Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: December 2024
Authors: Olivia de Souza Heleno Santos, Wendy Tian, Kwong Ming Tse, Ya Li Li
Science and technology of advanced materials, 2011. 12(6): p. 064710-064710
Advanced functional materials, 2012. 22(14): p. 2891-2914
Nature Materials, 2015. 14(4): p. 394-399
Materials & design, 2016. 112: p. 367-373
Chemistry of Materials, 2004. 16(9): p. 1740-1746
Advanced functional materials, 2012. 22(14): p. 2891-2914
Nature Materials, 2015. 14(4): p. 394-399
Materials & design, 2016. 112: p. 367-373
Chemistry of Materials, 2004. 16(9): p. 1740-1746
Online since: June 2014
Authors: Tatsuro Hori, Kazuaki Inaba, Kosuke Takahashi, Kikuo Kishimoto
Once a water hammer occurs during slurry transportation, pipe fractures and breakage could result in the leakage of hazardous materials.
The abscissa represents the acoustic impedance of the particle, which is listed for the various materials in Table 1.
Shepherd: Structural Response of Piping to Internal Gas Detonation, Journal of Pressure Vessel Technology, Vol. 131, No. 3, (2009), 031204
Liou: Acoustic wave speed for slurries in pipelines, Journal of Hydraulic Engineering, Vol. 110, (1984), pp. 945-957
Masuyama: Study on the Motion of Particles in a Solid-Liquid Two-Phase Flow in a Horizontal Pipe, Journal of the Mining and Materials Processing Institute of Japan,106(1), (1990), pp. 21-28
The abscissa represents the acoustic impedance of the particle, which is listed for the various materials in Table 1.
Shepherd: Structural Response of Piping to Internal Gas Detonation, Journal of Pressure Vessel Technology, Vol. 131, No. 3, (2009), 031204
Liou: Acoustic wave speed for slurries in pipelines, Journal of Hydraulic Engineering, Vol. 110, (1984), pp. 945-957
Masuyama: Study on the Motion of Particles in a Solid-Liquid Two-Phase Flow in a Horizontal Pipe, Journal of the Mining and Materials Processing Institute of Japan,106(1), (1990), pp. 21-28
Online since: February 2012
Authors: Xiao Peng Yao, Li Zeng
Automated guided vehicle (AGV) is a kind of wheeled mobile robot, which used for the internal and external transport of materials from one place to another in flexible manufacture system (FMS).
Introduction An automated guided vehicle(AGV)is a driverless transport system used for horizontal movement of materials.
At manufacturing areas, AGV are used to transport all types of materials.
Acknowledgments This project is supported by National Natural Science Foundation of China (Grant No. 10876034), Provincial Education Department of Sichuan , (Grant No.07zb115) References [1] Insup Um, Hyeonjae Cheon and Hongchul Lee: submitted to Journal of Manufacturing System 2009(28):115-122 [2] Tom Duckett, Ulrich Nehmzow: submitted to Journal of Robotics and Autonomous Systems 1998(24):57-69 [3] Gilbert Laporte,Reza Zanjirani Farahani and Elnaz Miandoabchi: submitted to.Journal of Applied Mathematics and Computation, 2006, (183): 1410-1421
Landeweerd: submitted to Journal of Int.
Introduction An automated guided vehicle(AGV)is a driverless transport system used for horizontal movement of materials.
At manufacturing areas, AGV are used to transport all types of materials.
Acknowledgments This project is supported by National Natural Science Foundation of China (Grant No. 10876034), Provincial Education Department of Sichuan , (Grant No.07zb115) References [1] Insup Um, Hyeonjae Cheon and Hongchul Lee: submitted to Journal of Manufacturing System 2009(28):115-122 [2] Tom Duckett, Ulrich Nehmzow: submitted to Journal of Robotics and Autonomous Systems 1998(24):57-69 [3] Gilbert Laporte,Reza Zanjirani Farahani and Elnaz Miandoabchi: submitted to.Journal of Applied Mathematics and Computation, 2006, (183): 1410-1421
Landeweerd: submitted to Journal of Int.
