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Online since: January 2013
Authors: Zhong Qi Dong, Jun Li Jia, Jian Lu Yuan, Ti Wen Han
Study on Mechanical Properties of AH32 Opened Plate
Junli Jia1, a, Zhongqi Dong 1, 2, b, Jianlu Yuan 1, c, Tiwen Han 1d
1Hebei College of Industry and Technology, Shijiazhuang 050091, China
2College of Materials Science and Engineering, Taiyuan University of technology, Taiyuan 030024, China
ahbgyjjl@163.com,bdongzhongqi@yahoo.com.cn,cyuanjianlu5026@163.com,
dhantiwen@163. com
Key words: AH32; ship plate steel; mechanical property
Abstract.
Materials Science and Engineeting A.433 (2006)169-174
Journal of Iron and Steel Research. 23 (2011)58- 66
Materials Science and Engineeting A.433 (2006)169-174
Journal of Iron and Steel Research. 23 (2011)58- 66
Online since: July 2014
Authors: Shyh Chour Huang, Minh Phu Huynh
Development of A Marine Self-balancing Table with Two-axis Motion Control System
Minh-Phu Huynh1,a, Shyh-Chour Huang2,b
1,2Department of Mechanical Engineering, National Kaohsiung University of Applied Sciences
Kaohsiung, Taiwan, R.O.C.
Acknowledgements The authors acknowledge and thank the National Science Council of the Republic of China for their financial support of this study under Contract Number: NSC 100-2622-E-151 -018 -CC3.
Zhang: Advanced Materials Research Vol. 591-593 (2012), p. 679 [3] M.P.
Huang: Applied Mechanics and Materials Vol. 418 (2013), p. 242 [4] C.T.
Parnichkun: International Journal of Advanced Robotic Systems Vol. 5 (2008), p. 395
Acknowledgements The authors acknowledge and thank the National Science Council of the Republic of China for their financial support of this study under Contract Number: NSC 100-2622-E-151 -018 -CC3.
Zhang: Advanced Materials Research Vol. 591-593 (2012), p. 679 [3] M.P.
Huang: Applied Mechanics and Materials Vol. 418 (2013), p. 242 [4] C.T.
Parnichkun: International Journal of Advanced Robotic Systems Vol. 5 (2008), p. 395
Online since: March 2015
Authors: Maria Shorikova, Alexander Tavlintsev
Acknowledgements
This work was financially supported by the Science Laboratory “Smart Grid” of the Ural Federal University named after the first President of Russia B.N.
Yeltsin and the Ministry of Education and Science of the Russian Federation (in the framework of state assignment).
Overbye, “Effects of load modelling on analysis of power system voltage stability,” International Journal of Electrical Power & Energy Systems, 1994, 16–329
[7] Oboskalov, V.P., Kirpikova, I.L., Matugova S.S., Gusev, S.A. , Supplieddemandtechniquefor power systembalancereliabilitycalculation, Advanced Materials Research, Volume 960-961, 2014, Pages 1512-1515, DOI: 10.4028/www.scientific.net/AMR.960-961.1512
[10] Yuferev, S., Accountingthesecond derivatives in the power flowcalculation, Advanced Materials Research, Volume 960-961, 2014, Pages 1013-1016, DOI: 10.4028/www.scientific.net/AMR.960-961.1013.
Yeltsin and the Ministry of Education and Science of the Russian Federation (in the framework of state assignment).
Overbye, “Effects of load modelling on analysis of power system voltage stability,” International Journal of Electrical Power & Energy Systems, 1994, 16–329
[7] Oboskalov, V.P., Kirpikova, I.L., Matugova S.S., Gusev, S.A. , Supplieddemandtechniquefor power systembalancereliabilitycalculation, Advanced Materials Research, Volume 960-961, 2014, Pages 1512-1515, DOI: 10.4028/www.scientific.net/AMR.960-961.1512
[10] Yuferev, S., Accountingthesecond derivatives in the power flowcalculation, Advanced Materials Research, Volume 960-961, 2014, Pages 1013-1016, DOI: 10.4028/www.scientific.net/AMR.960-961.1013.
Online since: December 2012
Authors: Yan Feng Liu, Yan Ping Ma, Gui Hong Zuo, You Jin Zheng, Chun Lei Wu, Li Ping Zhao, Si Nian Fu, Qiang Zhu
Effect of additive Sm2O3 on synthesizing AlN ceramics
at high pressure
GuiHong Zuo a, Youjin Zheng b, Qiang Zhu c , Yanfeng Liud, Chunlei Wu e, LiPing Zhaof, SiNian Fug and hYanping Ma
Mudanjiang Normal University, Key laboratory of New Carbon-base Functional and Superhard Material, Mudanjiang 157012, China
azuoguihongmsy@163.com , bzyjmsy@163.com,czhuqiang1963@163.com , dyanfengliu88@126.com , ewuchunlei301@163.com , fl.p.zhao@163.com
gfusinian6334569@126.com, h553591280@qq.com
Keywords: AlN ceramics, High pressure, Sintering time
Abstract.
