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Online since: March 2013
Authors: Qiang Li, Dan Yu Jiang, Chang Tian Huan, Ge Ming Liu
China
2Shanghai Institute of Ceramics, Chinese Academy of Sciences, Shanghai, 200050, P.R.
Bonding materials uses the mixture of Al-Si glass and zirconia with different proportions in Table 1, plus appropriate amount of organic solvent terpineol, homogeneously mixed.
Wang, Joining of zirconia to zirconia using Ag-Cu-Ti filler metal, Journal of Materials Processing Technology .52 (1995) 238-247
Huang, Research progress of joining of silicon nitride based materials, JOURNAL OF CERAMICS.23(2002) 130-133
Yuan, Progress in joining of silicon nitride ceramics, JOURNAL OF CERAMICS.20 (1999) 235-239.
Bonding materials uses the mixture of Al-Si glass and zirconia with different proportions in Table 1, plus appropriate amount of organic solvent terpineol, homogeneously mixed.
Wang, Joining of zirconia to zirconia using Ag-Cu-Ti filler metal, Journal of Materials Processing Technology .52 (1995) 238-247
Huang, Research progress of joining of silicon nitride based materials, JOURNAL OF CERAMICS.23(2002) 130-133
Yuan, Progress in joining of silicon nitride ceramics, JOURNAL OF CERAMICS.20 (1999) 235-239.
Online since: February 2012
Authors: Jun Hua, Hai Ying Yu, Xi Chen
The moisture content level is about 10% after the materials are mixed together.
Acknowledgment Financial support for this study is from Harbin Science and Technology Council, Special Funds for The Creative Talents of Science and Technology Research Project (2010RFXXG005).
Science Press,Beijing 2010)
[4] LUO R C, LIN M, SCHERP R S: IEEE Journal of Robotics and Automation, 1988, 4 (4), pp. 386–396
[5] SONG Kaichen, NIE Xili: Chinese Journal of Mechanical Engineering, 2006, 19(3), pp. 451–454.
Acknowledgment Financial support for this study is from Harbin Science and Technology Council, Special Funds for The Creative Talents of Science and Technology Research Project (2010RFXXG005).
Science Press,Beijing 2010)
[4] LUO R C, LIN M, SCHERP R S: IEEE Journal of Robotics and Automation, 1988, 4 (4), pp. 386–396
[5] SONG Kaichen, NIE Xili: Chinese Journal of Mechanical Engineering, 2006, 19(3), pp. 451–454.
Online since: February 2013
Authors: Chang Zhi Wei
The substrate material is Si and six PZT-4 piezoelectric ceramics are placed on the top channel wall.
In order to produce pure traveling wave, the suitable substrate material and energy-absorbing material can be considered [3].
Acknowledgements This work was financially supported by China National Natural Science Foundation (51075243).
European Journal of Pharmaceutical Sciences, 2003, 20(3):149-171 [2] YIN F, FUNG Y C.
Journal of Fluids Mechanics, 1971, 47: 93–112 [3] YOSEPH B C, ZEN S C.
In order to produce pure traveling wave, the suitable substrate material and energy-absorbing material can be considered [3].
Acknowledgements This work was financially supported by China National Natural Science Foundation (51075243).
European Journal of Pharmaceutical Sciences, 2003, 20(3):149-171 [2] YIN F, FUNG Y C.
Journal of Fluids Mechanics, 1971, 47: 93–112 [3] YOSEPH B C, ZEN S C.
Online since: June 2014
Authors: Pascal Mognol, Jean Yves Hascoet, Benoit Rosa
Laser polishing is a finishing process based on melting material, with the objective of improving surface topography.
With the surfaces tensions, the molten material flow is reallocated into cavities in order to smooth the initial topography (Fig. 1).
Etayo, and D. del Pozo, “Laser Polishing Operation for Die and Moulds Finishing” Advanced Materials Research, vol. 83–86, pp. 818–825, Dec. 2009
Khomich, “UV laser polishing of thick diamond films for IR windows,” Applied Surface Science, Vol. 138-139, pp. 135–139, Jan. 1999
Arana, “Laser polishing of parts built up by selective laser sintering,” International Journal of Machine Tools and Manufacture, vol. 47, no. 12–13, pp. 2040–2050, Oct. 2007
With the surfaces tensions, the molten material flow is reallocated into cavities in order to smooth the initial topography (Fig. 1).