Online since: January 2010
Authors: Yin Ma, Qing Shan Li, You Bo Di, Min Zhang
Research on Superfine Wool Surface Texture Modified in Biochemistry
Yin Ma1, 2, a
, Qingshan Li1, b, Youbo Di1, 2, c
Min Zhang
1, 2, a
1
National Key laboratory of Metastable Materials Preparation Technology and Science, Yanshan
University, Qinhuangdao, China R.P.066004;
2
Pindar Wool, Taiyuan Co.LTD, China R.P.030031
a
unvsma@yahoo.com.cn, bqsli@ysu.edu.cn, cdaj961212@163.com
Keywords: biochemical, superfine wool, nano-interface, anti-virus, functional material
Abstract.
If the functional materials are made into nanometer [15] ,such as nano-emulsion, so as to organically integrate the hair fiber.
These so-called photo catalytic antibacterial agent materials can not only kill bacteria but remove the wreckage as well.
The granular attachment of the antibacterial materials of superfine wool is still visible, which explains that the combination of the antibacterial materials is rather firm.
[11] El bieta Wojciechowska, Andrzej W ochowicz, Marian Wysocki, et al.: Journal of Molecular Structure,Vol.,614, (2002),p. 355 [12] Zhang Lide: �ano material science (Liaoning Publishing House, Shenyang, 1994.) [13] João Cortez and Phillip L.
If the functional materials are made into nanometer [15] ,such as nano-emulsion, so as to organically integrate the hair fiber.
These so-called photo catalytic antibacterial agent materials can not only kill bacteria but remove the wreckage as well.
The granular attachment of the antibacterial materials of superfine wool is still visible, which explains that the combination of the antibacterial materials is rather firm.
[11] El bieta Wojciechowska, Andrzej W ochowicz, Marian Wysocki, et al.: Journal of Molecular Structure,Vol.,614, (2002),p. 355 [12] Zhang Lide: �ano material science (Liaoning Publishing House, Shenyang, 1994.) [13] João Cortez and Phillip L.
Online since: November 2016
Authors: Mitsuaki Furui, Tetsuo Aida, Shouyou Sakashita, Masayuki Ohta, Masayuki Yamamoto, Shougo Suzuki, Yuusuke Ishisaka
References
[1] Y.Kojima, Materials Science Forum. 350-351 (2000) 3-18
[3] R.S.Coelho, A.Kostka, H.Pinto, S.Riekehr, M.Kocak and A.R.Pyzalla, Materials Science and Engineering A. 485 (2008) 20-30
[4] L.Yu, K.Nakata, N.Yamamoto and J.Liao, Journal of Materials Letters. 63 (2009) 870-872
[6] A.Yamashita, Z.Horita and T.G.Langdon, Materials Science and Engineering A. 300 (2001) 142-147
[7] H.Watanabe, T.Mukai and K.Ishikawa, Journal of Material Science. 39 (2004) 1477-1480
[3] R.S.Coelho, A.Kostka, H.Pinto, S.Riekehr, M.Kocak and A.R.Pyzalla, Materials Science and Engineering A. 485 (2008) 20-30
[4] L.Yu, K.Nakata, N.Yamamoto and J.Liao, Journal of Materials Letters. 63 (2009) 870-872
[6] A.Yamashita, Z.Horita and T.G.Langdon, Materials Science and Engineering A. 300 (2001) 142-147
[7] H.Watanabe, T.Mukai and K.Ishikawa, Journal of Material Science. 39 (2004) 1477-1480
Online since: September 2013
Authors: Zhe Chen, Dong Chen, Yi Wu, Xian Feng Li, Nai Heng Ma, Hao Wei Wang, Ming Liang Wang
Pai, Journal of Materials Processing Technology 166 (2005) 423-429
