Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: October 2014
Authors: Xiang Yang Bian, Xiao Yu Xin
This paper puts archaeological evidences and historical documents together as its research materials, reviews the history development of the felting techniques in the ancient Xinjiang, and represents the main features of the felting techniques in different eras.
The raw materials for felt production include sheep wool, goat wool, camel hair, etc; the handmade links of felt production include wool collection, wool cleaning, wool fluffing, wool spreading, heating and humidification, rolling and shaping.
The convenient material drawing and easy making process of the felts featuring great practical performances of anti-moisture, anti-wind and heat preservation had resulted in the affection of the ancient nomadic nations in Xinjiang in terms of the felts as the textile materials in their daily life for thousands of years.
Chen, A History of Textile Science and Techniques in China, Science Press, Beijing, 1984, 396-398
Yu, The Felt Maker in Yutian City, Journal of Xinjiang Human Geography Vol.5(2009)
The raw materials for felt production include sheep wool, goat wool, camel hair, etc; the handmade links of felt production include wool collection, wool cleaning, wool fluffing, wool spreading, heating and humidification, rolling and shaping.
The convenient material drawing and easy making process of the felts featuring great practical performances of anti-moisture, anti-wind and heat preservation had resulted in the affection of the ancient nomadic nations in Xinjiang in terms of the felts as the textile materials in their daily life for thousands of years.
Chen, A History of Textile Science and Techniques in China, Science Press, Beijing, 1984, 396-398
Yu, The Felt Maker in Yutian City, Journal of Xinjiang Human Geography Vol.5(2009)
Online since: June 2013
Authors: Zhu Ji Jin, Heng Zhen Dai, Bin Wang
By removing materials at the atomic level with the combined effect of chemical and mechanical reactions, chemical-mechanical polishing (CMP) can generate super surface roughness [3].
Also, if the tissue was denser, the material of K9 optical glass relied much more on mechanical action.
Kim, H.Y.Kim, H.D.Jeong, E.S.Lee,Y.J.Shin: Journal of Materials Processing Technology Vol. 130–131 (2002), P.334 [4] Zhongjun Qiu, Libo Zhou, Fengzhou Fang,Tsuyoshi Shina, Hiroshi Eda: Optics and Precision Engineering Vol.18 (2010), P.1553 (In Chinese) [5] Libo Zhou, Shimizu,Hiroshi Eda: International Journal of Manufacturing Technology and Management Vol.7(2005),P.441 [6] Y.B.
Applied Surface Science Vol.225 (2009), P.4205 [7] H.Huang, B.L.
Zhou: Materials Science and Engineering Vol.479 (2008), P.373 [8] Libo Zhou,Shinat,Qiu Zh J: Precision Engineering Vol.33(2009), P.499 [9] Arivazhagan Rajendran, Yasufumi Takahashi, Michihisa Koyama: Applied Surface Science Vol.244 (2005), P.34 [10] Zhou L, Eda H, Shimizu J, Kamiya S, Iwase H, Kimura S: CIRP Annals Vol.55 (2006), P.313
Also, if the tissue was denser, the material of K9 optical glass relied much more on mechanical action.
Kim, H.Y.Kim, H.D.Jeong, E.S.Lee,Y.J.Shin: Journal of Materials Processing Technology Vol. 130–131 (2002), P.334 [4] Zhongjun Qiu, Libo Zhou, Fengzhou Fang,Tsuyoshi Shina, Hiroshi Eda: Optics and Precision Engineering Vol.18 (2010), P.1553 (In Chinese) [5] Libo Zhou, Shimizu,Hiroshi Eda: International Journal of Manufacturing Technology and Management Vol.7(2005),P.441 [6] Y.B.
Applied Surface Science Vol.225 (2009), P.4205 [7] H.Huang, B.L.
Zhou: Materials Science and Engineering Vol.479 (2008), P.373 [8] Libo Zhou,Shinat,Qiu Zh J: Precision Engineering Vol.33(2009), P.499 [9] Arivazhagan Rajendran, Yasufumi Takahashi, Michihisa Koyama: Applied Surface Science Vol.244 (2005), P.34 [10] Zhou L, Eda H, Shimizu J, Kamiya S, Iwase H, Kimura S: CIRP Annals Vol.55 (2006), P.313
Online since: December 2010
Authors: Hong Fang Wang, Jiang Chun Hu, Ya Dong Bian
There are some assumptions in numerical model as following:
(1) The piles foundation deals with as composite materials, and parameters calculate according to the exchange rate of piles and soils
(2) The bottom of chimney deals with as composite materials too, and parameters calculate according to the rate of the chimney and filling soils
Journal of Chang´an University(Natural Science), 2003, 23(4): 81-84.