Etayo, and D. del Pozo, “Laser Polishing Operation for Die and Moulds Finishing” Advanced Materials Research, vol. 83–86, pp. 818–825, Dec. 2009
Khomich, “UV laser polishing of thick diamond films for IR windows,” Applied Surface Science, Vol. 138-139, pp. 135–139, Jan. 1999
Arana, “Laser polishing of parts built up by selective laser sintering,” International Journal of Machine Tools and Manufacture, vol. 47, no. 12–13, pp. 2040–2050, Oct. 2007
Online since: August 2010
Authors: Ai Xi Sun, Guo Bin Gong, Qi Lin Shu
The design model is generated by subtracting depression features
corresponding to the material to be removed by machining operations from the stock [8].
Journal of Computing and Information Science in Engineering, Vol.7, No.3, 283-291, 2007
[3] ISO/TC184/SC1.ISO/DIS14649-1:Overview and fundamental principles, http://erc-aci.snu.ac.kr/STEP-NC/Materials/one-sided DIS14649-1.2006.1
Toward interoperable CNC manufacturing, International Journal of Computer Integrated Manufacturing, Vol. 21, No. 2, March 2008, 222-230 [8] S.
KILIC, STEP-based feature modeler for computer-aided process planning, International Journal of Production Research, Vol. 43, No. 15, 1 August 2005, 3087-3101
Journal of Computing and Information Science in Engineering, Vol.7, No.3, 283-291, 2007
[3] ISO/TC184/SC1.ISO/DIS14649-1:Overview and fundamental principles, http://erc-aci.snu.ac.kr/STEP-NC/Materials/one-sided DIS14649-1.2006.1
Toward interoperable CNC manufacturing, International Journal of Computer Integrated Manufacturing, Vol. 21, No. 2, March 2008, 222-230 [8] S.
KILIC, STEP-based feature modeler for computer-aided process planning, International Journal of Production Research, Vol. 43, No. 15, 1 August 2005, 3087-3101
Online since: January 2014
Authors: Dian Lei Liu, Qiong Hao, Qing Yang, Sheng Wang, Rui Rui Li, Pi Wu Li
GOD is widely used in the determination of free glucose in body fluids, in vegetal raw material and in the food industry[2].
Table 1 Codes of all the samples MBAA:GAM/MBAA 20%(wt%) 30%(wt%) 40%(wt%) 50%(wt%) 1.0 1.0FGM(20) 1.0FGM(30) 1.0FGM(40) 1.0FGM(50) 1.5 1.5FGM(20) 1.5FGM(30) 1.5FGM(40) 1.5FGM(50) 2.0 2.0FGM(20) 2.0FGM(30) 2.0FGM(40) 2.0FGM(50) 2.5 2.5FGM(20) 2.5FGM(30) 2.5FGM(40) 2.5FGM(50) Materials characterization The amount of oxiranein FGM was determined according to the reference[10]: E=(V1-V2)×C/10M, (V1 and V2 are the amount of NaOH solution consumed in black group and experimental group, C is the concentration of NaOH solution, M is the weight of sample).
Inter-national Journal of Food Microbiology, 1997, 38: 169-179
Production and application of glucose oxidase [J].Food Science and Technology, 2007,24(6):24-26
Reseach Progress of Carriers with Epoxy Groups in Enzymes Immobilization [J].Journal of Shandong Polytechnic University, 2012,26(3):40-43
Table 1 Codes of all the samples MBAA:GAM/MBAA 20%(wt%) 30%(wt%) 40%(wt%) 50%(wt%) 1.0 1.0FGM(20) 1.0FGM(30) 1.0FGM(40) 1.0FGM(50) 1.5 1.5FGM(20) 1.5FGM(30) 1.5FGM(40) 1.5FGM(50) 2.0 2.0FGM(20) 2.0FGM(30) 2.0FGM(40) 2.0FGM(50) 2.5 2.5FGM(20) 2.5FGM(30) 2.5FGM(40) 2.5FGM(50) Materials characterization The amount of oxiranein FGM was determined according to the reference[10]: E=(V1-V2)×C/10M, (V1 and V2 are the amount of NaOH solution consumed in black group and experimental group, C is the concentration of NaOH solution, M is the weight of sample).
Inter-national Journal of Food Microbiology, 1997, 38: 169-179
Production and application of glucose oxidase [J].Food Science and Technology, 2007,24(6):24-26
Reseach Progress of Carriers with Epoxy Groups in Enzymes Immobilization [J].Journal of Shandong Polytechnic University, 2012,26(3):40-43
Online since: October 2010
Authors: Yi Jun Zhou
The
direction of the branch crystal related to the organization of the material.
Manna: Materials Science and Engineering A, Vol. 385 (2004), pp.113-122 [2] M.
Pitz.: Journal of Materials Processing Technology, Vol.151 (2004), pp.3-11 [3] Y.
International Journal of Machine Tools & Manufacture, 2004,44:1619~1628 [7] Y.
