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Online since: April 2016
Authors: Frank Jablonski, Vitali Bitykov
The materials used within the wire concept as well as the corresponding (yield) strengths values are presented in the following table.
In table 2 the materials used within the foil concept as well as the (yield) strength values can be found.
[4] Bitykov, V., Jablonski, F., Kienzler, R.: Modeling of Fracture Behavior of Hybrid Transition Structures, Procedia Materials Science, Volume 2, 2013, p.243 [5] Lang, A.; Brauner, C.; Bitykov, V.; Jablonski, F.: Thermomechanisches Verhalten von hybriden CFK-Aluminium Übergangsstrukturen, Proc. of 19.
Journal of Materials Science, 27:3173–3180, 1992. doi: 10.1007/BF01116007
Journal of Materials Science & Technology, 22, 2006, p. 552 [15] Fiedler , B., Hojo, M., Ochiai, S., Schulte, K., Ando, M.: Failure behavior of an epoxy matrix under different kinds of static loading.
In table 2 the materials used within the foil concept as well as the (yield) strength values can be found.
[4] Bitykov, V., Jablonski, F., Kienzler, R.: Modeling of Fracture Behavior of Hybrid Transition Structures, Procedia Materials Science, Volume 2, 2013, p.243 [5] Lang, A.; Brauner, C.; Bitykov, V.; Jablonski, F.: Thermomechanisches Verhalten von hybriden CFK-Aluminium Übergangsstrukturen, Proc. of 19.
Journal of Materials Science, 27:3173–3180, 1992. doi: 10.1007/BF01116007
Journal of Materials Science & Technology, 22, 2006, p. 552 [15] Fiedler , B., Hojo, M., Ochiai, S., Schulte, K., Ando, M.: Failure behavior of an epoxy matrix under different kinds of static loading.
Online since: April 2011
Authors: Kamel Mehdi, Ali Zghal
This depth is defined by Eq. (11) [15]
(11)
In this equation, the factors “0.0046” and “0.005” are available for a workpiece with a steel material.
This factor depends of the workpiece material Rockwell hardness [17].
Wang: Mechanistic Modeling of Process Damping in Peripheral Milling (Transactions of the ASME, Journal of Manufacturing Science and Engineering, Vol. 129, Feb. 2007, pp. 12-20)
Play: Dynamic Behavior of a thin wall cylindrical WorkPiece During the Turning Process Part I: Cutting Process Simulation (Journal of Manufacturing Science and Engineering, Vol. 124, Issue 3, 2002, pp. 562-568)
Play: Dynamic Behavior of a thin wall cylindrical WorkPiece During the Turning Process Part II: Experimental approach and validation (Journal of Manufacturing Science and Engineering, Vol. 124, Issue 3, 2002, pp. 569-580)
This factor depends of the workpiece material Rockwell hardness [17].
Wang: Mechanistic Modeling of Process Damping in Peripheral Milling (Transactions of the ASME, Journal of Manufacturing Science and Engineering, Vol. 129, Feb. 2007, pp. 12-20)
Play: Dynamic Behavior of a thin wall cylindrical WorkPiece During the Turning Process Part I: Cutting Process Simulation (Journal of Manufacturing Science and Engineering, Vol. 124, Issue 3, 2002, pp. 562-568)
Play: Dynamic Behavior of a thin wall cylindrical WorkPiece During the Turning Process Part II: Experimental approach and validation (Journal of Manufacturing Science and Engineering, Vol. 124, Issue 3, 2002, pp. 569-580)
Online since: October 2010
Authors: C.H. Chen, J.J. Kai, F.R. Chen, Y. Katoh
Hasegawa et al., Journal of Nuclear Materials 329–333 (2004) 582–586.;
**:T.Taguchi et al., Journal of Nuclear Materials 335 (2004) 508–514.
Snead, Journal of Nuclear Materials 258-263 (1998) 215-225
Snead, Journal of Nuclear Materials 329–333 (2004) 56–65 [7] R.H.
Hasegawa, Journal of Nuclear Materials 335 (2004) 508–514 [15] T.
Abe, Journal of Nuclear Materials 329–333 (2004) 582–586 [20] P.
Snead, Journal of Nuclear Materials 258-263 (1998) 215-225
Snead, Journal of Nuclear Materials 329–333 (2004) 56–65 [7] R.H.
Hasegawa, Journal of Nuclear Materials 335 (2004) 508–514 [15] T.
Abe, Journal of Nuclear Materials 329–333 (2004) 582–586 [20] P.
Online since: November 2024
Authors: Ranjit Sarma, Dhrubajyoti Saikia
In OLED devices, the buffer layers were deposited using the doping of iodine vapor with the pentacene materials under proper conditions.
