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Online since: December 2013
Authors: Zhi Yong Zhang, Ying Xi, Hai Qing Jiang, Bo Jin, Jian Zhang Shi, Tian Ming Lei
Ou Yang, et al: Advanced materials, Vol. 24(2012), p.229
Li, et al: Applied Surface Science, Vol. 256 (2009) No.3, p.597
Zhang and Zhang J: Applied Surface Science, Vol. 256 (2010) No.10, p.3224
Wang, et al: Materials Review, Vol. 25 (2011) No.17, p.73.
Ferretti: Materials Research Bulletin, Vol. 14 (1979), p.1571
Li, et al: Applied Surface Science, Vol. 256 (2009) No.3, p.597
Zhang and Zhang J: Applied Surface Science, Vol. 256 (2010) No.10, p.3224
Wang, et al: Materials Review, Vol. 25 (2011) No.17, p.73.
Ferretti: Materials Research Bulletin, Vol. 14 (1979), p.1571
Online since: August 2017
Authors: Hayrettin Ahlatci, Yunus Turen, Yavuz Sun, Ismail Hakkı Kara, Huseyin Zengin
Kim: Materials Science Forum, Vols. 539-543 (2007), 1707-1712
[3] H.Yu, Y.
Kainer: Materials Science and Engineering: A, Volume 527 (2010), 7092 [5] K.
Stanford, Barnett M.R., Materials Science and Engineering: A, Volume 496 (2008), 399 [8] J.L.
Zhai, Journal of materials science, 41(17), (2006), 5409-5416
Li, Materials Science Forum, Vol. 686, (2011), 332-336
Kainer: Materials Science and Engineering: A, Volume 527 (2010), 7092 [5] K.
Stanford, Barnett M.R., Materials Science and Engineering: A, Volume 496 (2008), 399 [8] J.L.
Zhai, Journal of materials science, 41(17), (2006), 5409-5416
Li, Materials Science Forum, Vol. 686, (2011), 332-336
Online since: February 2022
Authors: Yurii F. Ivanov, Irina Panchenko, Yan Fei Geng, Xi Zhang Chen
Derekar, A review of wire arc additive manufacturing and advances in wire arc additive manufacturing of aluminium, Materials Science and Technology . 34 (2018) 895–916
Williams, Thermo-mechanical analysis of Wire and Arc Additive Layer Manufacturing process on large multi-layer parts, Computational Materials Science. 50 (2011) 3315–3322
Colegrove, Wire + Arc additive manufacturing, Materials Science and Technology. 32 (2016) 641–647
Abaturova, Modification of Al-10Si-2Cu alloy surface by intensive pulsed electron beam, Journal of Materials Research and Technology. 9 (2020) 5591–5598
Kosinov, Structural and phase changes under electropulse treatment of fatigue-loaded titanium alloy VT1-0, Journal of Materials Research and Technology. 8 (2019) 1300–1307
Williams, Thermo-mechanical analysis of Wire and Arc Additive Layer Manufacturing process on large multi-layer parts, Computational Materials Science. 50 (2011) 3315–3322
Colegrove, Wire + Arc additive manufacturing, Materials Science and Technology. 32 (2016) 641–647
Abaturova, Modification of Al-10Si-2Cu alloy surface by intensive pulsed electron beam, Journal of Materials Research and Technology. 9 (2020) 5591–5598
Kosinov, Structural and phase changes under electropulse treatment of fatigue-loaded titanium alloy VT1-0, Journal of Materials Research and Technology. 8 (2019) 1300–1307
Online since: January 2011
Authors: R.S. Sidhu, M.R. Hassan, Aidy Ali
Fig. 4 Jounce bumper response
Comparison between Experimental fatigue life and Model fatigue life
Comparing the experimental fatigue life to the fatigue models can help verify how accurate the fatigue model is and determine whether the model can be applied to all elastomeric materials.
Kim: International Journal of Fatigue Vol. 27 (2005), p. 263 [5] W.D.
Kim: International Journal of Fatigue Vol 26 (2004), p. 553 [6] N.
Kim: Mechanics of Materials Vol. 34 (2002), p. 475 [9] C.S.
Kwon: Material Science and Engineering A (2008), p. 376
Kim: International Journal of Fatigue Vol. 27 (2005), p. 263 [5] W.D.
Kim: International Journal of Fatigue Vol 26 (2004), p. 553 [6] N.
Kim: Mechanics of Materials Vol. 34 (2002), p. 475 [9] C.S.
Kwon: Material Science and Engineering A (2008), p. 376
Online since: February 2011
Authors: Xiaoqing Zhong, Shao Wei Hu, Jun Lu
It uses the irreversible effect of deformation and acoustic emission of materials, namely “during period of material re-loading, acoustic emission signal is not produced before stress value reaches the maximum stress loaded previously” so as to timely monitor the process of sprout, extension and material fracture of defects and initially judge defect position.
Therefore, it means emergence, extension and centralization of micro-crack are external presentation of concrete materials with non-linear behavior
(2) According to comparison between material-self limit of tensile strain and cracking loading of double-K fracture model, feature parameters of acoustic emission can be used for judging the cracking time of concrete materials
China Civil Engineering Journal, 1992,25(2):32-38 [ 7 ] Xu Shilang, Zhou Hougui, Gao Hongbo.