%SiC/2024Al composite, Materials Science and Engineering A 527 (2010) 7865-7872
Gupta, Kinetics of Hot Deformation in Mg/Nano-Al2O3 Composite, Journal of Composite Materials 44 (2010) 181-194
Evangelist, Isothermal forging of AA2618 + 20%Al2O3 by means of hot torsion and hot compression tests, Materials Science and Engineering A 387-389 (2004) 857-861
Gu, Recrystallization Kinetics of Cold-rolled Squeeze-cast Al/SiC/15w Composites, Journal of Composite Materials 40 (2006) 1117-1131
%SiC/2024Al composite, Materials Science and Engineering A 527 (2010) 7865-7872
Gupta, Kinetics of Hot Deformation in Mg/Nano-Al2O3 Composite, Journal of Composite Materials 44 (2010) 181-194
Evangelist, Isothermal forging of AA2618 + 20%Al2O3 by means of hot torsion and hot compression tests, Materials Science and Engineering A 387-389 (2004) 857-861
Gu, Recrystallization Kinetics of Cold-rolled Squeeze-cast Al/SiC/15w Composites, Journal of Composite Materials 40 (2006) 1117-1131
Online since: September 2013
Authors: J.X. Xue, L.L. An, Q.P. Sun
Swain: Journal of Materials Science 10(1)(1975)113–122
[3] S.
Waida: Journal of Materials Processing Technology. 48(1-4)(1995) 267–274 [11] Information on http://www.winterthurusa.net [12] C.
Cai: Key Engineering Materials. 259-260(2004) 244–248 [20] Z.B.
Holl: Journal of Materials Processing Technology. 62(4)(1996) 287–293 [25] R.
Takahashi: Journal of Materials Processing Technology. 66(1-3)(1997)18–24 [29] Y.
Waida: Journal of Materials Processing Technology. 48(1-4)(1995) 267–274 [11] Information on http://www.winterthurusa.net [12] C.
Cai: Key Engineering Materials. 259-260(2004) 244–248 [20] Z.B.
Holl: Journal of Materials Processing Technology. 62(4)(1996) 287–293 [25] R.
Takahashi: Journal of Materials Processing Technology. 66(1-3)(1997)18–24 [29] Y.
Online since: December 2013
Authors: Ding Gui Luo, Ren Zhang, Hong Guo Zhang
References
[1] Lili Li, Lingling Chi, Jianyong Yu: submitted to Journal of Shanghai Textile Science & Technology. 2010, (09): 37-38.
In Chinese [3] Qin Bi, Yuming Zhao, Yufang Xu: submitted to Journal of Environmental Science and Technology. 2012, (02): 66-68.
In Chinese [4] Jinyu Guo, Zhongbin Zhan, Qingyun Sun: submitted to Journal of China Safety Science Journal. 2008, (05): 148-153.
In Chinese [5] Gang Wen, Liyuan Cai, Dewen He: submitted to Journal of Materials and Metallurgy Journal. 2008, (02): 143-148.
In Chinese [6] Yiping Li, Yongwen Ma: submitted to Journal of Qingdao University of Science and Technology journal. 2008, (05): 467-470.
In Chinese [3] Qin Bi, Yuming Zhao, Yufang Xu: submitted to Journal of Environmental Science and Technology. 2012, (02): 66-68.
In Chinese [4] Jinyu Guo, Zhongbin Zhan, Qingyun Sun: submitted to Journal of China Safety Science Journal. 2008, (05): 148-153.
In Chinese [5] Gang Wen, Liyuan Cai, Dewen He: submitted to Journal of Materials and Metallurgy Journal. 2008, (02): 143-148.
In Chinese [6] Yiping Li, Yongwen Ma: submitted to Journal of Qingdao University of Science and Technology journal. 2008, (05): 467-470.
