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Online since: April 2015
Authors: Yuan Sheng Yang, Tian Jiao Luo, Ji Xue Zhou, Yang De Li, Wei Rong Li, Yun Teng Liu, Hong Min Jia, Xiaohui Feng
Li, Degradation and cytotoxicity of lotus-type porous pure magnesium as potential tissue engineering scaffold material, Mater.
Forum. 419-422 (2003) 503-508
Barnett (Eds.), Advances in Wrought Magnesium Alloys, Woodhead Publishing Limited, Cambridge, UK, 2012, pp.304-319
Forum. 408-412 (2002) 263-268
Barnett (Eds.), Advances in Wrought Magnesium Alloys, Woodhead Publishing Limited, Cambridge, UK, 2012, pp.118-125.
Forum. 419-422 (2003) 503-508
Barnett (Eds.), Advances in Wrought Magnesium Alloys, Woodhead Publishing Limited, Cambridge, UK, 2012, pp.304-319
Forum. 408-412 (2002) 263-268
Barnett (Eds.), Advances in Wrought Magnesium Alloys, Woodhead Publishing Limited, Cambridge, UK, 2012, pp.118-125.
Online since: February 2004
Authors: Z. Wei, B. Zhang, Q. Jin, Diane J. Mynors, Y. Wang
Department of Systems Engineering, Brunel University, Uxbridge, Middlesex, UB8 3PH, UK.
References [1] B.Zhang, Y.Wang and Z.Wei: Advanced Technology of Plasticity 1993, Proceedings of the Fourth International Conference on Technology of Plasticity, September 5-9, 1993, Beijing China, p.1868-1973
Forum.170-172, (1994), p.167
Forum 243-245, (1997), p.315-320
References [1] B.Zhang, Y.Wang and Z.Wei: Advanced Technology of Plasticity 1993, Proceedings of the Fourth International Conference on Technology of Plasticity, September 5-9, 1993, Beijing China, p.1868-1973
Forum.170-172, (1994), p.167
Forum 243-245, (1997), p.315-320
Online since: January 2010
Authors: Tan Li
All illustrate that the second industry is this region's leading
industry due to its high proportion of advanced modern manufacturing industry together with its
continuously rapid development momentum.
Generally speaking, the increase of production factors and productive ability in the second and third industries serves as a symbol of advanced industry structure.
Changzhou has long featured in processing industry, so in its industry reconstruction, Changzhou should aim at developing modern processing industry in the first place, makes use of high technology to innovate and strengthen traditional industries such as machinery and electronic industries; and adjust structures to develop technology-intensive and exterior-oriented industries as well as strengthen the construction of its pillar industry such as power machinery, engineering machinery, power transmission and transformation equipments, and textile and clothing industries.
Fan: China Statistics (2004) No.12, p.20-21 [6]G.L.Hu: Forum of World Economics & Politics (2005) No.5, p.59-62 [7]Z.H.
Generally speaking, the increase of production factors and productive ability in the second and third industries serves as a symbol of advanced industry structure.
Changzhou has long featured in processing industry, so in its industry reconstruction, Changzhou should aim at developing modern processing industry in the first place, makes use of high technology to innovate and strengthen traditional industries such as machinery and electronic industries; and adjust structures to develop technology-intensive and exterior-oriented industries as well as strengthen the construction of its pillar industry such as power machinery, engineering machinery, power transmission and transformation equipments, and textile and clothing industries.
Fan: China Statistics (2004) No.12, p.20-21 [6]G.L.Hu: Forum of World Economics & Politics (2005) No.5, p.59-62 [7]Z.H.
Online since: October 2011
Authors: Zhen Hong Liu, Qi Yang, Xia Sheng
Woven fabric bioreactor (WFBR)as the filter material for wastewater treatment
Qi Yang1, Zhenhong Liu 1, a, Xia Sheng 1
1School of Environmental Science and Engineering, Donghua University, Shanghai 201620, China
a Corresponding author email: zhhl @dhu.edu.cn
Keywords: Membrane bioreactor; Woven; wastewater treatment.
