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Online since: December 2013
Authors: Othman Mamat, Zulkhairi Rizlan
Ball mill is used for the purpose of grinding all kind of materials [5].
Ball mill has been widely used in the field of refractories, cement, building materials, silicate product, chemical fertilizer, fire-pro of materials, glass, black and non-ferrous metal, ceramic and other mining department which can be used as anti-abrasion materials [7].
[3] Eşme, U. (2009) 'Application of Taguchi Method for the Optimization of Resistance Spot Welding Process', The Arabian Journal for Science and Engineering, vol. 34, no. 2B, October, pp. 519-528
[9] Suryanarayana, C. (2001) 'Mechanical alloying and milling', Progress in Materials Science, no. 46, pp. 1-184
[11] Zhang, F.L., Zhu, M., Wang, C.Y. (2008) 'Parameters optimization in the planetary ball milling', International Journal of Refractory Metals & Hard Materials, no. 26, pp. 329-333.
Ball mill has been widely used in the field of refractories, cement, building materials, silicate product, chemical fertilizer, fire-pro of materials, glass, black and non-ferrous metal, ceramic and other mining department which can be used as anti-abrasion materials [7].
[3] Eşme, U. (2009) 'Application of Taguchi Method for the Optimization of Resistance Spot Welding Process', The Arabian Journal for Science and Engineering, vol. 34, no. 2B, October, pp. 519-528
[9] Suryanarayana, C. (2001) 'Mechanical alloying and milling', Progress in Materials Science, no. 46, pp. 1-184
[11] Zhang, F.L., Zhu, M., Wang, C.Y. (2008) 'Parameters optimization in the planetary ball milling', International Journal of Refractory Metals & Hard Materials, no. 26, pp. 329-333.
A Study on the Evaluation of Material Degradation of 1Cr-1Mo-0.25V Steel Using Ultrasonic Techniques
Online since: April 2004
Authors: Jeong Pyo Kim, Bong Kook Bae, Chang Sung Seok
Integrity of structural components depends on the deformation and fracture behavior of
materials.
Taplin., Metal Science, Vol. 16(1982) pp. 90. 9.
ASTM E 8-95a, Standard Test Method for Tension Testing of Metallic Materials, Annual Book of ASTM Standard(1995) pp. 56. 10.
ASTM E 399-90, Standard Test Method for Plane-Strain Fracture Toughness of Metallic Materials, Annual Book of ASTM Standard(1995) pp. 412. 11.
Hollman, Journal of Applied Physics, 83(1998) pp. 4584.
Taplin., Metal Science, Vol. 16(1982) pp. 90. 9.
ASTM E 8-95a, Standard Test Method for Tension Testing of Metallic Materials, Annual Book of ASTM Standard(1995) pp. 56. 10.
ASTM E 399-90, Standard Test Method for Plane-Strain Fracture Toughness of Metallic Materials, Annual Book of ASTM Standard(1995) pp. 412. 11.
Hollman, Journal of Applied Physics, 83(1998) pp. 4584.
Online since: September 2019
Authors: Kirill Nikolenko, Alina Lopatina, Sergey Zvonov, Konstantin Nokolenko
Weloc, Multiple instability-constrained tube bending limits, Journal of Materials Processing Technology. 214 (2014) 445–455
Altan, Virtual process development in tube hydroforming, Journal of materials processing technology. 146 (2004), 130-136
Zhan, et al. 3D numerical study on wrinkling characteristics in NC bending of aluminum alloy thin-walled tubes with large diameters under multi-die constraints, Computational Materials Science. 45(4) (2009), 1052-1067
Materials Physics and Mechanics, 36(1), 131-136. doi:10.18720/MPM.3612018_14 [22] Rudskoi, A.
Materials Physics and Mechanics, 38(1), 76-81. doi:10.18720/MPM.3812018_11 [23] Korolev, A.
Altan, Virtual process development in tube hydroforming, Journal of materials processing technology. 146 (2004), 130-136
Zhan, et al. 3D numerical study on wrinkling characteristics in NC bending of aluminum alloy thin-walled tubes with large diameters under multi-die constraints, Computational Materials Science. 45(4) (2009), 1052-1067
Materials Physics and Mechanics, 36(1), 131-136. doi:10.18720/MPM.3612018_14 [22] Rudskoi, A.