Introduction Aluminium nitride (AlN) is considered to be a promising material for electronic substrates and packaging because of its high thermal conductivity, low dielectric constant and low thermal expansion, matching that of silicon [1-3].
Sintering of ceramic materials at high pressure can compact the powder of green density and increase the contact area of powders, which shorten sintering time.
Acknowledgements This work was financially supported by the Education Department of Heilongjiang province science and technology project (11551518), the Science Foundation of Mudanjiang Normal University (QC200905).
[9] Komeya K, Inoue H, Tsuge A, Journal of the Ceramic Society of Japan Vol.108 (2000),p.93-100 [10] Miao W G, Wu Y,Zhou H P: J Mater Sci Lett, Vol. 16 (1997), p.1245-1246
Introduction Aluminium nitride (AlN) is considered to be a promising material for electronic substrates and packaging because of its high thermal conductivity, low dielectric constant and low thermal expansion, matching that of silicon [1-3].
Sintering of ceramic materials at high pressure can compact the powder of green density and increase the contact area of powders, which shorten sintering time.
Acknowledgements This work was financially supported by the Education Department of Heilongjiang province science and technology project (11551518), the Science Foundation of Mudanjiang Normal University (QC200905).
[9] Komeya K, Inoue H, Tsuge A, Journal of the Ceramic Society of Japan Vol.108 (2000),p.93-100 [10] Miao W G, Wu Y,Zhou H P: J Mater Sci Lett, Vol. 16 (1997), p.1245-1246
Online since: March 2019
Authors: Thanh Quang Nguyen
One of the most important criteria that chassis manufacturers consider during the design process is structural integrity: preventing failure while optimizing the use of materials.
Property of material ASTM A710 Steel, grade A, class 2, 6.4 - 25 mm inclusive for chassis as Table 3 [1].
The maximum stress on the chassis in both cases is smaller than the material's destruction limit of 380 MPa.
References [1] A.Hari Kumar, V.Deepanjali, (January 2016), Design & analysis of automobile chassis, International Journal of Engineering Science and Innovative Technology (IJESIT), Volume 5, Issue 1, January 2016
Patel, (May 2012), Structural Analysis of Automotive Chassis Frame and Design Modification for Weight Reduction, International Journal of Engineering Research & Technology (IJERT)
Property of material ASTM A710 Steel, grade A, class 2, 6.4 - 25 mm inclusive for chassis as Table 3 [1].
The maximum stress on the chassis in both cases is smaller than the material's destruction limit of 380 MPa.
References [1] A.Hari Kumar, V.Deepanjali, (January 2016), Design & analysis of automobile chassis, International Journal of Engineering Science and Innovative Technology (IJESIT), Volume 5, Issue 1, January 2016
Patel, (May 2012), Structural Analysis of Automotive Chassis Frame and Design Modification for Weight Reduction, International Journal of Engineering Research & Technology (IJERT)
Online since: December 2010
Authors: Cheng Wen Wang, Rui He Wang, Rong Chao Cheng, Er Ding Chen
Alkaline metal salt is one of the conventionally employed materials for accelerator, especially the sodium salt and potash salt.
Materials Experimental materials include self-made lithium salt accelerator, Shengwei class-G cement (provided by Shengli Huanghe Cementing Corp.), calcium chloride, absolute ethyl alcohol and acetone (analytic pure, produced by China Pharmaceutical Group Shanghai Branch) (Tab. 1).
(In Chinese) [3] Wang C W, Wang R H and Bu Y H: Journal of China University of Petroleum: Edition of Natural Science, Vol. 32 (2008), p. 77-81.
Patent 6,955,220. (2005) [7] Yu C J, Mo X Y and Deng M: Journal of Southeast University (Natural Science Edition), Vol. 39 (2009), p. 127-130.
Erik: Well Cementing (Schlumberger Educational Services, Netherlands, 1990) [12] Double D D, Hellawell A: Nature, Vol. 261 (1976), p. 486-488 [13] Lu P, Zhai J P and Nie R : Journal of the Chinese Ceramic Society, Vol. 32 (2004), p. 530-536.
Materials Experimental materials include self-made lithium salt accelerator, Shengwei class-G cement (provided by Shengli Huanghe Cementing Corp.), calcium chloride, absolute ethyl alcohol and acetone (analytic pure, produced by China Pharmaceutical Group Shanghai Branch) (Tab. 1).
(In Chinese) [3] Wang C W, Wang R H and Bu Y H: Journal of China University of Petroleum: Edition of Natural Science, Vol. 32 (2008), p. 77-81.
Patent 6,955,220. (2005) [7] Yu C J, Mo X Y and Deng M: Journal of Southeast University (Natural Science Edition), Vol. 39 (2009), p. 127-130.
Erik: Well Cementing (Schlumberger Educational Services, Netherlands, 1990) [12] Double D D, Hellawell A: Nature, Vol. 261 (1976), p. 486-488 [13] Lu P, Zhai J P and Nie R : Journal of the Chinese Ceramic Society, Vol. 32 (2004), p. 530-536.
