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Online since: February 2012
Authors: Shou Wen Ji, Yan Tao Dong, Qing Xia Xie
(1)
Table 1 Performance Evaluation Index System of Green Supply Chain in Electronic Industry Table 2 Evaluation Index Data of Green Supply Chain in Electronic Industry
first-level indicators
second-
level indicators’ codes
second-level indicators
financial level
C1
C11
rate of return on total assets investment
C12
profit growth
C13
asset-liability ratio
C14
sales growth
C15
return on equity
business implementation
C2
C21
rate of product quality
C22
rate of production capacity
C23
supply chain information sharing rate
C24
the proportion of orders waiting
C25
on-time delivery rate
C26
electronics recovery
C27
recycling of electronic products yield
customer service level
C3
C31
electronic product return rate
C32
custom electronic product ratio
C33
market share
C34
order wait time
C35
utilization of raw materials
C36
repair time
C37
customer complaint
response time C38 rate of qualified products development ability C4 C41 information technology investment rate C42 market forecast accuracy C43 R&D investment rate C44 new product output growth C45 new products yield C46 frequency of new product development C47 the proportion of researchers green degrees C5 C51 emissions C52 pollution control rates C53 utilization of resource recovery C54 utilization of materials C55 the proportion of R&D investment C56 utilization of green technology C57 electronics enterprises green culture C58 electronics product green reputation First level Second level Lowest Value Appro-priate Value Highest Value Actual Value C1 C11 3% — 13% 4.36% C12 8% — 65% 37.4% C13 30% 50% 80% 62.8% C14 13% — 85% 53.6% C15 2% — 6% 3.28% C2 C21 5% — 25% 13.7% C22 7% — 18% 9.5% C23 62% — 96% 87.6% C24 12% 23% 34% 18.3% C25 62% — 94% 74.6% C26 16% — 42% 27.8% C27 6% — 27% 15.3% C3 C31 2% — 6% 3.6% C32 18% — 45% 27.2% C33 3% — 40% 14.8% C34 63% — 94% 89.3% C35 5 d — 21 d
Journal of Tongji University, 2002, 30(4): 495-499.In Chinese
Journal of Chongqing University(Natural Science Edition), 2003(11): 155-158.
response time C38 rate of qualified products development ability C4 C41 information technology investment rate C42 market forecast accuracy C43 R&D investment rate C44 new product output growth C45 new products yield C46 frequency of new product development C47 the proportion of researchers green degrees C5 C51 emissions C52 pollution control rates C53 utilization of resource recovery C54 utilization of materials C55 the proportion of R&D investment C56 utilization of green technology C57 electronics enterprises green culture C58 electronics product green reputation First level Second level Lowest Value Appro-priate Value Highest Value Actual Value C1 C11 3% — 13% 4.36% C12 8% — 65% 37.4% C13 30% 50% 80% 62.8% C14 13% — 85% 53.6% C15 2% — 6% 3.28% C2 C21 5% — 25% 13.7% C22 7% — 18% 9.5% C23 62% — 96% 87.6% C24 12% 23% 34% 18.3% C25 62% — 94% 74.6% C26 16% — 42% 27.8% C27 6% — 27% 15.3% C3 C31 2% — 6% 3.6% C32 18% — 45% 27.2% C33 3% — 40% 14.8% C34 63% — 94% 89.3% C35 5 d — 21 d
Journal of Tongji University, 2002, 30(4): 495-499.In Chinese
Journal of Chongqing University(Natural Science Edition), 2003(11): 155-158.
Online since: March 2004
Authors: K. Kusumoto, Wu Xue, Kikuo Nezu
Introduction
Plasma arc cutting process, in which a transferred arc burning between an electrode and a workpiece cuts
off base metal by the dual effects of melting and vaporizing, is a thermal cutting method mainly suitable
for metallic materials.
This means of cutting has recently found growing applications in manufacturing industries, due to its unique advantages, such as fast cutting speed, heavy cutting capacity, being capable of cutting various materials and a narrower cut in addition to lower cost [1].
Ariyasu: Journal of High Temperature Society, Vol.8 (1982), P198
Arata: Quarterly Journal of the Japan Eliding Society, Vol.2 (1984), P157
Ma: Acoustic Handbook (Science publisher, Beijing1983).
