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Online since: October 2014
Authors: Fadhluhartini Muftah, Muhammad Isha Ismail, Marzuki Ab. Rahman, Mohd Syahrul Hisyam Mohd Sani
Besides that, the relationship between the increasing human population and the limited raw materials are being discussed.
Waste materials are collected from industrial waste and solid waste from human activity.
Next, both waste materials are sieved according to their size.
Nagamanib, Strength and Durability Properties of Concrete Containing Quarry Rock Dust as Fine Aggregate, ARPN Journal of Engineering and Applied Sciences. 3 (5) (2008) 20 – 26
[13] American Society for Testing and Materials (ASTM), ASTM C618.
Waste materials are collected from industrial waste and solid waste from human activity.
Next, both waste materials are sieved according to their size.
Nagamanib, Strength and Durability Properties of Concrete Containing Quarry Rock Dust as Fine Aggregate, ARPN Journal of Engineering and Applied Sciences. 3 (5) (2008) 20 – 26
[13] American Society for Testing and Materials (ASTM), ASTM C618.
Online since: June 2025
Authors: Charles Edward L. Alviar, Blessie A. Basilia
It is a process of joining materials based on 3D model data.
Sandhu, "Effect of slicing parameters on surface roughness of fused deposition modeling prints," in Materials Today: Proceedings, 2022
Li, "A review on voids of 3D printed parts by fused filament fabrication," Journal of Materials Research and Technology, vol. 15, pp. 4860-4879, 2021
Metwalli, "A review of fused deposition modelling for 3D printing of smart polymeric materials and composites," European Polymer Journal, vol. 156, p. 110591, 2021
Liu, "Modeling of the chemical finishing process for polylactic acid parts in fused deposition modeling and investigation of its tensile properties," Journal of Materials Processing Technology, vol. 240, pp. 233-239, 2017
Sandhu, "Effect of slicing parameters on surface roughness of fused deposition modeling prints," in Materials Today: Proceedings, 2022
Li, "A review on voids of 3D printed parts by fused filament fabrication," Journal of Materials Research and Technology, vol. 15, pp. 4860-4879, 2021
Metwalli, "A review of fused deposition modelling for 3D printing of smart polymeric materials and composites," European Polymer Journal, vol. 156, p. 110591, 2021
Liu, "Modeling of the chemical finishing process for polylactic acid parts in fused deposition modeling and investigation of its tensile properties," Journal of Materials Processing Technology, vol. 240, pp. 233-239, 2017
Online since: March 2007
Authors: David G. Richards, Stewart W. Williams, Andrew Wescott, Philip J. Withers, E.C. Oliver, Phil B. Prangnell
Wescott3,
E.C Oliver4
1
Manchester Materials Science Centre, UMIST, Grosvenor St.
Tang: Journal of Manufacturing Science and Engineering, 2003. 125(1): p. 138-145. 6.
Murr: Journal of Materials Processing & Manufacturing Science, 1999. 7(2): p. 163 172. 8.
Shercliff: Journal of Materials Processing Technology, 2005. 17.
Masubucci: Encyclopedia of Materials: Science and Technology, 2005, Pages 1-6
Tang: Journal of Manufacturing Science and Engineering, 2003. 125(1): p. 138-145. 6.
Murr: Journal of Materials Processing & Manufacturing Science, 1999. 7(2): p. 163 172. 8.
Shercliff: Journal of Materials Processing Technology, 2005. 17.
Masubucci: Encyclopedia of Materials: Science and Technology, 2005, Pages 1-6
Online since: June 2011
Authors: Guo Qin Huang, Xi Peng Xu
Xu: Key Engineering Materials, Vol. 250 (2003) pp.209-214
[2] X.P.
Xu: Chinese Journal of Mechanical Engineering Vol. 39(9) (2003) pp.17-22 [3] Y.
Xu: Key Engineering Materials Vol.250 (2003) pp.187-193 [5] X.P.
Malkin: Transactions of the ASME: Journal of Manufacturing Science and Engineering Vol.123 (1) (2001) pp.13-22
Denkena and etal: Key Engineering Materials, Vol.250, (2003) pp.21-32
Xu: Chinese Journal of Mechanical Engineering Vol. 39(9) (2003) pp.17-22 [3] Y.
Xu: Key Engineering Materials Vol.250 (2003) pp.187-193 [5] X.P.
Malkin: Transactions of the ASME: Journal of Manufacturing Science and Engineering Vol.123 (1) (2001) pp.13-22
Denkena and etal: Key Engineering Materials, Vol.250, (2003) pp.21-32
Online since: April 2024
Authors: Ria Grace P. Abdon, Shanlaine F. Barbastro, Kian James C. Francisco, Cedric John D. Quicay
Plastics are materials commercially utilized, based on polymers or prepolymers.
Methodology Materials.
Materials 14(11), 3076 (2021) [6] Horvath, J.
Series: Materials Science and Engineering 722 012022 (2020) [12] Gurushanth B V et. al.
European Journal of Science and Technology, (27), 802- 809 (2021) [17] Andanje, M., et al.
Methodology Materials.
Materials 14(11), 3076 (2021) [6] Horvath, J.
Series: Materials Science and Engineering 722 012022 (2020) [12] Gurushanth B V et. al.
European Journal of Science and Technology, (27), 802- 809 (2021) [17] Andanje, M., et al.
