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Online since: July 2018
Authors: Roza G. Chembarisova, Wei Wei, Igor V. Alexandrov
China
3School of Materials Science and Engineering, Changzhou University, Changzhou,
213164, P.R.
China 4Jiangsu Key Laboratory of Materials Surface Science and Technology, Changzhou University, Changzhou, 213164, P.R.
China 5Sino-Russia Joint Laboratory of Functional Nanostructured Materials, Changzhou University, Changzhou, 213164, P.R.
Gleiter, Nanocrystalline materials, Prog.
Kohout, The role of hydrostatic pressure in severe plastic deformation, Advansed engineering materials. 5 (2003) 330–337
China 4Jiangsu Key Laboratory of Materials Surface Science and Technology, Changzhou University, Changzhou, 213164, P.R.
China 5Sino-Russia Joint Laboratory of Functional Nanostructured Materials, Changzhou University, Changzhou, 213164, P.R.
Gleiter, Nanocrystalline materials, Prog.
Kohout, The role of hydrostatic pressure in severe plastic deformation, Advansed engineering materials. 5 (2003) 330–337
Online since: April 2015
Authors: Chin Chung Wei, Hsiao Yen Chung, Jian Bin Zhang
The process has several advantages comparing with laser or water blade cutting process, including large operating conditions for most materials, low cost, high cutting efficiency and low material waste.
Radial vibration signal detecting point at fixed blade support, nearby motor The vibratory behavior of band sawing machine will have a direct impact on cutting materials.
So measuring points of accelerometers were selected at materials and sawing arm as a basis for measurement, and it is firm for using super glue to glue.
So, we can analyze that compare measuring surface roughness with band saw speed, cutting rates and cutting properties of materials.
But in final, rough surface and wear scar can be found, this means that blades could not remove materials smoothly due to serious wear of sawing blade tooth.
Radial vibration signal detecting point at fixed blade support, nearby motor The vibratory behavior of band sawing machine will have a direct impact on cutting materials.
So measuring points of accelerometers were selected at materials and sawing arm as a basis for measurement, and it is firm for using super glue to glue.
So, we can analyze that compare measuring surface roughness with band saw speed, cutting rates and cutting properties of materials.
But in final, rough surface and wear scar can be found, this means that blades could not remove materials smoothly due to serious wear of sawing blade tooth.
Online since: June 2011
Authors: Xi Peng Xu, Yi Qing Yu, Xiu Yu Chen
Generally speaking, diamond segments used for sawing of natural stone materials are composed of diamonds and metal matrix bond.
Different materials can be constructed through setting different particle properties and color on the sample, on which corresponding particles represent different materials.
Huang: Journal of Advances in Mechanics (2003)
Nozaki et al.: Journal of Thin Solid Films (1998)
G.ao: Journal of Artificial Crystal Journal (1999).
Different materials can be constructed through setting different particle properties and color on the sample, on which corresponding particles represent different materials.
Huang: Journal of Advances in Mechanics (2003)
Nozaki et al.: Journal of Thin Solid Films (1998)
G.ao: Journal of Artificial Crystal Journal (1999).
Online since: October 2012
Authors: T.C. Kanish, S. Narayanan, P. Kuppan
The basic principle of the MFAAF process for finishing of flat and cylindrical surfaces were studied by Shinmura et al. [1-4] on difficult-to-machine materials.
The material removal and surface roughness increase as the magnetic abrasive particle diameter increases.
The high level of surface finish of the work material is achieved at higher signal to noise ratio.
Kawashima, Clarification of magnetic abrasive finishing mechanism, Journal of Materials Processing Technology. 143-144 (2003) 682-686
Raghuram, Parametric study of Magnetic Abrasive finishing process, journal of Materials processing technology. 149 (2004) 22-29
The material removal and surface roughness increase as the magnetic abrasive particle diameter increases.
The high level of surface finish of the work material is achieved at higher signal to noise ratio.
Kawashima, Clarification of magnetic abrasive finishing mechanism, Journal of Materials Processing Technology. 143-144 (2003) 682-686
Raghuram, Parametric study of Magnetic Abrasive finishing process, journal of Materials processing technology. 149 (2004) 22-29
Online since: April 2012
Authors: Bin Jiang, Ji Guang Song, Bo Chen, Xuan Chi Liu, Song Tao Wang
Under different scales observation materials have different characteristics, as shown in Fig. 2.
