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Online since: June 2015
Authors: D.S. Vasilega, A.M. Tveryakov, E.V. Artamonov
Increasing Machining Efficiency of Components Made from Hard-Processing Materials
E.V.
Heat-proof steels and alloys belong to the group of churlish materials.
Unlike common steels for general engineering purposes, such materials are much harder to process via cutting.
Applied Mechanics and Materials. 379 (2013) 49-55
World Applied Sciences Journal. 25 (9) (2013) 1275-1279
Heat-proof steels and alloys belong to the group of churlish materials.
Unlike common steels for general engineering purposes, such materials are much harder to process via cutting.
Applied Mechanics and Materials. 379 (2013) 49-55
World Applied Sciences Journal. 25 (9) (2013) 1275-1279
Online since: September 2016
Authors: Zhi Hua Chen, Hong Bo Liu, Xiang Yu Yan, Ze Chao Zhang, Xiao Dun Wang, Jing Hai Yu
The capsule is made of aluminum alloys material, and its span is 125 meters.
In order to consider the material nonlinearity of aluminum alloys, the materials properties of aluminum in the analysis model was selected as intensive model, such as bilinear tangent modulus of assumption to be zero.
Journal of Tianjin University(Science and Technology)2015;48,32-38
Journal of Tianjin University(Science and Technology) 2015; 0493-2137(2015) [6] Yang Lianping, Wei Shen, Zhang Qilin.
Journal of Building Structures 2013;1000-6869(2013)02-0001-19.
In order to consider the material nonlinearity of aluminum alloys, the materials properties of aluminum in the analysis model was selected as intensive model, such as bilinear tangent modulus of assumption to be zero.
Journal of Tianjin University(Science and Technology)2015;48,32-38
Journal of Tianjin University(Science and Technology) 2015; 0493-2137(2015) [6] Yang Lianping, Wei Shen, Zhang Qilin.
Journal of Building Structures 2013;1000-6869(2013)02-0001-19.
Online since: July 2024
Authors: Ho-Seok Lee, Seok Keun Koh, Sang-Hoon Lee
Materials and Methods
NPP is the acronym of nanoparticles on powder, and it is a novel technique to deposit metal nanoparticles on the surface of carrier having the form of powder or pellet (Fig. 2).
By using NPP technology, it is possible to give new functions to existing materials by depositing metal nanoparticles on them.
One of the benefits of NPP materials for manufacturing antibacterial packaging is the simple process using existing plastic film manufacturing equipment.
It is speculated that excellent dispersibility of NPP materials comes from preferential encapsulating of nanoparticles by polymer due to high surface energy and high purity.
Cummins: Journal of Agricultural and Food Chemistry, 62, 1403-1411 (2014) [16] M.S.
By using NPP technology, it is possible to give new functions to existing materials by depositing metal nanoparticles on them.
One of the benefits of NPP materials for manufacturing antibacterial packaging is the simple process using existing plastic film manufacturing equipment.
It is speculated that excellent dispersibility of NPP materials comes from preferential encapsulating of nanoparticles by polymer due to high surface energy and high purity.
Cummins: Journal of Agricultural and Food Chemistry, 62, 1403-1411 (2014) [16] M.S.
Online since: July 2013
Authors: Qing Xin Zhang, Hui Yang Yu, Yu Huan Xie
Exploration of Magnetically Controlled Shape Memory Alloy vibration energy harvestor
Qingxin Zhang 1, a, Huiyang Yu 1,b and Yuhuan Xie 1,c
1 Automation department, Shenyang Aerospace University, Shenyang, China
a e-mail: zhy9712@sau.edu.cn, b e-mail: yuhuiyang1989@126.com, c e-mail: 375648665@qq.com
Keywords: Magnetically Controlled Shape Memory Alloy (MSMA), piezoelectric materials(PZT), giant magnetostrictive material (Terfenol-D), vibration energy harvestor.
Magnetically shape memory alloy (short for MSMA) can gets a larger deformation rate under the conditions of the martensite in the applied magnetic field, and having a shape memory function, high force , frequency and large energy density, it is expected to become a key materials of the new generation of smart actuators and sensors.
Wherein the electromagnetic type is constituted by the coil and the permanent magnet, using smart materials collected energy mainly to the piezoelectric material (PZT) and giant magnetostrictive material (Terfenol-D).
Acknowledgements The research work reported in this paper is supported by the National Natural Science Foundation of China (51277126).And thanks to the researchers for the suggestions, research samples and experimental datas.
Journal of Micromechanics and Microengineering, 2003, 13: 209—216
Magnetically shape memory alloy (short for MSMA) can gets a larger deformation rate under the conditions of the martensite in the applied magnetic field, and having a shape memory function, high force , frequency and large energy density, it is expected to become a key materials of the new generation of smart actuators and sensors.
