich wall is more diverse, we need to select the wall materials and the inner core materials suitable for the local from a lot of materials
Specific research works are as follows: (1). the study of wall materials composition.
Optimal selection the materials of sandwich part, it is not limited to the existing material.
[8] Y B Zhu, Insulation materials in energy saving in the building wall, Beijing: China Building Materials Press, 2004