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Online since: January 2014
Authors: Ai Min Sha, Wei Jiang, Xiao Long Zou, Xin Yan Huang
Materials and test program
Materials.
Advanced Materials Research, Vol.163 (44) (2011), p.74 [4] LEE H J, LEE J H, PARK H M.
Construction and building materials, Vol.21 (5) (2007), p.79 [5] CORTE J-F.
Journal of Chang’an University (Natural Science Edition), Vol.29 (3) (2009), p.1 (in Chinese) [7] XIAO Qing-yi, RUI Shao-quan, WANG Hang, ZHEN Tao, HAO Pei-wen: J.
Journal of South China University of Technology (Natural Science Edition), Vol.36 (10) (2008), p.76 (in Chinese)
Advanced Materials Research, Vol.163 (44) (2011), p.74 [4] LEE H J, LEE J H, PARK H M.
Construction and building materials, Vol.21 (5) (2007), p.79 [5] CORTE J-F.
Journal of Chang’an University (Natural Science Edition), Vol.29 (3) (2009), p.1 (in Chinese) [7] XIAO Qing-yi, RUI Shao-quan, WANG Hang, ZHEN Tao, HAO Pei-wen: J.
Journal of South China University of Technology (Natural Science Edition), Vol.36 (10) (2008), p.76 (in Chinese)
Online since: May 2011
Authors: Wei Li, Zhi Qiang Huang, Yi Zhou, Shi Jin Peng, Cheng Song Qiu, Qin Li
Select the YG8 material currently used more on the air hammer bit tooth as the substrate materials.
Ordnance Material Science and Engineering, 2010,33(4):40-42.
Journal of University of Jinan(Science and Technology, 2009,23(2):139-140.
Journal of Materials Science, 1998, 33( 4): 869-876
Metallurgical and Materials Transactions A,1990,30(12):3231-3238
Ordnance Material Science and Engineering, 2010,33(4):40-42.
Journal of University of Jinan(Science and Technology, 2009,23(2):139-140.
Journal of Materials Science, 1998, 33( 4): 869-876
Metallurgical and Materials Transactions A,1990,30(12):3231-3238
Online since: August 2023
Authors: Oleg Suprun, Artem Ruban, Viktoriya Pasternak, Nina Zolotova
Ruban, Investigation of the properties of powder materials using computer modeling, Materials Science Forum 1038 (2021) 33-39
[20] Chen.
Morkovska, Investigation of the main stages in modeling spherical particles of inhomogeneous materials, Materials Science Forum 1068 (2022) 207-214
Bezuhla, Improvement of fire resistance of polymeric materials at their filling with aluminosilicates, Materials Science Forum 1006 (2020) 55-61
Huliieva, Prediction of the structural properties of powder materials by 3D modeling methods, Materials Science Forum 1068 (2022) 231-238
Romin, Software modeling environment for solving problems of structurally inhomogeneous materials, Materials Science Forum 1068 (2022) 215-222.
Morkovska, Investigation of the main stages in modeling spherical particles of inhomogeneous materials, Materials Science Forum 1068 (2022) 207-214
Bezuhla, Improvement of fire resistance of polymeric materials at their filling with aluminosilicates, Materials Science Forum 1006 (2020) 55-61
Huliieva, Prediction of the structural properties of powder materials by 3D modeling methods, Materials Science Forum 1068 (2022) 231-238
Romin, Software modeling environment for solving problems of structurally inhomogeneous materials, Materials Science Forum 1068 (2022) 215-222.
Online since: April 2008
Authors: Dong Jin Zhang, Gang Liu, Ming Chen, Jun Li Li
But GH80A is also one of the extremely difficult-to-cut materials.
Machining and Machinability of Materials, Vol.1 (2006), p. 287-300 [2] E.A.
Vol. 47 (9), pp. 751-757 [3] Chen Ming, Li Xiaotian and Sun Fanghong: Journal of Materials Processing Technology Vol.116 (2001), p. 165-169 [4] M.C.
Joyot et al: A numerical simulation of steady state metal cutting, Proceedings of the IMECH E part C, Journal of Mechanical Engineering Science Vol.212 (5) (1998),p. 331-341 [9] Q. wen et al.: An adaptive FEA method to predict surface quality in hard machining, Journal of Material Process Technology Vol.173 (2006), p. 21-28 [10] C.
Deng: Finite element analysis of the orthogonal metal cutting process, Journal of Materials Processing Technology Vol.105 (2000), p. 95-109 [11] Schulz H, and Abele E et al: CIRP Vol.50 (2001), p. 45-48
Machining and Machinability of Materials, Vol.1 (2006), p. 287-300 [2] E.A.