Materials Physics and Mechanics, 38(1), 76-81. doi:10.18720/MPM.3812018_11 [23] Korolev, A.
Online since: February 2011
Authors: Jian Guo Yang, Zhen Xin Zhou, Jing Zhu Pang, Bei Zhi Li
Reference
[1] Mingzhang Lu, Wanli Xiong, Hongwu Huang, Developments of Super-high Speed Grinding and Its Relative Main Technologies (J), Journal Of Hunan University (Natural Sciences Edition), 2002,29(5):44-48.
(In Chinese) [4] Domenico Umbrello , Finite element simulation of conventional and high speed machining of Ti6Al4V alloy ,Journal of Materials Processing Technology ,Volume 196 , Issues 1-3 , 21 January (2008): 79-87
Journal of Materials Science, 2002 , 37(15) :3229-3239
Journal of Materials Processing Technology, 2004 ,147:277-285
(In Chinese) [11] Zhengming Zeng, Mechanical Engineering Materials Manual (Metal Material), Beijing: China Machine PRESS, 2003.
(In Chinese) [4] Domenico Umbrello , Finite element simulation of conventional and high speed machining of Ti6Al4V alloy ,Journal of Materials Processing Technology ,Volume 196 , Issues 1-3 , 21 January (2008): 79-87
Journal of Materials Science, 2002 , 37(15) :3229-3239
Journal of Materials Processing Technology, 2004 ,147:277-285
(In Chinese) [11] Zhengming Zeng, Mechanical Engineering Materials Manual (Metal Material), Beijing: China Machine PRESS, 2003.
Online since: July 2019
Authors: Akhyar Akhyar, Farhan Ahmad, Ali Masri
Journal of Materials Processing Technology.
Matuszak, New methods of aluminium and aluminium-alloy chips recycling, Journal of Materials Processing Technology, Vol. 106: 34-39, 2000.
Gronostajski, Bearing materials obtained by recycling of aluminium and aluminium bronze chips, Journal of Materials Processing Technology, Vol. 125–126: 483–490, 2002.
Gethin, Design optimisation of aluminium recycling processes using Taguchi technique, Journal of Materials Processing Technology, Vol. 127: 96–106, 2002.
Talari, An Evaluation of Microstructure and Hardness properties of Zr Added FeNiAlCoCr High Entropy Alloys, Materials Science Forum, Vol. 846: 20-26, 2016. doi:10.4028/www.scientific.net/MSF.846.20.
Matuszak, New methods of aluminium and aluminium-alloy chips recycling, Journal of Materials Processing Technology, Vol. 106: 34-39, 2000.
Gronostajski, Bearing materials obtained by recycling of aluminium and aluminium bronze chips, Journal of Materials Processing Technology, Vol. 125–126: 483–490, 2002.
Gethin, Design optimisation of aluminium recycling processes using Taguchi technique, Journal of Materials Processing Technology, Vol. 127: 96–106, 2002.
Talari, An Evaluation of Microstructure and Hardness properties of Zr Added FeNiAlCoCr High Entropy Alloys, Materials Science Forum, Vol. 846: 20-26, 2016. doi:10.4028/www.scientific.net/MSF.846.20.
Online since: May 2023
Authors: Vinuta Kamat, Sheetal Batakurki, Basappa C. Yallur, D.H. Manjunath, Vinayak Adimule
Materials Today Chemistry. 20 (2021) 100438
Journal of Materials Science: Materials in Electronics. 32, 9 (2021) 12164-12181
Journal of Materials Research. 37 (2022) 2396–2405
Journal of Science: Advanced Materials and Devices. 5 (2020) 185-191
Journal of Materials Research. 37 (2022) 2396-2405
Journal of Materials Science: Materials in Electronics. 32, 9 (2021) 12164-12181
Journal of Materials Research. 37 (2022) 2396–2405
Journal of Science: Advanced Materials and Devices. 5 (2020) 185-191
Journal of Materials Research. 37 (2022) 2396-2405
Online since: July 2014
Authors: Joelma C. S. Breve, Dayse I. dos Santos
Solid State Sciences, vol. 7 (2005) 868
Xia, Journal of Materials Chemistry, vol 14 (2004) 695
Peng, Journal of Hardous Materials B, vol 139 (2007) 310
K., Sarraf-Mamoory, R., Materials Research Bulletin, vol 47 (2012) 362
Gengyu, Materials Chemistry and Physics, vol 98 (2006) 116.