Greers: Mechanics of Materials Vol. 8 (2008), p. 641 [3] V.G.
Allen: Mechanics of Composite Materials Vol. 2 (2009), p. 145 [6] H.
Zhu: Journal of Mechanical Engineering Vol. 2 (2009), p. 94 [7] D.H.
Searcy: Journal of Material Science Vol. 20 (2006), p. 6510 [8] M.
Greers: Mechanics of Materials Vol. 8 (2008), p. 641 [3] V.G.
Allen: Mechanics of Composite Materials Vol. 2 (2009), p. 145 [6] H.
Zhu: Journal of Mechanical Engineering Vol. 2 (2009), p. 94 [7] D.H.
Searcy: Journal of Material Science Vol. 20 (2006), p. 6510 [8] M.
Online since: August 2020
Authors: Hapsa Husen, Muhamed Alias Yusof, Norazman Mohamad Nor, Muhammad Ilman Faiz Muhamad
Materials and Methods
Test Preparation.
Not forgetting MyIB for contributing materials for the test.
Advanced Materials Research 602, 1574-1578
International Journal of Academic Research in Business and Social Sciences 8
Journal of Fundamental and Applied Sciences 9 (3S), 546-554
Not forgetting MyIB for contributing materials for the test.
Advanced Materials Research 602, 1574-1578
International Journal of Academic Research in Business and Social Sciences 8
Journal of Fundamental and Applied Sciences 9 (3S), 546-554
Online since: April 2023
Authors: Katsuyuki Kida, Koshiro Mizobe, Takahiro Matsueda, Yasuharu Hobo, Takumi Toriki, Soji Matsubayashi
In this investigation, a 4.762 mm diameter HIP-sintered silicon nitride bearing ball (TSN-03, Toshiba Materials Co., Ltd.) was used as the specimen.
Ritchie, “Mechanism of Fatigue Crack Propagation in Metals, Ceramics and Composites: Role of Crack Tip shielding”, Material Science and Engineering: A, Vol. 103, Issue 1, pp. 15-28, (1988)
Suresh, “Dynamic Fatigue Crack Growth in Polycrystalline Alumina under Cyclic Compression”, Journal of Material Science Letters, Vol. 5, pp. 774-778, (1986)
Suresh, “Crack Propagation in Ceramics under Cyclic Loads”, Journal of Material Science, Vol. 22, pp. 1173-1192, (1987)
Kida, “Observation of Crack Growth Behavior of Various Cracks in 4.762mm Diameter Silicon Nitride Balls under Cyclic Compressive Load”, Materials Science Forum, Vol. 971, pp. 101-105, (2019).
Ritchie, “Mechanism of Fatigue Crack Propagation in Metals, Ceramics and Composites: Role of Crack Tip shielding”, Material Science and Engineering: A, Vol. 103, Issue 1, pp. 15-28, (1988)
Suresh, “Dynamic Fatigue Crack Growth in Polycrystalline Alumina under Cyclic Compression”, Journal of Material Science Letters, Vol. 5, pp. 774-778, (1986)
Suresh, “Crack Propagation in Ceramics under Cyclic Loads”, Journal of Material Science, Vol. 22, pp. 1173-1192, (1987)
Kida, “Observation of Crack Growth Behavior of Various Cracks in 4.762mm Diameter Silicon Nitride Balls under Cyclic Compressive Load”, Materials Science Forum, Vol. 971, pp. 101-105, (2019).
Online since: May 2012
Authors: Shi Ru Jia, Yu Jie Dai, Yuan Yuan Jia, Jian Yu Su, Si Jun Yue, Rui Zheng, Jing Liu
Materials and Methods
Materials.
Journal of Applied Phycology.10:37–49(1998a)
Journal of Phycology , 39 : 617-623(2003)
Journal of Ningxia University (Natural Sciences) 13 (1): 71-76(1992).
ET Thur, Journal of Nanjing University (Natural Sciences), (1):117-121(1982)
Journal of Applied Phycology.10:37–49(1998a)
Journal of Phycology , 39 : 617-623(2003)
Journal of Ningxia University (Natural Sciences) 13 (1): 71-76(1992).