Currently, conventional bioreactors coupled with microfiltration (MF) or ultrafiltration (UF) systems represent an advanced process for treating wastewater [1].
Forum Vol. 83-87 (1992), p. 119 [2] M.A.
Mishing, in: Diffusion Processes in Advanced Technological Materials, edtied by D.
Currently, conventional bioreactors coupled with microfiltration (MF) or ultrafiltration (UF) systems represent an advanced process for treating wastewater [1].
Forum Vol. 83-87 (1992), p. 119 [2] M.A.
Mishing, in: Diffusion Processes in Advanced Technological Materials, edtied by D.
Online since: February 2013
Authors: Zhao Li, Xin Hu, Wen Xu
New energy vehicle is refers to vehicles using unconventional fuel as power sources (or a conventional vehicle fuel with new power device), and integrates advanced technology of dynamic control and driving, a new technology, new structure of vehicle is formed.
Especially in the battery system integration technology, large-scale production process, quality and cost control, China is lagging behind the advanced technological levels in the world.
(In Chinese) [3] Yong-hua Jin: The Marketing Strategy of New Energy Vehicle in Japan: Lessons for China, Northeast Asia Forum, 2012(03):105-112.
(In Chinese) [5] Liu-Qin Chen: Research into Industrial Development of the New Energy Automobile Industry and Its Relief of Hardships, Energy Engineering, 2011(03):1-8.
Especially in the battery system integration technology, large-scale production process, quality and cost control, China is lagging behind the advanced technological levels in the world.
(In Chinese) [3] Yong-hua Jin: The Marketing Strategy of New Energy Vehicle in Japan: Lessons for China, Northeast Asia Forum, 2012(03):105-112.
(In Chinese) [5] Liu-Qin Chen: Research into Industrial Development of the New Energy Automobile Industry and Its Relief of Hardships, Energy Engineering, 2011(03):1-8.
Online since: September 2025
Authors: Won Jae Lee, Seung Jun Lee, Su Ho Kim, Jung Woo Choi, Jong Hwi Park, Jung Gyu Kim, Kap Ryeol Ku, Chae Young Lee, Ye Jin Choi, Hyong Suk Lee
High-Quality SiC Crystal Growth by Cooldown Rate Control
at Cooling Stage
Chae Young Lee1,a, Su Ho Kim1,b, Seung Jun Lee1,c, Jong Hwi Park1,d
Jung Woo Choi1,e, Hyong Suk Lee1,f, Jung Gyu Kim1,g, Kap Ryeol Ku1,h,
Ye Jin Choi2,i and Won Jae Lee2,j*
1Senic, 17-15, 4sandan 7-ro, Jiksan-eup, Seobuk-gu, Cheonan-si, Chungcheongnam-do, Korea
2Department of Advanced Materials Engineering, Dong-Eui University, 176, Eomgwang-ro, Busanjin-gu, Busan, Korea
acylee@senic.co.kr, bshkim@senic.co.kr, csjlee@senic.co.kr, djhpark@senic.co.kr, ejwchoi@senic.co.kr, fhslee@senic.co.kr, gjgkim@senic.co.kr, hkrku@senic.co.kr, idpwls9080@naver.com, jleewj@deu.ac.kr
Keywords: 6-inch SiC growth, Physical vapor transport (PVT), High-quality, cooldown rate, cooling stage.
Acknowledgements This work was supported by Technology Innovation Program (Project Number: 1415185945, Project Name: Development of next-generation power semiconductor based on Si-on-SiC structure), (Project Number: 00402234, Project Name: Development of highly flat, highly clean large area polished SiC single crystal wafers by utilizing advanced process technology for power semiconductor application) funded by the Ministry of Trade, Industry and Energy.
Forum 600 (2008) 261–266
Acknowledgements This work was supported by Technology Innovation Program (Project Number: 1415185945, Project Name: Development of next-generation power semiconductor based on Si-on-SiC structure), (Project Number: 00402234, Project Name: Development of highly flat, highly clean large area polished SiC single crystal wafers by utilizing advanced process technology for power semiconductor application) funded by the Ministry of Trade, Industry and Energy.