It is known that Organic materials are lightweight, low-cost, and possess more flexibility compared to inorganic materials.
Acknowledgement The authors are very grateful to the Material Science laboratory, CSIR-Northeast Institute of Science and Technology, Jorhat-Assam for providing the required arrangements and facility for surface morphological study and its analysis.
[8] A Tiwari and B Kumar, Impact of different anode materials on performance of organic light emitting diodes, Int.
[17] S.A kumar, J S Shankar and S K Nay, Environmentally Benign Fouling-Resistant Marine Coatings, Polymer-plastic technology and materials. 58 ( 2019) 498-518
It is known that Organic materials are lightweight, low-cost, and possess more flexibility compared to inorganic materials.
Acknowledgement The authors are very grateful to the Material Science laboratory, CSIR-Northeast Institute of Science and Technology, Jorhat-Assam for providing the required arrangements and facility for surface morphological study and its analysis.
[8] A Tiwari and B Kumar, Impact of different anode materials on performance of organic light emitting diodes, Int.
[17] S.A kumar, J S Shankar and S K Nay, Environmentally Benign Fouling-Resistant Marine Coatings, Polymer-plastic technology and materials. 58 ( 2019) 498-518
Online since: May 2025
Authors: Nicholas Malatji, Lehlogonolo Rudolf Kanyane, Abimbola Patricia I. Popoola
Methodology
Materials.
Materials Chemistry and Physics, 2019. 230: p. 122-130
Materials Science and Engineering: A, 2019. 744: p. 46-53
Advanced Engineering Materials, 2021: p. 2100156
International Journal of Lightweight Materials and Manufacture, 2022. 5(2): p. 153-161
Materials Chemistry and Physics, 2019. 230: p. 122-130
Materials Science and Engineering: A, 2019. 744: p. 46-53
Advanced Engineering Materials, 2021: p. 2100156
International Journal of Lightweight Materials and Manufacture, 2022. 5(2): p. 153-161
Online since: October 2015
Authors: Wojciech Borek, Janusz Mazurkiewicz, Leszek Adam Dobrzański
Chin, New trends in advanced high strength steel developments for automotive application, Materials Science Forum 638-642 (2010) 136-141
Dobrzanski, Computer aided method for evaluation of failure class of materials working in creep conditions, Journal Of Materials Processing Technology 157 (2004) 102-106
Borek, Hot-rolling of advanced high-manganese C-Mn-Si-Al steels, Materials Science Forum 706/709 (2012) 2053-2058
Borek, Hot-Working Behaviour of Advanced High-Manganese C-Mn-Si-Al Steels, Materials Science Forum 654-656 (2010) 266-269
Mazurkiewicz, Mechanical properties of high-manganese austenitic TWIP-type steel, Materials Science Forum 783-786 (2014) 27-32
Dobrzanski, Computer aided method for evaluation of failure class of materials working in creep conditions, Journal Of Materials Processing Technology 157 (2004) 102-106
Borek, Hot-rolling of advanced high-manganese C-Mn-Si-Al steels, Materials Science Forum 706/709 (2012) 2053-2058
Borek, Hot-Working Behaviour of Advanced High-Manganese C-Mn-Si-Al Steels, Materials Science Forum 654-656 (2010) 266-269
Mazurkiewicz, Mechanical properties of high-manganese austenitic TWIP-type steel, Materials Science Forum 783-786 (2014) 27-32
Online since: September 2012
Authors: Ling Cheng, De Gui Zhu, Ying Gao, Wei Li, Bo Wang
O’Donnell, L.Looney: Materials Science and Engineering A Vol. 303 (2001), p. 292
[2] Majid Hoseini, Mahmood Mertian: Materials letters.
Velasco: Journal of Materials Processing Technology Vol.133 (2003), p.203 [4] Zhao Yu-tao, Zhang Song-li and Chen Gang: Transaction of Nononferrous Metals Society of China Vol. 20 (2010), p. 2129 [5] Hailong Wang, Rui Zhang, Xing Hu, Chang-An Wang and Yong Huang: Journal of materials processing technology Vol. 197 (2008), p. 43 [6] Majid Hoseini, Mahmood Meratian: Journal of Alloys and Compounds Vol. 471 (2009), p. 378 [7] Chen Guo-qin, Xiu Zi-yang, Yang Wen-shu, Jiang Long-tao and Wu Gao-hui: Transaction of Nonferrous Metals Society of China Vol.20 (2010), p. 2143 [8] X.X Yu, W.B.