This means of cutting has recently found growing applications in manufacturing industries, due to its unique advantages, such as fast cutting speed, heavy cutting capacity, being capable of cutting various materials and a narrower cut in addition to lower cost [1].
Ariyasu: Journal of High Temperature Society, Vol.8 (1982), P198
Arata: Quarterly Journal of the Japan Eliding Society, Vol.2 (1984), P157
Ma: Acoustic Handbook (Science publisher, Beijing1983).
Online since: June 2013
Authors: Anatolijs Melnikovs, Alexander Boyko, Alexander Janushevskis
Photos of shaped pad of barrel: a) new; b) cracked; c) with repaired transversal seam
The barrel material is steel grade Вст3 (yield strength 245 MPa, ultimate strength 390 MPa).
Acknowledgements Travel costs and participation fee for this conference are financially supported by ERDF project „The development of international cooperation, projects and capacities in science and technology at Riga Technical University” Nr.2DP/2.1.1.2.0/10/APIA/VIAA/003.
Key Engineering Materials. 2006, Vol. 306/308, pp. 211-216
Scientific Journal of RTU: Transport and Engineering.
Journal of Vibroengineering.
Acknowledgements Travel costs and participation fee for this conference are financially supported by ERDF project „The development of international cooperation, projects and capacities in science and technology at Riga Technical University” Nr.2DP/2.1.1.2.0/10/APIA/VIAA/003.
Key Engineering Materials. 2006, Vol. 306/308, pp. 211-216
Scientific Journal of RTU: Transport and Engineering.
Journal of Vibroengineering.
Online since: September 2011
Authors: Yu Ying Sun, Shu Jun Wang, Ji Quan Zhang
S-1
Yuying SUN1,a, Shujun WANG1,b,Jiquan ZHANG2,c*
1Jiangsu Key Laboratory of Marine Biotechnology,Huaihai Institute of Technology,Lianyungang, China
2Key Lab of Experimental Marine Biology,Institute of Oceanology, Chinese Academy of Sciences,Qingdao, China
*Corresponding author
asunyuying@163.com; bshujunwang86@163.com;czhangjiquan@qdio.ac.cn
Keywords:Chitosanase; Bacillus; recombinant expression; chitooligosaccharides
Abstract.In this work, we report the characterization of a chitosanase-producing bacterium isolated from soil.
II.Materials and Methods A.
Lee, “A simple method for DNA extraction from marine bacteria that produce extracellular materials,” Journal of Microbiological Methods, vol 52, Issue 2, Feb. 2003, pp 245-250, doi:10.1016/S0167-7012(02)00180-X
Xiang,”Cloning, expression and identification of ferritin from Chinese shrimp, Fenneropenaeus chinensis,” Journal of Biotechnology, vol 1, Sep. 2006, pp 173-184, doi:10.1016/j.jbiotec.2006.03.010
II.Materials and Methods A.
Lee, “A simple method for DNA extraction from marine bacteria that produce extracellular materials,” Journal of Microbiological Methods, vol 52, Issue 2, Feb. 2003, pp 245-250, doi:10.1016/S0167-7012(02)00180-X
Xiang,”Cloning, expression and identification of ferritin from Chinese shrimp, Fenneropenaeus chinensis,” Journal of Biotechnology, vol 1, Sep. 2006, pp 173-184, doi:10.1016/j.jbiotec.2006.03.010
Online since: September 2014
Authors: Xue Mao Guan, Li Xin Li, Jun Liang Zhao
First-principles calculations of energy band for wurtzite ZnO under uniaxial loading along [0001] direction
Li-xin Li 1,a, Jun-liang Zhao2 & Xue-Mao Guan1
1School of Materials Science and Engineering,Henan Polytechnic University,Jiaozuo,454000,China
2Development and planning department, Henan Polytechnic University, Jiaozuo, 454000, China
a Corresponding author.
Acknowledgments: Supported by the Opening Project of Henan Key Discipline Open Laboratory of Mining Engineering Materials(MEMB-06) References [1] Z.
Journal of Crystal Growth, Vol.275(2005),p.2439
Szadkowski: Journal of Alloys and Compounds, Vol.371(2004),p.150
Acknowledgments: Supported by the Opening Project of Henan Key Discipline Open Laboratory of Mining Engineering Materials(MEMB-06) References [1] Z.
