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Online since: March 2011
Authors: Norhamidi Muhamad, Abu Bakar Sulong, Heng Shye Yunn
Shimizu: Journal of
Materials Processing Technology Vol. 127 (2002), p. 165–168
[9] T.J.
Lei: International Journal of Refractory Metals and Hard Materials Vol. 23 (2005),p. 273-277 [37] B.J.
J of Materials Proc Tech Vol. 143–144 (2003),p. 636–644 [47] S.K.
Yarlagadda: Journal of Materials Processing Tech Vol. 130–131(2002),p. 315– 320 [49] P.
Agren: J Materials Science and Engineering Vol. 452-453 (2007),p. 37-45 [53] D.F.
Lei: International Journal of Refractory Metals and Hard Materials Vol. 23 (2005),p. 273-277 [37] B.J.
J of Materials Proc Tech Vol. 143–144 (2003),p. 636–644 [47] S.K.
Yarlagadda: Journal of Materials Processing Tech Vol. 130–131(2002),p. 315– 320 [49] P.
Agren: J Materials Science and Engineering Vol. 452-453 (2007),p. 37-45 [53] D.F.
Online since: August 2010
Authors: Zi Yang Cao, Hua Li
The principal shortcomings associated with MEMS are related to the inability of this technology to
produce arbitrary three-dimensional features in not only electronics but also in a wide range of
metallic materials.
The Material of workpiece is aluminum, and the micro end-mill has 100µm nominal diameter, 10° helix angle.
Kapoor: Journal of Manufacturing Science and Engineering, Vol. 126 (2004) No. 3, p.666-678 [4] M.
Lang: Journal of Sensor and Actuators, Vol. 72 (1997) No.9, p.1-15 [9] M.
Mishima, Journal of Manufacturing Science and Engineering, Vol. 126 (2004) No. 5, p.837-844 [12] E.
The Material of workpiece is aluminum, and the micro end-mill has 100µm nominal diameter, 10° helix angle.
Kapoor: Journal of Manufacturing Science and Engineering, Vol. 126 (2004) No. 3, p.666-678 [4] M.
Lang: Journal of Sensor and Actuators, Vol. 72 (1997) No.9, p.1-15 [9] M.
Mishima, Journal of Manufacturing Science and Engineering, Vol. 126 (2004) No. 5, p.837-844 [12] E.
Online since: June 2013
Authors: M.M. Emara
Lavernia, “serial sectioning for 3D visualization and modeling of SiC particle reinforced aluminum composites”, Journal of Materials Science, 26 (1991) 1137-1156
Lavernia, “processing of discontinuously – reinforced metal matrix composites by rapid solidification”,Progress in Materials Science, 39 (1995) 317-409
Microstructure containing particles penetrable by dislocations”, Materials Science and Engineering, 13(1974) 141-157
Lai., “Recent development in the fabrication of metal matrix particulate composites using powder metallurgy techniques”, Journal of Materials Science, Vol. 29, (1994), pp. 1999-2007
Gungor, The Minerls, Metals and Materials Society, (1990)
Lavernia, “processing of discontinuously – reinforced metal matrix composites by rapid solidification”,Progress in Materials Science, 39 (1995) 317-409
Microstructure containing particles penetrable by dislocations”, Materials Science and Engineering, 13(1974) 141-157
Lai., “Recent development in the fabrication of metal matrix particulate composites using powder metallurgy techniques”, Journal of Materials Science, Vol. 29, (1994), pp. 1999-2007
Gungor, The Minerls, Metals and Materials Society, (1990)
Online since: May 2012
Authors: Abdelilah Benmarouane, Alain Lodini
Materials Science and Engineering A 437 (2006) 139–144
Materials Science and Engineering: A, 2010. 527(21-22): p. 6091-6097
International Journal of Material Forming, 2010. 3(S1): p. 739-742
Materials science forum, 2010. 638-42: p. 706-711
Materials Science Forum, 2008. 571-572: p. 157-162.
Materials Science and Engineering: A, 2010. 527(21-22): p. 6091-6097
International Journal of Material Forming, 2010. 3(S1): p. 739-742
Materials science forum, 2010. 638-42: p. 706-711
Materials Science Forum, 2008. 571-572: p. 157-162.
Online since: September 2014
Authors: Shailendra Kumar, Sachin Kashid
Ruffini, Effect of the training set size on springback control by neural network in an air bending process, Journal of Materials Processing Technology, Vol. 80–81 (1998), p.493–500
[3] R.
Hambli, Optimization of Blanking Processes Using Neural Network Simulation, The Arabian Journal for Science and Engineering, Vol. 30 (2005), p.3-16 [6] K.
