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Online since: October 2019
Authors: Muhammad Mukhtar Liman, Khaled Abou-El-Hossein
The workpiece material used is OPTIMUM EXTREME (Roflufocon E) commercially available advanced contact lens polymer.
OLUFAYO, "ULTRA-HIGH PRECISION MANUFACTURING OF CONTACT LENS POLYMERS," PhD Thesis, Mechatronics Engineering, Faculty of Engineering, the Built Environment and Information Technology, Nelson Mandela Metropolitan University, 2015
Eisses, "Wear of monocrystalline diamond tools during ultraprecision machining of nonferrous metals," Precision Engineering, vol. 14, pp. 206-218, 1992
Liman, "DIAMOND TURNING OF CONTACT LENS POLYMERS," Masters of Engineering, Mechatronics Engineering, Nelson Mandela Metropolitan University, 2017
Lukman, "Modelling of surface roughness in ultra-high precision turning of an RGP contact lens polymer," in Key Engineering Materials, 2017, pp. 183-187.
OLUFAYO, "ULTRA-HIGH PRECISION MANUFACTURING OF CONTACT LENS POLYMERS," PhD Thesis, Mechatronics Engineering, Faculty of Engineering, the Built Environment and Information Technology, Nelson Mandela Metropolitan University, 2015
Eisses, "Wear of monocrystalline diamond tools during ultraprecision machining of nonferrous metals," Precision Engineering, vol. 14, pp. 206-218, 1992
Liman, "DIAMOND TURNING OF CONTACT LENS POLYMERS," Masters of Engineering, Mechatronics Engineering, Nelson Mandela Metropolitan University, 2017
Lukman, "Modelling of surface roughness in ultra-high precision turning of an RGP contact lens polymer," in Key Engineering Materials, 2017, pp. 183-187.
Online since: January 2011
Authors: Jiří Buršík
A model Ni-base alloy containing six alloying elements typical of advanced Ni-based superalloys was used.
Introduction Ni-base superalloys are important engineering materials used for the most demanding applications, e.g. as first stage gas turbine blades [1].
Six alloying elements typical of advanced Ni-based superalloys were used.
The uniaxial deformation with zero lateral pressure (tensile test) was applied along low-index directions [100] and [010].The total energy E of the crystal was calculated for eleven discrete values of engineering deformation e between –5% and +5%.
Forum Vol. 482 (2005), p. 147 [8] M.
Introduction Ni-base superalloys are important engineering materials used for the most demanding applications, e.g. as first stage gas turbine blades [1].
Six alloying elements typical of advanced Ni-based superalloys were used.
The uniaxial deformation with zero lateral pressure (tensile test) was applied along low-index directions [100] and [010].The total energy E of the crystal was calculated for eleven discrete values of engineering deformation e between –5% and +5%.
Forum Vol. 482 (2005), p. 147 [8] M.
Online since: January 2012
Authors: M. Habibnia, Namdar Karimi, S. Nourouzi, Mohsen Shakeri
Effect of tool rotation speed and feed rate on friction stir welding of 1100 aluminum alloy to carbon steel
M.Habibnia 1, M.Shakeri 2 S.Nourouzi 3, N.Karimi 4
Department of Mechanical Engineering; Babol University of Technology, Babol, P.O.Box 484, Mazandaran, Iran
1M.Habibnia@stu.nit.ac.ir, 2 Shakeri@nit.ac.ir, 3S_ Nourouzi@nit.ac.ir, 4N.Karimi@stu.nit.ac.ir
Keywords: Dissimilar joint, FSW, rotation speed, feed rate
Abstract.
Steel alloys are inexpensive, high strength and toughness; it has been the first choice of material for engineers.
The carbon steel was in the advancing side.
Murti, “The formation of intermetallic phases in aluminum–austenitic stainless steel friction welds”, Journal of Material Forum, vol17 (1993), pp 301–307
Hotta, “Joining of steel to aluminum alloy by interface-activated adhesion welding”, Journal of Materials Science Forum,vol426–432 (2003), pp4129–4134
Steel alloys are inexpensive, high strength and toughness; it has been the first choice of material for engineers.
The carbon steel was in the advancing side.