ET Thur, Journal of Nanjing University (Natural Sciences), (1):117-121(1982)
Online since: April 2015
Authors: Wei Ping Chen, Yong Zeng, Xiao Mei Li, Hua Qiang Xiao
Materials Science and Engineering. 1997, 239-240(652-657
Journal of Materials Science & Technology. 2010, 26(5):385-416
Journal of Wuhan University of Technology(Materials Science). 2006, 21(2):14-16
Materials Science and Engineering. 2001, 300(1-2):1-11
Materials Science and Engineering. 2006, 428(1-2):54-58
Journal of Materials Science & Technology. 2010, 26(5):385-416
Journal of Wuhan University of Technology(Materials Science). 2006, 21(2):14-16
Materials Science and Engineering. 2001, 300(1-2):1-11
Materials Science and Engineering. 2006, 428(1-2):54-58
Online since: March 2013
Authors: Ping Chen, Lian Bao Kan, Ming Wei Liu
Honzajková: Journal of Hazardous Materials Vol.207–208 (2012) , p.86–90
[9] Shrawan K.
Wu a, Chih-Chao Wu a, Hong-Wen Ma: Chemosphere Vol.54 (2004) , p.997–1003 [13] Susana Cortez, Pilar Teixeira, Rosário Oliveira: Journal of Hazardous Materials Vol.182 (2010) , p. 730–734 [14] Hamidi Abdul Aziz, Osama Mohammed Othman, Salem S.
Abu Amr: Waste Management Vol.xxx (2012) , p.xxx–xxx [15] Songlin Wang , Xiaohui Wu, Yansong Wang: Ultrasonics Sonochemistry Vol.15 (2008) , p. 933 –937 [16] Sebastià Puiga,b, Marc Serraa, Marta Coma: Journal of Hazardous Materials Vol.185 (2011) , p. 763–767 [17] Shrawan K.
Chan: Chemical Engineering Journal Vol.125 (2006) , p.35–57 [20] Fikret Kargi, M.
Yunus Pamukoglu: Enzyme and Microbial Technology Vol.33 (2003) , p.588–595 [21] Hongwei Sun, Qing Yang, Yongzhen Peng: Journal of Environmental Sciences Vol.22(2010) , p.481–485 [22] XU Yiping, ZHOU Yiqi, WANG Donghong: Journal of Environmental Sciences Vol.20(2008) , p.1281 –1287 [23] Michał Bodzek, Ewa Łobos-Moysa, Marlena Zamorowska: Desalination Vol.198 (2006) , p. 16 –23 [24]M.K.Mehmood, E.Adetutu, D.B.
Wu a, Chih-Chao Wu a, Hong-Wen Ma: Chemosphere Vol.54 (2004) , p.997–1003 [13] Susana Cortez, Pilar Teixeira, Rosário Oliveira: Journal of Hazardous Materials Vol.182 (2010) , p. 730–734 [14] Hamidi Abdul Aziz, Osama Mohammed Othman, Salem S.
Abu Amr: Waste Management Vol.xxx (2012) , p.xxx–xxx [15] Songlin Wang , Xiaohui Wu, Yansong Wang: Ultrasonics Sonochemistry Vol.15 (2008) , p. 933 –937 [16] Sebastià Puiga,b, Marc Serraa, Marta Coma: Journal of Hazardous Materials Vol.185 (2011) , p. 763–767 [17] Shrawan K.
Chan: Chemical Engineering Journal Vol.125 (2006) , p.35–57 [20] Fikret Kargi, M.
Yunus Pamukoglu: Enzyme and Microbial Technology Vol.33 (2003) , p.588–595 [21] Hongwei Sun, Qing Yang, Yongzhen Peng: Journal of Environmental Sciences Vol.22(2010) , p.481–485 [22] XU Yiping, ZHOU Yiqi, WANG Donghong: Journal of Environmental Sciences Vol.20(2008) , p.1281 –1287 [23] Michał Bodzek, Ewa Łobos-Moysa, Marlena Zamorowska: Desalination Vol.198 (2006) , p. 16 –23 [24]M.K.Mehmood, E.Adetutu, D.B.