Zhang, W.M.You, et al: Chinese Journal of Lasers, Vol.35 (2008), No.6, pp.937-942
Manna: Materials Science and Engineering A, Vol. 385 (2004), pp.113-122 [2] M.
Pitz.: Journal of Materials Processing Technology, Vol.151 (2004), pp.3-11 [3] Y.
International Journal of Machine Tools & Manufacture, 2004,44:1619~1628 [7] Y.
Zhang, W.M.You, et al: Chinese Journal of Lasers, Vol.35 (2008), No.6, pp.937-942
Risk Matrix for Factors Affecting Time Delay in Road Construction Projects: Consultants’ Perspective
Online since: December 2011
Authors: Ibrahim Mahamid
Risk matrix for factors under managerial group
Factors
Impact
Probability
matrix zone
delays in decision making
H
H
red
postponement of project
M
M
yellow
late land hand-over
M
M
yellow
late submission of nominated materials
M
M
yellow
poor communication between construction parties
H
H
red
unreasonable project time frame
H
L
red
poor resource management
M
M
yellow
changes in management ways
M
M
yellow
design changes
M
M
yellow
internal administrative problems
M
M
yellow
undefined scope of working
M
M
yellow
late documentation
M
M
yellow
delay in commencement
M
L
yellow
improper construction method
M
M
yellow
late issuing of approval documents
M
M
yellow
Consultant group.
The Islamic University Journal, 16(1), pp 95-123
International Journal of Project Management, 20(1), pp 67-73
International Journal of Project Management, 15(1), pp 55-63
International Journal of Project Management, 25(5), pp 517-526
The Islamic University Journal, 16(1), pp 95-123
International Journal of Project Management, 20(1), pp 67-73
International Journal of Project Management, 15(1), pp 55-63
International Journal of Project Management, 25(5), pp 517-526
Online since: February 2014
Authors: Guan Huang, Wei Liu, Xi Yu Feng, Han Qing Huan
According to the plan, the GDP, and SO2, NOx, CO2 emissions from 2000 to 2007, and other materials, we can identify the key factors and then create different development scenarios to analyze the pollutants emission, emissions intensity, reachability of the targets.
Such as widely use of efficient insulation materials, energy-saving window, high efficient heating and air conditioning system, and solar, wind and other application technology of renewable energy.
Acknowledgements This work was supported by “National Natural Science Foundation of China” (No. 41101542), “Key Project of Department of Education in Sichuan Province”(No. 12ZA226), “Project of Sichuan Province Cyclic Economy Research Center”(No.
[2] Haberl H, “The energetic metabolism of societies, PartⅠ : Accounting concepts”, Journal of Industrial Ecology, vol.5 (2001), pp.11-33
[3] Haberl H, “The Energetic Metabolism of Societies Part II: Empirical Examples”, Journal of Industrial Ecology, vol.5(2002), p.71-88
Such as widely use of efficient insulation materials, energy-saving window, high efficient heating and air conditioning system, and solar, wind and other application technology of renewable energy.
Acknowledgements This work was supported by “National Natural Science Foundation of China” (No. 41101542), “Key Project of Department of Education in Sichuan Province”(No. 12ZA226), “Project of Sichuan Province Cyclic Economy Research Center”(No.
[2] Haberl H, “The energetic metabolism of societies, PartⅠ : Accounting concepts”, Journal of Industrial Ecology, vol.5 (2001), pp.11-33
[3] Haberl H, “The Energetic Metabolism of Societies Part II: Empirical Examples”, Journal of Industrial Ecology, vol.5(2002), p.71-88
Online since: July 2017
Authors: Uilame Umbelino Gomes, Carlson P. de Souza, Maria Jose S. Lima, M.V.M. Souto, M.M. Karimi, A.S. Souza, F.E.S. Silva
Using unsuitable materials includes additional costs that can be avoided or at least minimized.
Thus, the physical and chemical characteristics of the materials are extremely important.
There are several techniques for materials characterization (XRD, DSC, DTA, DTG, IR, TEM, SEM, Raman, NMR, UV, etc.).
Alves Jr.: Journal Materials Science Forum Vols. 416-418 (2003), p. 60
Souza: Materials Science Forum Vols. 730-732 (2013), p. 385
Thus, the physical and chemical characteristics of the materials are extremely important.
There are several techniques for materials characterization (XRD, DSC, DTA, DTG, IR, TEM, SEM, Raman, NMR, UV, etc.).
Alves Jr.: Journal Materials Science Forum Vols. 416-418 (2003), p. 60
Souza: Materials Science Forum Vols. 730-732 (2013), p. 385