Journal of Crystal Growth, Vol.275(2005),p.2439
Szadkowski: Journal of Alloys and Compounds, Vol.371(2004),p.150
Online since: January 2012
Authors: Jan Van Humbeeck, E. Cesari, S. Kustov
Comments on experimental techniques and materials
Results presented in this contribution have been obtained by two different methods: i) dynamic mechanical analysis (TA-instruments DMA Q800) and ii) a piezoelectric composite oscillator technique [3].
Van Humbeeck: Materials Science Forum Vol. 583 (2008), p. 85
Gremaud, Journal de Physique, Sup. 12 : Tome 48, (1987), p.
Gotthard, Journal de Physique, Sup. 12: Tome 43 (1982), p.
Van Humbeeck: Materials Science Forum Vol. 583 (2008), p. 85
Gremaud, Journal de Physique, Sup. 12 : Tome 48, (1987), p.
Gotthard, Journal de Physique, Sup. 12: Tome 43 (1982), p.
Online since: September 2018
Authors: Ling Hua Zhang, Yi Min Zhu, Wei Feng Liu, Xue Wei Li, Wen Bo Dong, Le Bo
Materials and Methods
Materials.
(China) Vol. 34 (2015), p. 487 - 494 [2] I Jamil, R Jamil: International Journal of Innovation & Applied Studies Vol. 4 (2013), p. 286 - 297 [3] L Y.
Industry Vol. 46 (2014), p. 49 - 51 [11] National Environmental Protection Agency of China, in: Water and Wastewater Monitoring and Analysis Method (the Fourth Edition) edtied by China Environmental Science Press Publications (2004), p. 286 - 401 in press [12] Y L.
Hou: Journal. of.
(China) Vol. 34 (2015), p. 487 - 494 [2] I Jamil, R Jamil: International Journal of Innovation & Applied Studies Vol. 4 (2013), p. 286 - 297 [3] L Y.
Industry Vol. 46 (2014), p. 49 - 51 [11] National Environmental Protection Agency of China, in: Water and Wastewater Monitoring and Analysis Method (the Fourth Edition) edtied by China Environmental Science Press Publications (2004), p. 286 - 401 in press [12] Y L.
Hou: Journal. of.
Online since: March 2010
Authors: Bing Yan, Run Hua Tan, Su Chang Ma, Ping Liu
It is a new kind of
regenerated green packaging material products in the modern packaging field.
It can replace wood and plastics in the packaging transport field and has nicer application prospect in the buffer material and building fields [1].
The market of this kind of green environmental protection packing materials is open therefore.
Acknowledgement This research is supported by National Natural Science Foundation of China (No.70972050).
TRIZ Journal, (1998), http://www. triz -journal.com [4] R.H.
It can replace wood and plastics in the packaging transport field and has nicer application prospect in the buffer material and building fields [1].
The market of this kind of green environmental protection packing materials is open therefore.
Acknowledgement This research is supported by National Natural Science Foundation of China (No.70972050).
TRIZ Journal, (1998), http://www. triz -journal.com [4] R.H.
Online since: June 2013
Authors: Mohamed Oussalem Mechiche, Farid Chalah, Ali Bouheraoua, Ourida Hellal, Abderrahim Bali
The λ coefficient values take successively the following values:
le :multiplier coefficient for which the fy elastic limit of the material is reached at a certain node of the structure.
The ductility of a material or a structural element is the ability to elongate in the plastic range, without breaking or losing strength.
References [1] Rossi P.P., Lombardo A.: Influence of the link overstrength factor on the seismic behaviour of eccentrically braced frames, Journal of Constructional Steel Research, Vol. 63 (2007), p.1529
[5] Plumier A.: Sei0smic design of structures, Applied sciences faculty of Liège, 2003
Performance-Based Design of Eccentrically Braced Frames Using Target Drift and Yield Mechanism, AISC Engineering Journal, American Institute of Steel Construction, p.173, 2006
The ductility of a material or a structural element is the ability to elongate in the plastic range, without breaking or losing strength.
References [1] Rossi P.P., Lombardo A.: Influence of the link overstrength factor on the seismic behaviour of eccentrically braced frames, Journal of Constructional Steel Research, Vol. 63 (2007), p.1529
[5] Plumier A.: Sei0smic design of structures, Applied sciences faculty of Liège, 2003
Performance-Based Design of Eccentrically Braced Frames Using Target Drift and Yield Mechanism, AISC Engineering Journal, American Institute of Steel Construction, p.173, 2006