Murti, “The formation of intermetallic phases in aluminum–austenitic stainless steel friction welds”, Journal of Material Forum, vol17 (1993), pp 301–307
Hotta, “Joining of steel to aluminum alloy by interface-activated adhesion welding”, Journal of Materials Science Forum,vol426–432 (2003), pp4129–4134
Online since: August 2005
Authors: Qing Jie Zhang, Li Sheng Liu, Shu Yong Yang
Fracture Analysis of Functionally Graded Thermal Barrier Coating with
Interface Crack by Computational Micromechanics Method
Shu-Yong Yang
1,a, Li-Sheng Liu
1,b and Qing-Jie Zhang
1,c
1
State Key Laboratory of Advanced Technology for Materials Synthesis and Processing, Wuhan
University of Technology, 122 Luoshi Road, Wuhan 430070, P.R.China
a
youngsy@mail.whut.edu.cn, bliulish@mail.whut.edu.cn, cqjzhang@public.wh.hb.cn
Keywords: Computational micromechanics method.
The fracture of the functionally graded thermal barrier coating (TBC) under the thermal loads is a key for the engineering application of this kind of materials.
Forum Vol. 423-425 (2003), p. 1
Kim: Engineering Fracture Mechanics Vol. 68 (2001), p. 1013
Forum Vol. 423-425 (2003), p. 687
The fracture of the functionally graded thermal barrier coating (TBC) under the thermal loads is a key for the engineering application of this kind of materials.
Forum Vol. 423-425 (2003), p. 1
Kim: Engineering Fracture Mechanics Vol. 68 (2001), p. 1013
Forum Vol. 423-425 (2003), p. 687
Online since: July 2007
Authors: Kenji Higashi, Yoji Marutani, Masato Tsujikawa
Higashi1, c
1
Graduate School of Engineering, Osaka Prefecture University, Gakuen-cho 1-1, Sakai, 599-8531
JAPAN
2
Faculty of Engineering, Osaka Sangyo University, Nakagaichi, Daito, 574-8530 JAPAN
a
masato@mtr.oskafu-u.ac.jp, bmarutani@ise.osaka-sandai.ac.jp, chigashi@mtr.osakafu-u.ac.jp
Keywords: friction stir welding, three dimensional joining, aluminum, magnesium, titanium,
superplasticity
Abstract.
International Symposium on Joining Technologies in Advanced Automobile Assembly 2005 (Oct. 2005), Tokyo Japan, p.189
International Symposium on Joining Technologies in Advanced Automobile Assembly 2005 (Oct. 2005), Tokyo Japan, p.195.JAAA2005
International Symposium on Joining Technologies in Advanced Automobile Assembly 2005 (Oct. 2005), Tokyo Japan, p.211
International Symposium on Joining Technologies in Advanced Automobile Assembly 2005 (Oct. 2005), Tokyo Japan, p.217.
International Symposium on Joining Technologies in Advanced Automobile Assembly 2005 (Oct. 2005), Tokyo Japan, p.189
International Symposium on Joining Technologies in Advanced Automobile Assembly 2005 (Oct. 2005), Tokyo Japan, p.195.JAAA2005
International Symposium on Joining Technologies in Advanced Automobile Assembly 2005 (Oct. 2005), Tokyo Japan, p.211
International Symposium on Joining Technologies in Advanced Automobile Assembly 2005 (Oct. 2005), Tokyo Japan, p.217.
Online since: January 2004
Authors: Marcel A.J. Somers, Karen Pantleon, Jens Dahl Jensen
Somers1
1
The Technical University of Denmark, Department of Manufacturing Engineering and Management,
DK - 2800 Kgs.
Conf. on Advanced Materials and Processes, Vol. 2 (1995), p. 471 [3] C.
Forum Vol. 273-275 (1998), p. 567 [6] I.
Forum Vol. 157-162 (1994), p. 1405 [7] J.
Conf. on Advanced Materials and Processes, Vol. 2 (1995), p. 471 [3] C.
Forum Vol. 273-275 (1998), p. 567 [6] I.
Forum Vol. 157-162 (1994), p. 1405 [7] J.
Online since: December 2004
Authors: W.P. Wang, K.S. Hu
Materials Science Forum Vols. *** (2004) pp.335-338
online at http://scientific.net
2004 Trans Tech Publications, Switzerland
Symmetric Fuzzy Prediction of Cutting Force Uncertainty Based on
Maximum-minimum and Mean Values
W.P.
Cp=logYa(p), Wp=0, Yp=[Cp, Wp] (1) Cp=0.5[logYmax(p)+ logYmin(p)], Wp=0.5[logYmax(p)- logYmin(p)], Yp=[Cp, Wp] (2) Advances in Materials Manufacturing Science and Technology 336 where p=1, 2, ……, m.
Component Characteristics 1 Measuring sensor Resistance-strain cell 2 Analogue signal amplifier YD-4A resistance-strain voltage amplifier 3 Digital measuring instrument 12 bit A/D converter 4 Laboratory software Original program developed in C++ and MASM 5 Conditions for data acquisition Sampling frequency 50HZ, sample 500-1000 6 Computer 586 microcomputer Materials Science Forum Vols. *** 337 Experimental Details.