Xia, Journal of Materials Chemistry, vol 14 (2004) 695
Peng, Journal of Hardous Materials B, vol 139 (2007) 310
K., Sarraf-Mamoory, R., Materials Research Bulletin, vol 47 (2012) 362
Gengyu, Materials Chemistry and Physics, vol 98 (2006) 116.
Online since: April 2020
Authors: Nittaya Jaitanong, Suparut Narksitipan, Siriphorn Rabma
Coconut Fiber Reinforced Cement-Based Composites
Siriphorn Rabmaa, Suparut Narksitipanb and Nittaya Jaitanongc,*
Program in Materials Science, Faculty of Science, Maejo University,
63 Moo 4, Nongharn, Sansai, Chiangmai, 50290
ai_paiza_@hotmail.com, bsnarksitipan@gmail.com, cnjaitanong@gmail.com
Keywords: cement; coconut fiber; composite materials.
Materials & Design 2014; 56:528-541
Materials & Design 2013; 51:629-40
Composite Cement Reinforced Coconut Fiber: Physical and Mechanical Properties and Fracture Behavior, Australian Journal of Basic and Applied Sciences 2011;5(7): 1228-1240
ASCE Journal of Materials in Civil Engineering, 2009;21: 512-517
Materials & Design 2014; 56:528-541
Materials & Design 2013; 51:629-40
Composite Cement Reinforced Coconut Fiber: Physical and Mechanical Properties and Fracture Behavior, Australian Journal of Basic and Applied Sciences 2011;5(7): 1228-1240
ASCE Journal of Materials in Civil Engineering, 2009;21: 512-517
Online since: December 2014
Authors: S. Pauly, Claudio Shyinti Kiminami, J. Eckert, W.J. Botta, C. Bolfarini, L.A. Basilio, E.M. Mazzer, P. Gargarella, R.D. Cava, T. Gustmann
Ren: Progress in Materials Science Vol. 50 (2005), p. 511
Bizjak: Journal of Materials Processing Technology Vol. 162-163 (2005), p. 220
Cesari: Materials Science and Engineering A Vol. 158 (1992), p. 119
Crone: Materials Science and Engineering A Vol. 498 (2008), p. 404
Bose: Journal of Materials Science: Materials in Medicine Vol. 20 (2009), p. 29
Bizjak: Journal of Materials Processing Technology Vol. 162-163 (2005), p. 220
Cesari: Materials Science and Engineering A Vol. 158 (1992), p. 119
Crone: Materials Science and Engineering A Vol. 498 (2008), p. 404
Bose: Journal of Materials Science: Materials in Medicine Vol. 20 (2009), p. 29
Online since: May 2014
Authors: Tian Xiao Chen, Chun Mei Li, Nan Pu Cheng, Hui Na Jia
Duszczyk: Journal of Materials Processing Technology, Vol. 114 (2001) No.2, p.145-153
Wu: Journal of Materials Processing Technology, Vol. 206 (2008) No.1-3, p.481-490
Svendsen: Journal of Materials Processing Technology, Vol. 209 (2009) No.2, p.876-883
Misiolek: Journal of Materials Processing Technology, Vol. 60 (1996) No.1-4, p.117-124
Buijk: Journal of Materials Processing Technology, Vol. 113 (2001) No.1-3, p.93-97
Wu: Journal of Materials Processing Technology, Vol. 206 (2008) No.1-3, p.481-490
Svendsen: Journal of Materials Processing Technology, Vol. 209 (2009) No.2, p.876-883
Misiolek: Journal of Materials Processing Technology, Vol. 60 (1996) No.1-4, p.117-124
Buijk: Journal of Materials Processing Technology, Vol. 113 (2001) No.1-3, p.93-97