Online since: May 2012
Authors: Seung Hun Kim, Seong Uk Hong
Use of hollow material in deck plate can reduce slab weight and improve the performance of fixing and installing hollow material.
Light weight concrete involves shortcomings in the management of material quality and material kinetics, and waffle slab is uneconomical in that form is complicated during field installation.
Table 1 Specimen list Specimen Depth of slab, H [mm] Effective depth, dt [mm] Width of slab [mm] Depth of void forms, hvf [mm] Width of void forms [mm] Area of top bars [mm2] Area of bottom bars [mm2] SDP180 180 155 600 0 0 398.1 471 SDP200 200 173.5 600 0 0 398.1 796.2 VDP200 200 173.5 600 100 100 398.1 796.2 VDP250 250 223.5 600 150 100 398.1 796.2 Materials.
Acknowledgements This research was supported by Basic Science Research Program through the National Research Foundation of Korea (NRF) funded by the Ministry of Education, Science and Technology (KRF-2011-0026474).
References [1] Sung-Bae Kim, Jun-Yong Park, Yong-Gyo Lee, Do-Hyung Lee, and Sang-Seup Kim: Journal of AIK, Vol.27, No.5 (2011), pp. 37-44 [2] Kim, Kee-Woong Jin, Hai-Long Yun, Hyuk-Gee Park, Hae-Young Park, Sung-Soo: Journal of AIK, Vol.27, No.1 (2011), pp. 43-50 [3] ACI Committee 318: Building Code Requirements for Structural Concrete (ACI 318-08) and Commentary (ACI 318R-08) (2008)
Light weight concrete involves shortcomings in the management of material quality and material kinetics, and waffle slab is uneconomical in that form is complicated during field installation.
Table 1 Specimen list Specimen Depth of slab, H [mm] Effective depth, dt [mm] Width of slab [mm] Depth of void forms, hvf [mm] Width of void forms [mm] Area of top bars [mm2] Area of bottom bars [mm2] SDP180 180 155 600 0 0 398.1 471 SDP200 200 173.5 600 0 0 398.1 796.2 VDP200 200 173.5 600 100 100 398.1 796.2 VDP250 250 223.5 600 150 100 398.1 796.2 Materials.
Acknowledgements This research was supported by Basic Science Research Program through the National Research Foundation of Korea (NRF) funded by the Ministry of Education, Science and Technology (KRF-2011-0026474).
References [1] Sung-Bae Kim, Jun-Yong Park, Yong-Gyo Lee, Do-Hyung Lee, and Sang-Seup Kim: Journal of AIK, Vol.27, No.5 (2011), pp. 37-44 [2] Kim, Kee-Woong Jin, Hai-Long Yun, Hyuk-Gee Park, Hae-Young Park, Sung-Soo: Journal of AIK, Vol.27, No.1 (2011), pp. 43-50 [3] ACI Committee 318: Building Code Requirements for Structural Concrete (ACI 318-08) and Commentary (ACI 318R-08) (2008)
Online since: February 2012
Authors: Yi Zhang, Zhen Zhao Pei, Hong Bin Xu
-G Oh: submitted to Materials Letters (2004)
[3] J.
Gedanken: submitted to Chemistry of Materials (1997)
[9] D.Vollath, D.V.Szabó, J.O.Willis: submitted to Materials Letters (1996)
[10] L.D.Zhang, C.M.Mo, W.L.Cai, G.Chen: submitted to Nanostructured Materials (1997)
Zhang: submitted to Journal of Colloid and Interface Science(2003) .
Gedanken: submitted to Chemistry of Materials (1997)
[9] D.Vollath, D.V.Szabó, J.O.Willis: submitted to Materials Letters (1996)
[10] L.D.Zhang, C.M.Mo, W.L.Cai, G.Chen: submitted to Nanostructured Materials (1997)
Zhang: submitted to Journal of Colloid and Interface Science(2003) .