Ramakrishnan, Application of Neural Network in Sheet Metal Bending Process, Defence Science Journal, Vol. 55 (2005), p. 125-131 [7] K.
Qiu, Springback prediction for sheet metal forming based on GA-ANN technology, Journal of Materials Processing Technology, Vol.187–188 (2007), p.227–231 [9] M.
Golcu, Artificial neural network analysis of springback in V bending, journal of applied science, Vol. 8 (17) (2008), p.3038-3043 [10] F.
Hambli, Optimization of Blanking Processes Using Neural Network Simulation, The Arabian Journal for Science and Engineering, Vol. 30 (2005), p.3-16 [6] K.
Ramakrishnan, Application of Neural Network in Sheet Metal Bending Process, Defence Science Journal, Vol. 55 (2005), p. 125-131 [7] K.
Qiu, Springback prediction for sheet metal forming based on GA-ANN technology, Journal of Materials Processing Technology, Vol.187–188 (2007), p.227–231 [9] M.
Golcu, Artificial neural network analysis of springback in V bending, journal of applied science, Vol. 8 (17) (2008), p.3038-3043 [10] F.
Online since: December 2010
Authors: Yin Hu Qiao, Chun Yan Zhang, Jie Ping Chen
Aluminum Car Wheel Molding Methods and Numerical Simulation of Forming Process
Yinhu Qiao1,2, a , Chunyan Zhang 1,b,Jieping Chen 1,c
1Engineering College, Anhui Science and Technology University, Fengyang 233100, China
2Institute of CIMS, School of Mechanical and Automotive Engineering, Hefei University of Technology Hefei , 230009,China
a qyh7926@163.com, b xiangyutianji@sina.com, c chen369100@163.com
Keywords: Material; Filling; Solidification; Numerical Simulation; Extrusion Casting Molding
Abstract.
Using Anycasting software to numerical simulating the process of car wheel molding filling and solidification, materials selecting and casting process characteristics and defects of the parts are studied, the causes of casting defects are analyzed.
This paper analyzes the materials selection of wheel and processing methods, Application AnyCasting2.4 software to numerical simulation the process of car wheel alloy casting filling and solidification, the filling and solidification process characteristics and defects of the parts are studied.
The materials selecting of vehicle Wheel Conventionally, two-piece steel wheels are manufactured by deep drawing of the disk, profile rolling of the rim, and a subsequent bolting or welding operation to join both parts.
Kim. journal of materials processing technology, Vol.201 (2008), p. 635-639 [8] Zhang Qiang, Huang Zhaohui and Tong Jianmin.
Using Anycasting software to numerical simulating the process of car wheel molding filling and solidification, materials selecting and casting process characteristics and defects of the parts are studied, the causes of casting defects are analyzed.
This paper analyzes the materials selection of wheel and processing methods, Application AnyCasting2.4 software to numerical simulation the process of car wheel alloy casting filling and solidification, the filling and solidification process characteristics and defects of the parts are studied.
The materials selecting of vehicle Wheel Conventionally, two-piece steel wheels are manufactured by deep drawing of the disk, profile rolling of the rim, and a subsequent bolting or welding operation to join both parts.
Kim. journal of materials processing technology, Vol.201 (2008), p. 635-639 [8] Zhang Qiang, Huang Zhaohui and Tong Jianmin.
Online since: November 2011
Authors: Jaleh Babak, Ashrafi Ghazaleh, Gholami Nasim, Azizian Saeid, Golbedaghi Reza, Habibi Safdar, Parsian Hosein
Optical Materials Express, 1,4 (2011) 658-669
Journal of Science, I.
Materials Letters, 63 (2009) 301-303 [8] George Cramer, NNIN REU, Research Accomplishments, (2006), 34-35 [9] Dojalisa Sahu, B.
Vertruyen, Materials Letters 64 (2010) 1147-1149 [13] Jinato Tian, LIjuan Chen, Jinhui Dai, Xin Wang, Yansheng Yin, Pingwei Wu, Ceramics International 35 (2009) 2261-2270 [14] Seema Rani, Poonam Suri, P.K.
El-Hofy, Journal of material science Letters, (1988) 453-456 [20] S.
Journal of Science, I.
Materials Letters, 63 (2009) 301-303 [8] George Cramer, NNIN REU, Research Accomplishments, (2006), 34-35 [9] Dojalisa Sahu, B.
Vertruyen, Materials Letters 64 (2010) 1147-1149 [13] Jinato Tian, LIjuan Chen, Jinhui Dai, Xin Wang, Yansheng Yin, Pingwei Wu, Ceramics International 35 (2009) 2261-2270 [14] Seema Rani, Poonam Suri, P.K.
