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Online since: December 2022
Authors: Ki Woo Nam, Kyoung Hee Gu, Gum Hwa Lee, Chang Seok Oh
Although many studies have evaluated the harmless crack size of cracked materials after shot peening, few studies have evaluated the ahlm of cracked materials after stress shot peening, which can induce a larger compressive residual stress.
Materials and Experimental Methods 2.1 Evaluation of materials and specimens The material analyzed is spring steel containing 0.57wt.% carbon [11].
Kong, The needs of power spectral density in fatigue life prediction of heavy vehicle leaf spring, Journal of Mechanical Science and Technology, 34 (2020) 2341-2346
Takahashi, Improvement of Fatigue Limit by Shor Peening for High Strength Steel Specimens Containing a Crack-like Surface Defect, Journal of the Society of Materials Science of Japan, 58 (2009), 1030-1036
Mizutani, Nondestructive inspection of metal fatigue, Industrial Materials (Japan). 56 (2008), 86-89
Materials and Experimental Methods 2.1 Evaluation of materials and specimens The material analyzed is spring steel containing 0.57wt.% carbon [11].
Kong, The needs of power spectral density in fatigue life prediction of heavy vehicle leaf spring, Journal of Mechanical Science and Technology, 34 (2020) 2341-2346
Takahashi, Improvement of Fatigue Limit by Shor Peening for High Strength Steel Specimens Containing a Crack-like Surface Defect, Journal of the Society of Materials Science of Japan, 58 (2009), 1030-1036
Mizutani, Nondestructive inspection of metal fatigue, Industrial Materials (Japan). 56 (2008), 86-89
Online since: July 2014
Authors: Zhan Qiang Liu, Yu Kui Cai
There are many types of nozzle materials for different thrusters, such as ceramic, silicon and nickel-based alloy, etc.
Journal of Computers and Fluids, 2011, 49(1): 312-322
Chinese Journal of Aeronautics, 2012, 25(3): 381-387
Journal of Mechanical Science and Technology, 2006, 20(1): 85-93
Metals and Materials International, 2010, 16(3): 465-467
Journal of Computers and Fluids, 2011, 49(1): 312-322
Chinese Journal of Aeronautics, 2012, 25(3): 381-387
Journal of Mechanical Science and Technology, 2006, 20(1): 85-93
Metals and Materials International, 2010, 16(3): 465-467
Online since: March 2023
Authors: Noura Alharbi, Rahma Alkaabi, Mariam Alnuaimi, Essam Zaneldin, Waleed Ahmed
Recently, Zaneldin et. al., 2021 [6] compared the performance of 3D printed materials with that of traditional materials.
Materials, 2020, 13, 3133, doi:10.3390/ma13143133
Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials: Design and Applications, 2020, 235(6). https://doi.org/10.1177/14644207211011729
Materials, 2020, 13(18), 4065. doi.org/10.3390/ma13184065
Critical Reviews in Solid State and Materials Science, 2020, 45, 113–133
Materials, 2020, 13, 3133, doi:10.3390/ma13143133
Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials: Design and Applications, 2020, 235(6). https://doi.org/10.1177/14644207211011729
Materials, 2020, 13(18), 4065. doi.org/10.3390/ma13184065
Critical Reviews in Solid State and Materials Science, 2020, 45, 113–133
Online since: May 2021
Authors: Han Jun Gao, Shao Feng Wu, Xian Rang Zhang, Xiang Sheng Gao
Materials Science and Technology. 33.15 (2017): 1765-1775
Journal of Astronautics. 41.6 (2020): 676.
International Journal of Fatigue. 108 (2018): 62-67
Materials & Design. 195 (2020): 108954
Journal of Mechanical Science and Technology. 32.3 (2018): 1227-1234.
Journal of Astronautics. 41.6 (2020): 676.
International Journal of Fatigue. 108 (2018): 62-67
Materials & Design. 195 (2020): 108954
Journal of Mechanical Science and Technology. 32.3 (2018): 1227-1234.