Vol. 47 (9), pp. 751-757 [3] Chen Ming, Li Xiaotian and Sun Fanghong: Journal of Materials Processing Technology Vol.116 (2001), p. 165-169 [4] M.C.
Joyot et al: A numerical simulation of steady state metal cutting, Proceedings of the IMECH E part C, Journal of Mechanical Engineering Science Vol.212 (5) (1998),p. 331-341 [9] Q. wen et al.: An adaptive FEA method to predict surface quality in hard machining, Journal of Material Process Technology Vol.173 (2006), p. 21-28 [10] C.
Deng: Finite element analysis of the orthogonal metal cutting process, Journal of Materials Processing Technology Vol.105 (2000), p. 95-109 [11] Schulz H, and Abele E et al: CIRP Vol.50 (2001), p. 45-48
Online since: March 2026
Authors: Tien Chien Jen, Adedotun Adetunla, Ngozi Enemuo, Uchenna Godwin Azubuike
Common modification approaches include blending or doping, grafting, coating tailored materials onto the surface or bulk of the membrane, and plasma treatment [20].
Hence, ALD can be a more effective alternative to modify a broad range of materials commonly used in membrane fabrication [29].
Another obvious challenge in the scalability of the ALD-modified membrane is the possibility of leaching out of the deposited materials in a long-term membrane operation [24].
Lei, ‘Aramid Nanofiber Membranes for Energy Harvesting from Proton Gradients’, Advanced Functional Materials, vol. 32, no. 1, p. 2102080, 2022, doi: 10.1002/adfm.202102080
Dorsey et al., ‘Atomic Layer Deposition for Membranes, Metamaterials, and Mechanisms’, Advanced Materials, vol. 31, no. 29, p. 1901944, 2019, doi: 10.1002/adma.201901944
Hence, ALD can be a more effective alternative to modify a broad range of materials commonly used in membrane fabrication [29].
Another obvious challenge in the scalability of the ALD-modified membrane is the possibility of leaching out of the deposited materials in a long-term membrane operation [24].
Lei, ‘Aramid Nanofiber Membranes for Energy Harvesting from Proton Gradients’, Advanced Functional Materials, vol. 32, no. 1, p. 2102080, 2022, doi: 10.1002/adfm.202102080
Dorsey et al., ‘Atomic Layer Deposition for Membranes, Metamaterials, and Mechanisms’, Advanced Materials, vol. 31, no. 29, p. 1901944, 2019, doi: 10.1002/adma.201901944
Online since: August 2013
Authors: Wan Li Bi, En Yu Sun
Summary of Application of Intelligent Materials in Building
Enyu Sun 1,a Wanli Bi1,b
1 University of Science and Technology Liaoning, Anshan Liaoning 114051, China
a sunenyu@126.com b asbwl@126.com
Keywords: Intelligent materia,Self-sensing,Self-repairing,Self-control.
Basic composition of intelligent materials Intelligent materials in general by the matrix materials, sensitive materials, driving material and information processor is composed of 4 parts: base material.
Common sensitive materials such as shape memory materials, piezoelectric materials, optical fiber materials, magnetostrictive materials, electrochromic materials, electrorheological fluids, magnetorheological fluids and liquid crystal materials; driving material.
Common drive material with shape memory materials, electrorheological fluid and magnetostrictive materials, these materials are not only driving material is sensitive material; the information processor.
Ancevic: Intelligent building system for airport, ASHRAE Journal.Vol.62 (1997), P. 31
Basic composition of intelligent materials Intelligent materials in general by the matrix materials, sensitive materials, driving material and information processor is composed of 4 parts: base material.
Common sensitive materials such as shape memory materials, piezoelectric materials, optical fiber materials, magnetostrictive materials, electrochromic materials, electrorheological fluids, magnetorheological fluids and liquid crystal materials; driving material.
Common drive material with shape memory materials, electrorheological fluid and magnetostrictive materials, these materials are not only driving material is sensitive material; the information processor.
Ancevic: Intelligent building system for airport, ASHRAE Journal.Vol.62 (1997), P. 31
Online since: October 2015
Authors: Jing Jiang, Shu Ying Liu, Bang Chun Wen, Hao Yang
The separation effects of different materials depend on not only the reasonable option on dynamical parameters of machine, but also the difference in friction factors and elasticity coefficient of materials.