Wherein the electromagnetic type is constituted by the coil and the permanent magnet, using smart materials collected energy mainly to the piezoelectric material (PZT) and giant magnetostrictive material (Terfenol-D).
Acknowledgements The research work reported in this paper is supported by the National Natural Science Foundation of China (51277126).And thanks to the researchers for the suggestions, research samples and experimental datas.
Journal of Micromechanics and Microengineering, 2003, 13: 209—216
Online since: July 2016
Authors: Li Li Ma, Hao Li, Qing Lin Xie, Nan Chun Chen, Hui Xu
Ma [22] fabricated composite material of chitosan-diatomite and studied the material’s adsorption properties of Cr6+.
Journal of Hunan University of Science &Technology, 19(3)(2004): 81-84 [6] W.
Journal of Hazardous Materials (2010), doi:10.1016/ j.jhazmat.2011.06.058
Chinese Science Bulletin, 44(12)(1996): 1310-1315
Journal of Binzhou University, 29(6)(2013): 103-105 [23] W.
Journal of Hunan University of Science &Technology, 19(3)(2004): 81-84 [6] W.
Journal of Hazardous Materials (2010), doi:10.1016/ j.jhazmat.2011.06.058
Chinese Science Bulletin, 44(12)(1996): 1310-1315
Journal of Binzhou University, 29(6)(2013): 103-105 [23] W.
Online since: March 2024
Authors: Brigita Tomšič, Mohammad Mamunur Rashid, Matija Zorc, Ivan Jerman, Barbara Simončič
Experimental
Materials.
Materials, 12, 2840
Journal of Materials Chemistry A, 7, 13833
Journal of Inorganic and Organometallic Polymers and Materials, 30, 2720–2735
Frontiers of textile materials.
Materials, 12, 2840
Journal of Materials Chemistry A, 7, 13833
Journal of Inorganic and Organometallic Polymers and Materials, 30, 2720–2735
Frontiers of textile materials.
Online since: August 2023
Authors: Uraiwan Sookyung, Ekkawit Pianhanuruk
Method of Research
Materials
Hydrochloric acid with a concentration of 37 wt% (A.R. grade) was manufactured by RCI Lab scan Ltd., Bangkok, Thailand.
Suksri, Effects of Micro-Eggshells Filler on Tracking and Erosion Resistance of Silicone Rubber Composites, Key Engineering Materials 846 (2020) 37-41
Suksri, A Study on Modification Properties of Silicone Rubber Using Organic Filler from Golden Apple Snail Shell, Key Engineering Materials 718 (2017) 40-44
Rizkayanti, Y.Yusuf, Effect of temperature on syntesis of hydroxyapatite from cockle shells (Anadara granosa), International Journal of Nanoelectronics and Materials, 11(2018), 43-50
International Research Journal of Advanced Engineering and Sciences, 1, (2016), 71-75
Suksri, Effects of Micro-Eggshells Filler on Tracking and Erosion Resistance of Silicone Rubber Composites, Key Engineering Materials 846 (2020) 37-41
Suksri, A Study on Modification Properties of Silicone Rubber Using Organic Filler from Golden Apple Snail Shell, Key Engineering Materials 718 (2017) 40-44
Rizkayanti, Y.Yusuf, Effect of temperature on syntesis of hydroxyapatite from cockle shells (Anadara granosa), International Journal of Nanoelectronics and Materials, 11(2018), 43-50
International Research Journal of Advanced Engineering and Sciences, 1, (2016), 71-75
Online since: November 2012
Authors: Wahab Saidin, Noraniah Kassim, Yusri Yusof, Zainul Ahmad Rajion
Integrated System for Denture Design and Manufacturing
Md Saidin Wahab1a, Noraniah Kassim1b, Yusri Yusof1c, Zainul Ahmad Rajion2d
1Faculty of Mechanical and Manufacturing Engineering, Universiti Tun Hussein Onn Malaysia, 86400 Parit Raja, Batu Pahat, Johor, Malaysia
2School of Dental Sciences, Universiti Sains Malaysia, Health campus, 16150 Kubang Kerian, Kelantan, Malaysia
asaidin@uthm.edu.my, bnoraniahkassim@gmail.com, cyusri@uthm.edu.my, dzainul@kck.usm.my
Keywords: Computer Aided Design (CAD), Rapid Prototyping (RP), Rapid Manufacturing (RM),
Rapid Tooling (RT)
Abstract.
The basic system has been developed at the Faculty of Mechanical and Manufacturing Engineering, UTHM with the cooperation of the School of Dental Sciences, USM and Klinik Pergigian Batu Pahat, Johor.