El-Hofy, Journal of material science Letters, (1988) 453-456 [20] S.
Online since: January 2012
Authors: Xi Hong Zhao, Xiao Hui Dai, You Hong Zhang, Peng Wang, Zhen Bo Xu, Xing Zhou Chen, Xiao Ping Chen
Materials and methods
Materials.
Peanut slurry was furnished in water bath at 75°C, then weighted the raw materials accurately in proportion.
Stability of tocopherols and rentinyl palmitate in snack extrudates[J].Journal of Food Science, 2001,66(6):897-902
[7] Amuda O S, Amoo I A .Coagulation/flocculation process and sludge conditioning in beverage industrial wastewater treatment[J].Journal of Hazardous Materials , 2007, 141(3): 778-783
Stability of tocopherols and rentinyl palmitate in snack extrudates[J].Journal of Food Science, 2001,66(6):897-902
Peanut slurry was furnished in water bath at 75°C, then weighted the raw materials accurately in proportion.
Stability of tocopherols and rentinyl palmitate in snack extrudates[J].Journal of Food Science, 2001,66(6):897-902
[7] Amuda O S, Amoo I A .Coagulation/flocculation process and sludge conditioning in beverage industrial wastewater treatment[J].Journal of Hazardous Materials , 2007, 141(3): 778-783
Stability of tocopherols and rentinyl palmitate in snack extrudates[J].Journal of Food Science, 2001,66(6):897-902
Online since: January 2009
Authors: Michal Banaś, Jarosław Stryczek
General assumptions of educational faculties at universities are specified by the
instructions of the Polish Ministry of Science and Higher Education.
Instructions concerning educational directions at universities have been specified in the ordinance issued by the Ministry of Science and Higher Education and published in the Polish Journal of Laws [4].
A student commencing the design classes should have credits in the basic subjects, namely the mathematical-physical subjects, mechanics, materials strength, electrical technology basics, and the manufacture technology basics.
I grade II grade 23 25 26 26 25 24 11 26 24 10 26 Materials Strength 22000 Ergonomics 10000 Diploma course 15 points W5/W10 Specialization and optional courses 105 hours Diploma course 20 points 25 Introduction to Mechatronics 20000 Metrology of Geom.
Studies timetable for the Mechatronic Faculty, approved by the Council of the Mechanical Faculty at Wroclaw University of Technology While preparing the curriculum of the subject, the holistic approach to the problem was assumed, incorporating the term division in the division of the materials into units.
Instructions concerning educational directions at universities have been specified in the ordinance issued by the Ministry of Science and Higher Education and published in the Polish Journal of Laws [4].
A student commencing the design classes should have credits in the basic subjects, namely the mathematical-physical subjects, mechanics, materials strength, electrical technology basics, and the manufacture technology basics.
I grade II grade 23 25 26 26 25 24 11 26 24 10 26 Materials Strength 22000 Ergonomics 10000 Diploma course 15 points W5/W10 Specialization and optional courses 105 hours Diploma course 20 points 25 Introduction to Mechatronics 20000 Metrology of Geom.
Studies timetable for the Mechatronic Faculty, approved by the Council of the Mechanical Faculty at Wroclaw University of Technology While preparing the curriculum of the subject, the holistic approach to the problem was assumed, incorporating the term division in the division of the materials into units.
Online since: December 2022
Authors: Falah Abu, Maheera Mohamad, Nor Hasni Osman, Mohd Kamarul Irwan Abdul Rahim, Ismail Abustan, Kamarudin Samuding, Siti Nor Farhana Zakaria, Mohd Remy Rozainy Mohd Arif Zainol
Besides that, the adsorption capability of the materials tested was also determined.
Pal, Arsenic removal from real-life groundwater by adsorption on lateritic soil, Journal of Hazardous Materials 151 (2008) 811-820
Journal of Hazardous Materials B136 (2006) 776-783
[12] ASTM, American Society for Testing and Materials ASTM Standard Proctor Compaction, ASTM D698 1984
Iranian Journal of Environmental Health Sciences & Engineering 9 (35), (2012) 1-12
Pal, Arsenic removal from real-life groundwater by adsorption on lateritic soil, Journal of Hazardous Materials 151 (2008) 811-820
Journal of Hazardous Materials B136 (2006) 776-783
[12] ASTM, American Society for Testing and Materials ASTM Standard Proctor Compaction, ASTM D698 1984
Iranian Journal of Environmental Health Sciences & Engineering 9 (35), (2012) 1-12