Wen, The analysis of motions of two types of materials on linear vibrating screen, Journal of Northeastern University (Natural Science), 18 (1997) 23-27
Progresses in fracture and strength of materials and structures, Hainan Island, China, 353 (2007) 758-761
Wen, Dynamic analysis of a vibration conveyer with large inclination in consideration of material forces, Journal of Northeastern University (Natural Science), 17 (1996) 315-319
Advanced Materials Research, 779-780 (2013) 270-277.
Wen, The analysis of motions of two types of materials on linear vibrating screen, Journal of Northeastern University (Natural Science), 18 (1997) 23-27
Progresses in fracture and strength of materials and structures, Hainan Island, China, 353 (2007) 758-761
Wen, Dynamic analysis of a vibration conveyer with large inclination in consideration of material forces, Journal of Northeastern University (Natural Science), 17 (1996) 315-319
Advanced Materials Research, 779-780 (2013) 270-277.
Online since: August 2019
Authors: M. Arif Siddiqui, Mohd Farhan Zafar
International Journal of Engineering and Science 2:2 (2013) 1-8
[6] N.
Gaitonde, Mechanical and physical characterization of agricultural waste reinforced polymer composites, Journal of Material and Environmental Science 3:5 (2012) 907-916
Zizumbo, Polystyrene composites prepared with polystyrene grafted fibres of sugarcane bagasse as reinforcing materials, Journal of Mexican Chemical Society 55:1 (2011) 33-41 [10] I.O.
Igwe, The effect of filler contents and particle size on the mechanical and end-use properties of Snail Shell powder filled polypropylene, Materials Sciences and Application 2 (2011) 811-817
Cetinkaya, Banana fiber and pet bottles waste reinforced polymer composites, Usak University Journal of Material Sciences 1 (2012) 29-34 [17] S.
Gaitonde, Mechanical and physical characterization of agricultural waste reinforced polymer composites, Journal of Material and Environmental Science 3:5 (2012) 907-916
Zizumbo, Polystyrene composites prepared with polystyrene grafted fibres of sugarcane bagasse as reinforcing materials, Journal of Mexican Chemical Society 55:1 (2011) 33-41 [10] I.O.
Igwe, The effect of filler contents and particle size on the mechanical and end-use properties of Snail Shell powder filled polypropylene, Materials Sciences and Application 2 (2011) 811-817
Cetinkaya, Banana fiber and pet bottles waste reinforced polymer composites, Usak University Journal of Material Sciences 1 (2012) 29-34 [17] S.
Online since: May 2013
Authors: Yan Qin, Zhi Xiong Huang, Jie Ding, Qi Lin Mei, Zhi Long Rao
Experimental
Materials
All materials were used as received.
Materials Review, 19,13-16
Materials science&engineering a,398,180-187
Materials science&engineering a,425,7-14
,&Choyu Otani.(2010).Degradation of carbon-based materials under ablative conditions produced by a high enthalpy plasma jet.Journal of aerospace technology&Management, 33-40
Materials Review, 19,13-16
Materials science&engineering a,398,180-187
Materials science&engineering a,425,7-14
,&Choyu Otani.(2010).Degradation of carbon-based materials under ablative conditions produced by a high enthalpy plasma jet.Journal of aerospace technology&Management, 33-40
Online since: September 2014
Authors: Ku Zilati Ku Shaari, Zakaria Man, Luqman Hakim Hassan
Lately, biodegradable substances as raw materials of coating were progressively reported such as corn starch coating [8] and PVA-starch coating [9-11].
Li, Biodegradable Polyurethane Materials from Bark and Starch.
Coating Material for Controlled-Release Fertilizer, Journal of Applied Polymer Science 86 (2002) 2948–2952
Pruteanu, Testing of polyvinyl alcohol and starch mixtures as biodegradable polymeric materials, Polymer Testing, 19 (2000) 785–799
Bustam, Improvement of hydrophobicity of urea modified tapioca starch film with lignin for slow release fertilizer, Advanced Materials Research 626 (2013) 350-354
Li, Biodegradable Polyurethane Materials from Bark and Starch.
Coating Material for Controlled-Release Fertilizer, Journal of Applied Polymer Science 86 (2002) 2948–2952
Pruteanu, Testing of polyvinyl alcohol and starch mixtures as biodegradable polymeric materials, Polymer Testing, 19 (2000) 785–799
Bustam, Improvement of hydrophobicity of urea modified tapioca starch film with lignin for slow release fertilizer, Advanced Materials Research 626 (2013) 350-354