The physical model of the denture assembly was produced on acrylic material by using Rapid Pro Jet SD3000 machine.
References [1] A.Azari,S.Nikzad,(2009), The evolution of rapid prototyping in dentistry : a review, Rapid Prototyping Journal, Vol.15 Iss:3 pp.216-225
[2] M.Y.Lee,C.C.Chang,C.H.Kuo & Y.C.Ku (2002), Custom denture fabrication with new abrasive computer tomography and rapid prototyping technologies, International Journal of advanced manufacturing technology, Vol.31, pp. 41-9 [3] Y.Guo-dong & Z.Shen-yang (2009), The computer-aided design and rapid prototyping fabrication of removable partial denture framework, IEEE Engineering in Medicine and Biology.vol 6 No. 2, pp.136-45 [4] M.Y.Lee,C.C.Chang,C.H.Kuo & Y.C.Ku (2008), A new layer – based imaging and rapid prototyping techniques for computer-aided design and manufacture of custom dental restoration, IEEE Engineering in Medicine and Biology.Vol.21, No.2,pp.38-44,2002 [5] R.Bibb,D.Eggbeer & R.Williams(2006),Rapid Manufacture of Removable Partial denture frameworks.Rapid Prototyping Journal, Vol. 12 Iss:2 pp.95-99
The basic system has been developed at the Faculty of Mechanical and Manufacturing Engineering, UTHM with the cooperation of the School of Dental Sciences, USM and Klinik Pergigian Batu Pahat, Johor.
The physical model of the denture assembly was produced on acrylic material by using Rapid Pro Jet SD3000 machine.
References [1] A.Azari,S.Nikzad,(2009), The evolution of rapid prototyping in dentistry : a review, Rapid Prototyping Journal, Vol.15 Iss:3 pp.216-225
[2] M.Y.Lee,C.C.Chang,C.H.Kuo & Y.C.Ku (2002), Custom denture fabrication with new abrasive computer tomography and rapid prototyping technologies, International Journal of advanced manufacturing technology, Vol.31, pp. 41-9 [3] Y.Guo-dong & Z.Shen-yang (2009), The computer-aided design and rapid prototyping fabrication of removable partial denture framework, IEEE Engineering in Medicine and Biology.vol 6 No. 2, pp.136-45 [4] M.Y.Lee,C.C.Chang,C.H.Kuo & Y.C.Ku (2008), A new layer – based imaging and rapid prototyping techniques for computer-aided design and manufacture of custom dental restoration, IEEE Engineering in Medicine and Biology.Vol.21, No.2,pp.38-44,2002 [5] R.Bibb,D.Eggbeer & R.Williams(2006),Rapid Manufacture of Removable Partial denture frameworks.Rapid Prototyping Journal, Vol. 12 Iss:2 pp.95-99
Online since: January 2019
Authors: Guan Fei Xiao, Ying Zhe Liu, Ying Wang, Ju Fu Jiang
Atkinson, Semisolid processing of metallic materials, Metal Science Journal, 26(2011) 1401-1413
Liu, Microstructural coarsening of semi-solid aluminium alloys, Materials Science & Engineering A, 496(2008) 439-446
Zhang, Study on the microstructure evolution and rheological parameter of semisolid Mg–10Al–4Zn alloys, Materials Science & Engineering A, 478(2008) 195-200
Feng, Semi-solid oxidation and deformation behavior of Ti14 alloy, Materials Science & Engineering A, 373(2004) 315-319
Elias Boyed, Thixotropic materials.
Liu, Microstructural coarsening of semi-solid aluminium alloys, Materials Science & Engineering A, 496(2008) 439-446
Zhang, Study on the microstructure evolution and rheological parameter of semisolid Mg–10Al–4Zn alloys, Materials Science & Engineering A, 478(2008) 195-200
Feng, Semi-solid oxidation and deformation behavior of Ti14 alloy, Materials Science & Engineering A, 373(2004) 315-319
Elias Boyed, Thixotropic materials.
Online since: December 2023
Authors: Yue Lu, Lin Lin Zhao, Ren Jie Xue, Qing Zhang, Yun Zhe Gao, Bao Guo Nian, Cheng Ma
Materials Science and Engineering: a.725, (2018) 250-266
Journal of Materials Processing Technology.268, (2019) 37-46
Materials Science and Engineering: a.717, (2018) 124-133
Journal of Materials Processing Technology.259, (2018) 58-67
Materials Science and Engineering: a.854, (2022) 143862
Journal of Materials Processing Technology.268, (2019) 37-46
Materials Science and Engineering: a.717, (2018) 124-133
Journal of Materials Processing Technology.259, (2018) 58-67
Materials Science and Engineering: a.854, (2022) 143862