Forum 600 (2008) 261–266
Online since: September 2007
Authors: Tungwai Leo Ngai, Xiao Qiang Li, Yan Long, Yuan Yuan Li
Near Full Density Nano Iron-based Materials by Pulse Current Sintering
Yuanyuan LIa , Yan LONGb, Xiaoqiang LIc and Tungwai Leo NGAI
d
Guangdong Key Laboratory for Advanced Metallic Materials Fabrication and Forming,
College of Mechanical Engineering, South China University of Technology, Guangzhou,
Guangdong 510640, China
a
mehjli@scut.edu.cn, bylong@scut.edu.cn, cxqli@scut.edu.cn, ddhni@scut.edu.cn
Keywords: Nano iron-based materials; Pulse current electrical sintering; Ball milling.
Electric current sintering such as pulse electric current sintering (PECS) is an advanced powder metallurgy sintering method that can produce nanostructured materials with near full-density.
Forum, Vol 471-472 (2004), p. 225 10µm 10µm
Electric current sintering such as pulse electric current sintering (PECS) is an advanced powder metallurgy sintering method that can produce nanostructured materials with near full-density.
Forum, Vol 471-472 (2004), p. 225 10µm 10µm
Online since: March 2007
Authors: Young Hoon Chung, Kyong Hwan Lee, Jong Woo Park
Controlling the Thickness Uniformity in Equal Channel Angular
Rolling (ECAR)
Young Hoon Chung1,a , Jong woo Park1,b , Kyong Hwan Lee2
1
Advanced Metals Research Center, Korea Institute of Science and Technology,
P.O.
Box 131, Cheongryang, Seoul, 130-650, Korea 2 Dept. of Advanced Metals Science & Engineering, HONGIK University Sangsu Dong, Mapo Gu, Seoul, 121-791, Korea a yhchung@kist.re.kr, bjwpark@kist.re.kr Keywords: ECAR, shear deformation, thickness control, Al 6063 alloy, sheet metal.
Forum Vol. 396~402 (2002), p. 475 [11] Y.
Box 131, Cheongryang, Seoul, 130-650, Korea 2 Dept. of Advanced Metals Science & Engineering, HONGIK University Sangsu Dong, Mapo Gu, Seoul, 121-791, Korea a yhchung@kist.re.kr, bjwpark@kist.re.kr Keywords: ECAR, shear deformation, thickness control, Al 6063 alloy, sheet metal.
Forum Vol. 396~402 (2002), p. 475 [11] Y.
Online since: June 2011
Authors: Chun Yan Yao, Jin Sheng Wang, Wei Peng
Acknowledgment
The work was supported by National Natural Science Foundation of China (51075367), Natural Science Foundation of Zhejiang Province (Y1090931), Advanced Manufacturing Technology & Equipment Opening-Found (AMT200708-32) and the Doctoral Program of Higher Education (20070337002).
Liu: Institution of Engineering and Technology, Vol.524 (2006), pp:2347-2350 [9] C.Y.
Peng: Advanced Materials Research, V0l.24-25(2007), pp:289-294 [11] W.I.
Journal: Materials Science Forum, Vols.471-472 (2004), p.481-484
Liu: Institution of Engineering and Technology, Vol.524 (2006), pp:2347-2350 [9] C.Y.
Peng: Advanced Materials Research, V0l.24-25(2007), pp:289-294 [11] W.I.
Journal: Materials Science Forum, Vols.471-472 (2004), p.481-484
Online since: April 2015
Authors: Shi Zhong Liu, Xiao Guang Wang, Zhen Xue Shi, Jia Rong Li
Materials Science and Engineering A, 527 (2010) p. 5528
[8] J.J.
Materials Science and Engineering A, 262(1999), p.271 [17] Y.
Materials Engineering, 1(2004), p.3
Materials Engineering, 7(2006), p. 43
Zhao, Rare Metal Materials and Engineering, 39(2010), p.1334.
Materials Science and Engineering A, 262(1999), p.271 [17] Y.
Materials Engineering, 1(2004), p.3
Materials Engineering, 7(2006), p. 43
Zhao, Rare Metal Materials and Engineering, 39(2010), p.1334.