Online since: August 2013
Authors: Wei Zhang, Jin Zhong Xie
Materials and methods
Experimental Materials.
Control and treatment both had three repeats, each containing four seedlings, the sample were frozen in liquid nitrogen, wrapped tightly with aluminum foil, and stored at -80 ºC as test materials to measure physical and chemical characteristics.
Journal of Bamboo Research, Vol.25(2006), p.10-14(in Chinese)
Guh: Journal of the American Society for Horticultural Science, Vol.128(2003), p.661
[12] P.Wang, C.Zhang, G.Chen: Chinese Journal of Rice Science, Vol.20(2006), p.401 (in Chinese).
Control and treatment both had three repeats, each containing four seedlings, the sample were frozen in liquid nitrogen, wrapped tightly with aluminum foil, and stored at -80 ºC as test materials to measure physical and chemical characteristics.
Journal of Bamboo Research, Vol.25(2006), p.10-14(in Chinese)
Guh: Journal of the American Society for Horticultural Science, Vol.128(2003), p.661
[12] P.Wang, C.Zhang, G.Chen: Chinese Journal of Rice Science, Vol.20(2006), p.401 (in Chinese).
Online since: October 2014
Authors: Shu Chi Huang, Shyan Lung Chung
Phosphors are essential materials for the fabrication of the LED lighting devices and their properties significantly affect the performance of the devices.
However, the methods that have been developed for synthesis of the nitride phosphors mostly suffer from either severe synthesis conditions or involving the use of moisture or oxygen sensitive starting materials.
The SHS method, originally developed in the former USSR, has been applied to synthesis of various high-temperature materials including ceramics, intermetallics, and composites.
Hong, “Red-Emitting (Sr,Ca)AlSiN3:Eu2+ Phosphors Synthesized by Spark Plasma Sintering,” ECS Journal of Solid State Science and Technology. 2 (2) (2013) R3021-R3025
Hintzena,” Photoluminescence Properties of Red-Emitting Mn2+-Activated CaAlSiN3 Phosphor for White-LEDs,” ECS Journal of Solid State Science and Technology. 2 (4) (2013) R70-R75
However, the methods that have been developed for synthesis of the nitride phosphors mostly suffer from either severe synthesis conditions or involving the use of moisture or oxygen sensitive starting materials.
The SHS method, originally developed in the former USSR, has been applied to synthesis of various high-temperature materials including ceramics, intermetallics, and composites.
Hong, “Red-Emitting (Sr,Ca)AlSiN3:Eu2+ Phosphors Synthesized by Spark Plasma Sintering,” ECS Journal of Solid State Science and Technology. 2 (2) (2013) R3021-R3025
Hintzena,” Photoluminescence Properties of Red-Emitting Mn2+-Activated CaAlSiN3 Phosphor for White-LEDs,” ECS Journal of Solid State Science and Technology. 2 (4) (2013) R70-R75
Online since: May 2012
Authors: Yi Xiao, Ke Yin
Materials and Methods
Study Area.
Acknowledgements This work was financially supported by the humanity and social science fund of ministry of education (11YJA790144).
Research on land-use change in Hexi Corridor from 1995 to 2000 [J] .Journal of Natural Resources, 2003, 18 (6): 645-651 (in Chinese)
Journal of Mountain Science, 2005, 2(2):116-128 [5] Costanza R, d’Arge R, de Groot, et al.
Journal of Natural Resources, 2003, 18(2): 189-196(in Chinese).
Acknowledgements This work was financially supported by the humanity and social science fund of ministry of education (11YJA790144).
Research on land-use change in Hexi Corridor from 1995 to 2000 [J] .Journal of Natural Resources, 2003, 18 (6): 645-651 (in Chinese)
Journal of Mountain Science, 2005, 2(2):116-128 [5] Costanza R, d’Arge R, de Groot, et al.
Journal of Natural Resources, 2003, 18(2): 189-196(in Chinese).
Online since: December 2010
Authors: Li Jun Liu, Sheng Qing Li, En Dong Zu
Identification of Rhinoceros Horn and its Substitutes
Li Shengqinga, Zu Endongb and Liu Lijun
Faculty of Material Science and Engineering, Kunming University of Science and Technology, Kunming 650093, People’s Republic of China
a lishengqing@hotmail.com, b zend1000@hotmail.com
Keywords: Rhinoceros horn; Substitutes; Infrared spectroscopy; Identification.
He: Academic Journal of Guangdong College of Pharmacy Vol. 19 (2003), p.97
Bao: Journal of Jilin Agricultural University Vol. 20 (1998), p.60
Ding: Jorunal of Chinese Medicinal Materials Vol. 31 (2008), p.813
He: Academic Journal of Guangdong College of Pharmacy Vol. 19 (2003), p.97
Bao: Journal of Jilin Agricultural University Vol. 20 (1998), p.60
Ding: Jorunal of Chinese Medicinal Materials Vol. 31 (2008), p.813