China Civil Engineering Journal, 2006,39(11):50-62
Therefore, it means emergence, extension and centralization of micro-crack are external presentation of concrete materials with non-linear behavior
(2) According to comparison between material-self limit of tensile strain and cracking loading of double-K fracture model, feature parameters of acoustic emission can be used for judging the cracking time of concrete materials
China Civil Engineering Journal, 1992,25(2):32-38 [ 7 ] Xu Shilang, Zhou Hougui, Gao Hongbo.
China Civil Engineering Journal, 2006,39(11):50-62
Online since: July 2022
Authors: Ben Khadda Ben Ammar
To this end, researchers have started to search for the most durable materials that respect the environment.
Experimental Procedures Presenting us the study materials, the concrete formulation and preparation of the test specimens 2.1 Materials used Cement used is a CEM II class 42.5 R from the Biskra cement plant, the water is drinking tap water, the sand 0/5 mm from the river in the region, fineness modulus = 2.82 (sand is suitable for a satisfactory workability and resistance with limited risk of segregation).
Today's building materials are compatible with the demands of industrial production.
Journal of Cleaner Production. 117 (2016), pp. 122138.10.1016/j.jclepro.2 016.01.022 [5] J.
LEE., Prospects for natural fibre reinforced concretes in construction, International Journal of Cement Composites and Lightweight Concrete 3, 1981, pp. 123-132
Experimental Procedures Presenting us the study materials, the concrete formulation and preparation of the test specimens 2.1 Materials used Cement used is a CEM II class 42.5 R from the Biskra cement plant, the water is drinking tap water, the sand 0/5 mm from the river in the region, fineness modulus = 2.82 (sand is suitable for a satisfactory workability and resistance with limited risk of segregation).
Today's building materials are compatible with the demands of industrial production.
Journal of Cleaner Production. 117 (2016), pp. 122138.10.1016/j.jclepro.2 016.01.022 [5] J.
LEE., Prospects for natural fibre reinforced concretes in construction, International Journal of Cement Composites and Lightweight Concrete 3, 1981, pp. 123-132
Online since: March 2012
Authors: Yu Jing Lan, Yi Jian Sheng, Wen Tian Shi, Yuan Zhang, Yang Liu, Yan Ping Cao, Yu De Liu
After 7 days, the output materials of food waste degradation would be used in the cultivation of vegetables as organic fertilizer.
For farmers living around, the output materials were helpful, as they could be used in the cultivation of vegetables as organic fertilizer.
Applied Mechanics and Materials Vol. 109(2012), p. 65-69, in Chinese
Journal of Beijing Technology and Business University( Natural Science Edition) Vol. 29(2011), p. 69-72, in Chinese
Journal of Beijing Technology and Business University( Natural Science Edition) Vol. 28(2010), p. 40-44, in Chinese.
For farmers living around, the output materials were helpful, as they could be used in the cultivation of vegetables as organic fertilizer.
Applied Mechanics and Materials Vol. 109(2012), p. 65-69, in Chinese
Journal of Beijing Technology and Business University( Natural Science Edition) Vol. 29(2011), p. 69-72, in Chinese
Journal of Beijing Technology and Business University( Natural Science Edition) Vol. 28(2010), p. 40-44, in Chinese.
Online since: April 2026
Authors: Dimitris Saravanos, Apostolos Argyros, Vasileios Stratiotou-Efstratiadis, Georgios Maliaris, Nikolaos Michailidis, Georgios Sarmas, Giannis Oikonomou, Dimitrios Dimitriou, Nikolaos Chrysochoidis, Vasileios Mpinas
Materials & Methods
PVDF filament used in the present study was the Adamant S1 PVDF, procured from add:north.
Inkjet printing is a versatile, non-contact drop-on-demand (DoD) deposition AM method, widely used for the deposition of functional materials, such as conductive inks, onto polymeric substrates.
This feature makes it highly suitable for delicate and flexible materials such as PVDF [7].
R., et al., 1995, New industrial fluoropolymer science and technology, Macromol.
[12] Pascu, M., Nicolas, D., Poncin-epaillard, F., Vasile, C., 2006, Surface modification of PVDF by plasma treatment for electroless metallization, Journal of Optoelectronics and Advanced Materials, 8/3:1062–1064, DOI:10.1002/3527605584.ch13.
Inkjet printing is a versatile, non-contact drop-on-demand (DoD) deposition AM method, widely used for the deposition of functional materials, such as conductive inks, onto polymeric substrates.
This feature makes it highly suitable for delicate and flexible materials such as PVDF [7].
R., et al., 1995, New industrial fluoropolymer science and technology, Macromol.
[12] Pascu, M., Nicolas, D., Poncin-epaillard, F., Vasile, C., 2006, Surface modification of PVDF by plasma treatment for electroless metallization, Journal of Optoelectronics and Advanced Materials, 8/3:1062–1064, DOI:10.1002/3527605584.ch13.