Online since: June 2020
Authors: Abdelouahed Tounsi, Seyyed Amirhosein Hosseini, Farshad Khosravi
Computational Materials Science, 46 (2009), 854-859
Computational Materials Science, 47 (2009), 409-417
Computational Materials Science, 50 (2011), 2112-2123
Materials & design, 49 (2013), 894-904
Computational Materials Science, 41 (2008), 561-569
Computational Materials Science, 47 (2009), 409-417
Computational Materials Science, 50 (2011), 2112-2123
Materials & design, 49 (2013), 894-904
Computational Materials Science, 41 (2008), 561-569
Online since: February 2013
Authors: Mohd Nazree B. Derman, Mohd Zaidi Omar, Junaidi Syarif, Siti Hawa Salleh, S. Abdullah
Wang: Materials Science and Engineering: A Vols. 438–440 (2006), p. 276
Materials Science and Engineering An Introduction, (Sixth Edition), Jon Wiley & Sons, Inc, pp.371-372
Zhou: Materials Characterization Vol. 59 (2008), p. 883
Zou: Materials Science and Engineering A Vol. 489 (2008), p. 193
Sajuri: International Journal of Mechanical and Materials Engineering Vol. 4 (2009), p. 21
Materials Science and Engineering An Introduction, (Sixth Edition), Jon Wiley & Sons, Inc, pp.371-372
Zhou: Materials Characterization Vol. 59 (2008), p. 883
Zou: Materials Science and Engineering A Vol. 489 (2008), p. 193
Sajuri: International Journal of Mechanical and Materials Engineering Vol. 4 (2009), p. 21
Online since: April 2018
Authors: Hui Huang, De Kui Mu, Xi Peng Xu, Xin Jiang Liao, Qi Qi He
Passerone: Journal of Materials Science Vol. 47(7) (2012), p. 3252-3264
[4] L.
Lin, et al.: Materials Chemistry and Physics Vol. 124(1) (2010), p. 499-503 [5] L.
Dewar: Journal of materials science Vol. 10(11) (1975), p. 1833-1840 [10] H.
Spolenak, et al.: International Journal of Refractory Metals and Hard Materials Vol. 30(1) (2012), p. 16-24 [13] J.C.
Sung: International Journal of Refractory Metals and Hard Materials Vol. 27(2) (2009), p. 382-393
Lin, et al.: Materials Chemistry and Physics Vol. 124(1) (2010), p. 499-503 [5] L.
Dewar: Journal of materials science Vol. 10(11) (1975), p. 1833-1840 [10] H.
Spolenak, et al.: International Journal of Refractory Metals and Hard Materials Vol. 30(1) (2012), p. 16-24 [13] J.C.
Sung: International Journal of Refractory Metals and Hard Materials Vol. 27(2) (2009), p. 382-393
Online since: April 2013
Authors: Chee Seong Chin, Robert Yong Xiao
Patel, Flexural Toughness of Steel Fiber Reinforced Concrete, ACI Materials Journal. 89 (1992) 541-546
Banthia, Polymer and Steel Fiber-Reinforced Cementitious Composites under Impact Loading – Part 2: Flexural Toughness, ACI Materials Journal. 98 (2001) 17-24
Najm, High-Performance Fiber-Reinforced Concrete Mixture Proportions with High Fiber Volume Fractions, ACI Materials Journal. 101 (2004) 281-286
Soleimani, Flexural Response of Hybrid Fiber-Reinforced Cementitious Composites, ACI Materials Journal. 102 (2005) 382-389
Zhang, Investigation of Complete Stress-Deformation Curves for Concrete in Tension, ACI Materials Journal. 84-M29, (1987) 278-285
Banthia, Polymer and Steel Fiber-Reinforced Cementitious Composites under Impact Loading – Part 2: Flexural Toughness, ACI Materials Journal. 98 (2001) 17-24
Najm, High-Performance Fiber-Reinforced Concrete Mixture Proportions with High Fiber Volume Fractions, ACI Materials Journal. 101 (2004) 281-286
Soleimani, Flexural Response of Hybrid Fiber-Reinforced Cementitious Composites, ACI Materials Journal. 102 (2005) 382-389
Zhang, Investigation of Complete Stress-Deformation Curves for Concrete in Tension, ACI Materials Journal. 84-M29, (1987) 278-285
Online since: March 2014
Authors: Shuang Quan Liao, Zhi Fen Wang, Lin Fang, Sen Zhao, Le Fan Li, Yang Jian Shu Gao
Reinforcement of Natural Rubber Latex Film by Starch Nanocrystal
Yang-Jian-Shu Gaoa, Sen Zhaob, Shuang-Quan Liaoc, Lin Fangd, Zhi-Fen Wange,*, Le-Fan Lif
College of Materials and Chemical Engineering, Hainan University, Haikou 570228, P.