Abouelmagd: Journal of Materials Processing Technology Vol.155-156 (2004), p. 1395 [10] Hongming Wang, Guirong Li, Yutao Zhao and Gang Chen: Materials Science and Engineering A Vol.527 (2010), p. 2881 [11] Ying Gao, Degui Zhu, Ling Cheng, Hongliang Sun and Qing Wang: Advanced Materials Research Vol. 283-286 (2011), p.38 [12] In Jun Hwang, Duck Young Hwang, Yong Min Kim, Bongyoung Yoo and Dong Hyuk Shin.
The Chinese Journal of Nonferrous Metals [J] Vol. 5 (1995), p.133 (in Chinese) [16] Zhang Zhiqing, Li Qiulin, Chen Dandan, Liu Wei and Liu Qing: Rare Metal Materials and Engineering.
German, Pavan Suri and Seong Jin Park: J Materials Science Vol. 44 (2009), p.1.
Velasco: Journal of Materials Processing Technology Vol.133 (2003), p.203 [4] Zhao Yu-tao, Zhang Song-li and Chen Gang: Transaction of Nononferrous Metals Society of China Vol. 20 (2010), p. 2129 [5] Hailong Wang, Rui Zhang, Xing Hu, Chang-An Wang and Yong Huang: Journal of materials processing technology Vol. 197 (2008), p. 43 [6] Majid Hoseini, Mahmood Meratian: Journal of Alloys and Compounds Vol. 471 (2009), p. 378 [7] Chen Guo-qin, Xiu Zi-yang, Yang Wen-shu, Jiang Long-tao and Wu Gao-hui: Transaction of Nonferrous Metals Society of China Vol.20 (2010), p. 2143 [8] X.X Yu, W.B.
Abouelmagd: Journal of Materials Processing Technology Vol.155-156 (2004), p. 1395 [10] Hongming Wang, Guirong Li, Yutao Zhao and Gang Chen: Materials Science and Engineering A Vol.527 (2010), p. 2881 [11] Ying Gao, Degui Zhu, Ling Cheng, Hongliang Sun and Qing Wang: Advanced Materials Research Vol. 283-286 (2011), p.38 [12] In Jun Hwang, Duck Young Hwang, Yong Min Kim, Bongyoung Yoo and Dong Hyuk Shin.
The Chinese Journal of Nonferrous Metals [J] Vol. 5 (1995), p.133 (in Chinese) [16] Zhang Zhiqing, Li Qiulin, Chen Dandan, Liu Wei and Liu Qing: Rare Metal Materials and Engineering.
German, Pavan Suri and Seong Jin Park: J Materials Science Vol. 44 (2009), p.1.
Online since: October 2011
Authors: La Chun Wang, Feng Tai Zhang, Wei Wang, Chun Fen Zeng
Based on the twenty years’ hydrologic data and water quality materials from the year 2005 to 2010, this article studies the water environment changes of reservoir type water source and the water quality protection countermeasures.
Materials and Methods This paper based on the twenty years hydrologic data and water quality materials from the year 2005 to 2010, through the comprehensive field investigation of pollution sources and the comprehensive analysis of possible impact factor of the water environment, is researching the Zhaocun reservoir water environment changing trend and water environmental factors.
References [1] Enqin YAO, Herong GUI: Journal of China University of Mining and Technology.
Gritzalis: Science of The Total Environment.
Vol.22( 2003), P. 487-490 (In Chinese) [9] Kil Seong Lee, Eun-Sung Chung: Journal of Hydro-environment Research.
Materials and Methods This paper based on the twenty years hydrologic data and water quality materials from the year 2005 to 2010, through the comprehensive field investigation of pollution sources and the comprehensive analysis of possible impact factor of the water environment, is researching the Zhaocun reservoir water environment changing trend and water environmental factors.
References [1] Enqin YAO, Herong GUI: Journal of China University of Mining and Technology.
Gritzalis: Science of The Total Environment.
Vol.22( 2003), P. 487-490 (In Chinese) [9] Kil Seong Lee, Eun-Sung Chung: Journal of Hydro-environment Research.
Online since: February 2012
Authors: Hong Qin Liang, Ping Bo Wu, Yong Xiang Zhao
International Journal of Fatigue, 2000; Vol.22: 569-572
Journal of Lanzhou Railway University. 1997; Vol. 16.
Journal of the China Railway Society. 1998; Vol.20.No.4: 120-125
Journal of Gansu Sciences. 1994; Vol.6.No.1: 3-57
Journal of Mechanical Strength. 1994; Vol.16.No.1: 61-64
Journal of Lanzhou Railway University. 1997; Vol. 16.
Journal of the China Railway Society. 1998; Vol.20.No.4: 120-125
Journal of Gansu Sciences. 1994; Vol.6.No.1: 3-57
Journal of Mechanical Strength. 1994; Vol.16.No.1: 61-64