Online since: May 2012
Authors: Yi Diao, Zu Jun Yang, Jian Ping Zhou, Hong Bo Han, Da Fen Zhang
Materials and Methods
The experiment materials
N.
Acknowledgements The present work was partly supported by national natural science fund project (NO.30800685).
Journal of Changshu Institute of Technology(Natural Sciences),2007,21(4):55-58
Trace Elements Determination Methods for Foods.Journal of Henan university of science and Technology(Natural Science), 2004,25(5):89-92
Simultaneous determination of trace elements in Evodia rutaecarpa(Juss.)Benth by ICP-AES.Journal of ZheJiang University of Technology,2006,34(1):43-44,55
Acknowledgements The present work was partly supported by national natural science fund project (NO.30800685).
Journal of Changshu Institute of Technology(Natural Sciences),2007,21(4):55-58
Trace Elements Determination Methods for Foods.Journal of Henan university of science and Technology(Natural Science), 2004,25(5):89-92
Simultaneous determination of trace elements in Evodia rutaecarpa(Juss.)Benth by ICP-AES.Journal of ZheJiang University of Technology,2006,34(1):43-44,55
Online since: June 2014
Authors: Jing Liu, Jing Tao Han, Xue Feng Peng, Pei Jie Yan
Technology of Finite Element Analysis for Roll Forming Process
Xuefeng Peng1,a, Jingtao Han1,b, Jing Liu1,c and Peijie Yan1
1 School of materials science and engineering; University of Science and Technology Beijing, China
apxf880710@163.com, bhanjt@ustb.edu.cn, cliujing@mater.ustb.edu.cn
Keywords.
Finite Element Theory of Deformation Zone The simulation of roll forming process is closely related to the research of deformation zone of materials.
As new materials, the simulation model of advanced high strength steel cannot exactly describe the internal structure of real materials.
Lindgren: Journal of Materials Processing Vol. 186 (1-3) (2007), p. 77-81 [4] H.
Sung: International Journal of Material Forming Vol. 1 (2008), p. 157 [5] J.
Finite Element Theory of Deformation Zone The simulation of roll forming process is closely related to the research of deformation zone of materials.
As new materials, the simulation model of advanced high strength steel cannot exactly describe the internal structure of real materials.
Lindgren: Journal of Materials Processing Vol. 186 (1-3) (2007), p. 77-81 [4] H.
Sung: International Journal of Material Forming Vol. 1 (2008), p. 157 [5] J.
Online since: February 2014
Authors: Yan Qin Lu, Li Zhu, Feng Mei Qiao, Zhao Ju He
At present, it mainly used coal, agriculture and forestry waste, municipal solid organic wastes [1-4] as raw materials for the production of adsorbent.
But zeolite as raw materials for the production of IOCZ adsorbent has not been reported so far.
Material and Methods Reagent and Instrument.
Journal of Qinghai University (Nature Science), 25(l), (2007), p. 19-22.
Materials Review, 25(17), (2011), p. 448-450.
But zeolite as raw materials for the production of IOCZ adsorbent has not been reported so far.
Material and Methods Reagent and Instrument.
Journal of Qinghai University (Nature Science), 25(l), (2007), p. 19-22.
Materials Review, 25(17), (2011), p. 448-450.
Online since: June 2014
Authors: Jun Jie Yin, Bin Zhou, Shu Lin Li, Fei Chang, Xiao Peng Shi
[5] Cai Ling, Huang Qiqing: submitted to Journal of Mechanical Strength, (2009)
[6] Yin Junjie: submitted to Journal of air force engineering University, (2013)
[7] Liu Jike, Zhaowei: submitted to Journal of Zhong Shan University(Natural Sciences), (2008)
[8] Yao Linyun, Yu Dejie: submitted to Journal of Hunan University(Natural Sciences), (2008)
[9] He Zhen, Cui Qingan: submitted to Industrial Engineering Journal, (2006)
[6] Yin Junjie: submitted to Journal of air force engineering University, (2013)
[7] Liu Jike, Zhaowei: submitted to Journal of Zhong Shan University(Natural Sciences), (2008)
[8] Yao Linyun, Yu Dejie: submitted to Journal of Hunan University(Natural Sciences), (2008)
[9] He Zhen, Cui Qingan: submitted to Industrial Engineering Journal, (2006)
Online since: August 2017
Authors: Oratai Jongprateep, Jednupong Palomas
It has been accepted that compositions and microstructures significantly affected dielectric properties of materials.
Numerous researches reported effects of grain size and doping on dielectric properties of perovskite materials [1-13].
Equipment supports from the Department of Materials Engineering, Faculty of Engineering, Kasetsart University, and the Department of Science Service, Ministry of Science and Technology, Thailand are gratefully acknowledged.
Wang, High-temperature dielectric properties of (Al, Nb) co-doped SrTiO3 ceramics, Materials Letters, 180 (2016) 256-259
Materials Characterization. 60(4) (2009) 322-326
Numerous researches reported effects of grain size and doping on dielectric properties of perovskite materials [1-13].
Equipment supports from the Department of Materials Engineering, Faculty of Engineering, Kasetsart University, and the Department of Science Service, Ministry of Science and Technology, Thailand are gratefully acknowledged.
Wang, High-temperature dielectric properties of (Al, Nb) co-doped SrTiO3 ceramics, Materials Letters, 180 (2016) 256-259
Materials Characterization. 60(4) (2009) 322-326