Advances in Materials Manufacturing Science and Technology 338 Acknowledgements The authors acknowledge the support provided by National Natural Science Foundation of China (funding no.59905008) during this work.
Li: Key Engineering Materials Vols. 202-203 (2001), p. 429 [3] W.P.
Cp=logYa(p), Wp=0, Yp=[Cp, Wp] (1) Cp=0.5[logYmax(p)+ logYmin(p)], Wp=0.5[logYmax(p)- logYmin(p)], Yp=[Cp, Wp] (2) Advances in Materials Manufacturing Science and Technology 336 where p=1, 2, ……, m.
Component Characteristics 1 Measuring sensor Resistance-strain cell 2 Analogue signal amplifier YD-4A resistance-strain voltage amplifier 3 Digital measuring instrument 12 bit A/D converter 4 Laboratory software Original program developed in C++ and MASM 5 Conditions for data acquisition Sampling frequency 50HZ, sample 500-1000 6 Computer 586 microcomputer Materials Science Forum Vols. *** 337 Experimental Details.
Advances in Materials Manufacturing Science and Technology 338 Acknowledgements The authors acknowledge the support provided by National Natural Science Foundation of China (funding no.59905008) during this work.
Li: Key Engineering Materials Vols. 202-203 (2001), p. 429 [3] W.P.
Online since: December 2010
Authors: Lei Gang Wang, Feng Jian Shi, Sheng Lu, Tao Xu
Finite element simulation of cyclic channel die compression with route A
Fengjian Shi1, 2, a, Tao Xu1,b, Sheng Lu1, c, Leigang Wang2, d
1Provincial Key Lab of Advanced Welding Technology, Jiangsu University of Science and Technology, Zhenjiang, 212003, China
2School of Material Science and Engineering, Jiangsu University, Zhenjiang, 212013, China
ashifengjian@126.com, b774392450@qq.com, clusheng119@yahoo.com.cn,
dlgwang@ujs.edu.cn
Keywords: cyclic channel die compression; finite element simulation; effective strain; microstructure
Abstract.
Forum Vol. 503-504 (2006), p. 371 [4] M.
Forum Vol. 550 (2007), p. 271 [10] A.
Forum Vol. 503-504 (2006), p. 371 [4] M.
Forum Vol. 550 (2007), p. 271 [10] A.
Online since: February 2013
Authors: Hong Yan Liu, Shi Zheng Liu
Table 1 Risk index system
policy risk
Approval procedures for complex
Supporting policies, the law is not perfect
Organizational system is not perfect
financial risk
Financing costs
Energy price
Energy tax
Difficulties in funds lending
operational risk
Engineering construction
Turnover of project funds
Operation and maintenance of the project
Force majeure factors have led to the failure
effective risk
Ability to achieve the expected results
Preliminary analysis and diagnosis of the energy wasted
market risk
Information is not smooth
Technological advance
Technological advance
Determine the risk factor.
In Chinese [2] Dejun Liu: Electricity Demand side management, Forum Vol. 11(2009), p. 21-22.
In Chinese [3] Jing Li, Jiangbo He, Xiping Wu: Electricity Demand side management, Forum Vol. 1(2007) p. 41-43.
In Chinese [2] Dejun Liu: Electricity Demand side management, Forum Vol. 11(2009), p. 21-22.
In Chinese [3] Jing Li, Jiangbo He, Xiping Wu: Electricity Demand side management, Forum Vol. 1(2007) p. 41-43.
Online since: November 2013
Authors: Sten Johansson, Kang Yuan, Ru Lin Peng, Robert Eriksson
Microstructure-based life prediction of thermal barrier coatings
Robert Eriksson1,a, Kang Yuan1,b, Sten Johansson1,c and Ru Lin Peng1,d
1Department of Management and Engineering, Linköping University, 58183 Linköping, Sweden
arobert.eriksson@liu.se, bkang.yuan@liu.se, csten.johansson@liu.se, dru.peng@liu.se
Keywords: Thermal barrier coating, TBC, life prediction, isothermal oxidation, interdiffusion
Abstract.
Forum Vol. 606 (2009), p. 1 [2] J.T.
Brodin, in: Advanced Ceramic Coatings and Interfaces V, edited by D.
Forum Vol. 369-372 (2001), p. 719
Forum Vol. 606 (2009), p. 1 [2] J.T.
Brodin, in: Advanced Ceramic Coatings and Interfaces V, edited by D.
Forum Vol. 369-372 (2001), p. 719