Journal of Railway Science and Engineering, 2007, 4(4): 65-70.
Journal of Chang´an University(Natural Science), 2007, 27(1): 88-91.
(2) The bottom of chimney deals with as composite materials too, and parameters calculate according to the rate of the chimney and filling soils
Journal of Chang´an University(Natural Science), 2003, 23(4): 81-84.
Journal of Railway Science and Engineering, 2007, 4(4): 65-70.
Journal of Chang´an University(Natural Science), 2007, 27(1): 88-91.
Online since: October 2013
Authors: Chang Yong Li, Song Wei Pei, Feng Jun Shi, Zhong Hua Du
Acknowledgements
The work was financially supported by the Support Plan of Science and Technology Innovation Team in Henan University, China (13IRTSHN002), the Scientific and Technical Leader Raising Plan of Zhengzhou City, China (No. 096SYJH23105), and the Cultivating Base for Key Lab of Eco-building Materials in Henan University, China ( 2009-609).
Zhao, Mechanical properties of steel fiber reinforced light-aggregate concrete, Advanced Materials Research, 366 (2012) 12-15
Zhao, Experimental study on tensile strength of manufactured sand expanded-shale concretet, Journal of Zhengzhou University (Engineering Science), Vol. 32 1 (2011) 13-17
Zheng, Punching strength of reinforced ceramisite concrete slab, Journal of Fuzhou University (Natural Science Ed.), Vol. 20 4 (1992) 63-69
Zheng, Calculation of punching strength of lightweight aggregate concrete slab based on reliability analysis, Journal of Fuzhou University (Natural Science Ed.), Vol. 21 1 (1993) 63-69
Zhao, Mechanical properties of steel fiber reinforced light-aggregate concrete, Advanced Materials Research, 366 (2012) 12-15
Zhao, Experimental study on tensile strength of manufactured sand expanded-shale concretet, Journal of Zhengzhou University (Engineering Science), Vol. 32 1 (2011) 13-17
Zheng, Punching strength of reinforced ceramisite concrete slab, Journal of Fuzhou University (Natural Science Ed.), Vol. 20 4 (1992) 63-69
Zheng, Calculation of punching strength of lightweight aggregate concrete slab based on reliability analysis, Journal of Fuzhou University (Natural Science Ed.), Vol. 21 1 (1993) 63-69
Online since: March 2005
Authors: A. Fernández, J.A. Reglero, Miguel A. Rodríguez-Pérez, D. Lehmhus, M. Windmann, Jose A. de Saja
E., Log, T., Fire and Materials, 19 (43), 1995
Solid State & Materials Science 3:288-303. 1998
Progress in Materials Science 46, pp 559-632. 2001
Journal of Materials Processing Technology 131, pp 202-206. 2003.
Journal of Materials Science, 29, pp 486-498.1994
Solid State & Materials Science 3:288-303. 1998
Progress in Materials Science 46, pp 559-632. 2001
Journal of Materials Processing Technology 131, pp 202-206. 2003.
Journal of Materials Science, 29, pp 486-498.1994
Online since: November 2011
Authors: Li Xian Lian, Ying Liu, Long Jiang Deng
However, the applications of conventional microwave absorption materials are limited.
Journal of Magnetism and Magnetic Materials Vol. 322 (2010), 940–944
Materials Chemistry and Physics Vol.114 (2009), 556–560
Buschow, in: Ferromagnetic Materials, Vol.4, Elsevier Science Publishers B.V., Amsterdam, 1988
Rare Metal Materials and Engineering, Vol.36(4), (2007), 717-720
Journal of Magnetism and Magnetic Materials Vol. 322 (2010), 940–944
Materials Chemistry and Physics Vol.114 (2009), 556–560
Buschow, in: Ferromagnetic Materials, Vol.4, Elsevier Science Publishers B.V., Amsterdam, 1988
Rare Metal Materials and Engineering, Vol.36(4), (2007), 717-720
Online since: May 2016
Authors: Da Bin Zhang, Hong Gao, Da Shu
Experimental Details
Materials.