China; Key Lab of Advanced Materials of Tropical Island Resources, Ministry of Education, Haikou 570228, P.
Experimental Materials Natural rubber latex, 30% (w/w), was kindly provided by the rubber processing factory of experimental farm which belongs to Chinese Tropical Agriculture Academy (Hainan, PR China).
References [1] Márcia Maria Rippel, C.A.P.L., Fernando Galembeck: Analytical chemistry Vol. 74 ( 2002), p. 2541 [2] MEI-HUA ZHOU, T.H., IL-GON KIM, CHANG-SIK HA, WON-JEI CHO: Journal of Applied Polymer Science Vol. 79 (2001), p. 2464 [3] Zhi-Fen Wang, Zheng Peng,Si-Dong Li, Hua Lin, Ke-Xi Zhang,Xiao-Dong She,Xin Fua: Composites Science and Technology Vol. 69(2009), p. 1797 [4] Lili Ren,Man Jiang,Liyan Wang,Jiang Zhou,Jin Tong: Carbohydrate Polymers Vol. 87 (2012), p. 1874 [5] Z.F.
Huang: e-Polymers Vol. 115 (2010), p. 1 [6]Darji, D.M.z.M.S. : Pertanika Journal of Science and Technology Vol. 18 (2010), p. 421 [7] Ji-Fang Fu, Wen-Qi Yua, Xing Dong, Li-Ya Chen, Hai-Sen Jia, Li-Yi Shi, Qing-Dong Zhong,Wei Deng: Materials and Design Vol. 49 (2013): p. 336 [8] Valodkar, M. and S.
China; Key Lab of Advanced Materials of Tropical Island Resources, Ministry of Education, Haikou 570228, P.
Experimental Materials Natural rubber latex, 30% (w/w), was kindly provided by the rubber processing factory of experimental farm which belongs to Chinese Tropical Agriculture Academy (Hainan, PR China).
References [1] Márcia Maria Rippel, C.A.P.L., Fernando Galembeck: Analytical chemistry Vol. 74 ( 2002), p. 2541 [2] MEI-HUA ZHOU, T.H., IL-GON KIM, CHANG-SIK HA, WON-JEI CHO: Journal of Applied Polymer Science Vol. 79 (2001), p. 2464 [3] Zhi-Fen Wang, Zheng Peng,Si-Dong Li, Hua Lin, Ke-Xi Zhang,Xiao-Dong She,Xin Fua: Composites Science and Technology Vol. 69(2009), p. 1797 [4] Lili Ren,Man Jiang,Liyan Wang,Jiang Zhou,Jin Tong: Carbohydrate Polymers Vol. 87 (2012), p. 1874 [5] Z.F.
Huang: e-Polymers Vol. 115 (2010), p. 1 [6]Darji, D.M.z.M.S. : Pertanika Journal of Science and Technology Vol. 18 (2010), p. 421 [7] Ji-Fang Fu, Wen-Qi Yua, Xing Dong, Li-Ya Chen, Hai-Sen Jia, Li-Yi Shi, Qing-Dong Zhong,Wei Deng: Materials and Design Vol. 49 (2013): p. 336 [8] Valodkar, M. and S.
Online since: March 2022
Authors: Emmanuel Ikechukwu Ugwu, Jonah Chukwuemeka Agunwamba
Therefore, there is a need for the production of activated carbon from low-cost materials.
Journal of Hazardous Materials, 158:615–620 [6] Kaakani MW (2012) Heavy Metal removal from Wastewater using novel Adsorbent.
Journal of Hazardous Materials 171, 1066–1070
Journal of Hazardous Materials, 184, 126–134
Removal of copper (II) ions by a biosorbent-Cinnamomum camphora.Journal of Hazardous Materials, 177, 228–236
Journal of Hazardous Materials, 158:615–620 [6] Kaakani MW (2012) Heavy Metal removal from Wastewater using novel Adsorbent.
Journal of Hazardous Materials 171, 1066–1070
Journal of Hazardous Materials, 184, 126–134
Removal of copper (II) ions by a biosorbent-Cinnamomum camphora.Journal of Hazardous Materials, 177, 228–236