Ruoff, Advanced materials 22 (2010) 3906-3924
Luo, Materials Science and Engineering: A 444 (2007) 92-98
Shen, Journal of Materials Chemistry 22 (2012) 1673-1678
Xie, Materials Research Bulletin 46 (2011) 2004-2008
Ruoff, Advanced materials 22 (2010) 3906-3924
Luo, Materials Science and Engineering: A 444 (2007) 92-98
Shen, Journal of Materials Chemistry 22 (2012) 1673-1678
Xie, Materials Research Bulletin 46 (2011) 2004-2008
Online since: July 2013
Authors: Wei Ren, Xiu Chen Zhao, Jun Hong Li
As a key MEMS transducer materials, PbZr0.52Ti0.48O3(PZT) piezoelectric thick film should have good piezoelectric properties as well as lower stress.
Among them, main raw materials of fabricating HAC system sol are Zirconium(IV) n-propoxide (C12H28O4Zr), lead acetate (Pb(CH3COO)2·3H2O), isopropyl titanate (Ti{OCH(CH3)2}4).
The main raw materials used in the preparation of the MOE system sol are: zirconium nitrate (Zr(NO3)4•5H2O), lead acetate (Pb(CH3COO)2•3H2O), tetrabutyl titanate (Ti(OC4H9)4).
Residual stress and structure characteristics in PZT ferroelectric thin films annealed at different ramp rates, Materials Letters. 60 (2006) 255–260
An investigation into the thermophysical properties and phase transitions of new ferroelectric ceramic material PZT, Journal of South China University of Technology (Natural Science Edition). 28(12) ( 2000) 54-58.
Among them, main raw materials of fabricating HAC system sol are Zirconium(IV) n-propoxide (C12H28O4Zr), lead acetate (Pb(CH3COO)2·3H2O), isopropyl titanate (Ti{OCH(CH3)2}4).
The main raw materials used in the preparation of the MOE system sol are: zirconium nitrate (Zr(NO3)4•5H2O), lead acetate (Pb(CH3COO)2•3H2O), tetrabutyl titanate (Ti(OC4H9)4).
Residual stress and structure characteristics in PZT ferroelectric thin films annealed at different ramp rates, Materials Letters. 60 (2006) 255–260
An investigation into the thermophysical properties and phase transitions of new ferroelectric ceramic material PZT, Journal of South China University of Technology (Natural Science Edition). 28(12) ( 2000) 54-58.
Online since: September 2013
Authors: Bonnia Noor Najmi, Nor Azowa Ibrahim, Siti Zaleha Sa'ad, Abdullah Farah Dina
The loss of cementing materials contributed to the fibrillation [11].
International Journal of Physical Sciences, Vol. 4 (4) (2009) 189-193
J. of Materials Science., 38 (2003) 3159 – 3168
Journal of Composite Materials (2011) 45: 1853
Journal of Composite Materials (2000) 34: 1948.
International Journal of Physical Sciences, Vol. 4 (4) (2009) 189-193
J. of Materials Science., 38 (2003) 3159 – 3168
Journal of Composite Materials (2011) 45: 1853
Journal of Composite Materials (2000) 34: 1948.
Online since: November 2010
Authors: Li Guan, Fei Xie, Jian Gang Niu, Xiao Ping Dong, Ke Jun Jia
Introduction
Mg-based hydrogen storage materials are seen as the most promising hydrogen storage materials because of their high hydrogen storage capacity, light weight, low pollution and low cost.
According to the Van’t Hoff equation, phase stability is related to decomposition ability of the Mg-based hydrogen storage materials.
Table1 The crystal structure data of MgH2 and Mg7XH16 Material Group (No.)
Journal of Alloys and Compounds.Vol.372(2004),P.213 [2] E.
Journal of physics: condensed matter. doi:10.1088/0953-8984/22/7/074208
According to the Van’t Hoff equation, phase stability is related to decomposition ability of the Mg-based hydrogen storage materials.
Table1 The crystal structure data of MgH2 and Mg7XH16 Material Group (No.)
Journal of Alloys and Compounds.Vol.372(2004),P.213 [2] E.
Journal of physics: condensed matter. doi:10.1088/0953-8984/22/7/074208