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Online since: March 2017
Authors: Nicolae Cazacu, Aurelia Bradu, Nicolae Florea
Materials cost
An accurate mix design method is the key to the success of SCC, as its workability is more susceptible to quality deviations in constituent materials and their moisture variation [11].
S., Rajeev C., "Development of Self Compacting Concrete by use of Portland Pozzolana Cement, Hydrated Lime and Silica Fume," ISCA Journal of Engineering Sciences, 1, (2012), 35-39
E., Kambiz R., "Effect of various supplementary cementitious materials on rheological properties of self-consolidating concrete," Construction and Building Materials, (2015), 89-98
F., Pacheco M., "Self-compacting concrete (SSC) - comparison of methods of dosage," Ibracon Structures and Materials Journal Vol5., nr.4, (2012), 500-529
[12] Alqadi A., Nasharuddin K., Naganathan C., "Development of self-compacting concrete using contrast constant factorial design," Journal of King Saud University – Engineering Sciences, (2013), 105–112
S., Rajeev C., "Development of Self Compacting Concrete by use of Portland Pozzolana Cement, Hydrated Lime and Silica Fume," ISCA Journal of Engineering Sciences, 1, (2012), 35-39
E., Kambiz R., "Effect of various supplementary cementitious materials on rheological properties of self-consolidating concrete," Construction and Building Materials, (2015), 89-98
F., Pacheco M., "Self-compacting concrete (SSC) - comparison of methods of dosage," Ibracon Structures and Materials Journal Vol5., nr.4, (2012), 500-529
[12] Alqadi A., Nasharuddin K., Naganathan C., "Development of self-compacting concrete using contrast constant factorial design," Journal of King Saud University – Engineering Sciences, (2013), 105–112
Online since: February 2013
Authors: Biao Chu, Chang An Zhu, Guo Liang Ding, Yi Jin
Introduction
Advanced materials of high quality and great property are increasingly desired.
Relating the desired properties and relative performance of a material in a certain application to the structure of the atoms and phases in that material through characterization is involved in the basis of materials science.
The Science & Engineering of Materials (5th ed.).
Materials: engineering, science, processing and design (1st ed.).
Journal of Material Engineering. 30(6): 70-74, (2009) [6] T.
Relating the desired properties and relative performance of a material in a certain application to the structure of the atoms and phases in that material through characterization is involved in the basis of materials science.
The Science & Engineering of Materials (5th ed.).
Materials: engineering, science, processing and design (1st ed.).
Journal of Material Engineering. 30(6): 70-74, (2009) [6] T.
Online since: October 2015
Authors: Shi Jin Chen, Cui Qi, Hui Ding, Kai Cheng
China
2Institute of Materials and Manufacturing, Brunel University, Uxbridge UB8 3PH, UK
acuiqi000@163.com, bsjchen@hit.edu.cn, cdhalbert@hit.edu.cn, dKai.Cheng@brunel.ac.uk
Keywords: Through-feed centerless grinding, Surface regeneration, Material removal, Dynamics
Abstract.
Rowe: International Journal of Machine Tools and Manufacture, Vol. 82–83 (2014), 1-10
Muguerza Perelló: Journal of Manufacturing Science and Engineering, Vol. 132 (2010) No.1, pp.011014
Kopac: Journal of Materials Processing Technology, Vol. 210 (2010) No.1, pp.104-109
Wu: Journal of Materials Processing Technology, Vol. 211 (2011) No.10, pp.1599-1605.
Rowe: International Journal of Machine Tools and Manufacture, Vol. 82–83 (2014), 1-10
Muguerza Perelló: Journal of Manufacturing Science and Engineering, Vol. 132 (2010) No.1, pp.011014
Kopac: Journal of Materials Processing Technology, Vol. 210 (2010) No.1, pp.104-109
Wu: Journal of Materials Processing Technology, Vol. 211 (2011) No.10, pp.1599-1605.
Online since: June 2022
Authors: Fernando B.N. Ferreira, Nguyen T. Quyen, Nguyen Dinh Tru, Nguyen Trong Quoc, Abel J.P. Gomes
An Alpha Finite Element Method for Linear Static and Buckling Analysis of Textile-Like Sheet Materials
Nguyễn T.
Introduction A textile-like sheet materials in terms of plate and shell are one of the attractive lightweight structures that are extensively used by engineers in numerous industries [1-5].
Hu, Textile Mechanics, in: In Handbook of Fibrous Materials, 2020, pp. 455-476) [7] Hu, J., Structure and mechanics of woven fabrics, Woodhead Publishing Ltd., Cambridge, 2004
Lu, Handbook of Fibrous Materials, 2 Volumes: Volume 1: Production and Characterization / Volume 2: Applications in Energy, Environmental Science and Healthcare, Wiley, 2020
Harun, Fundamentals of the Fibrous Materials, in: In Handbook of Fibrous Materials, 2020, pp. 1-36) [15] Liu, G.
Introduction A textile-like sheet materials in terms of plate and shell are one of the attractive lightweight structures that are extensively used by engineers in numerous industries [1-5].
Hu, Textile Mechanics, in: In Handbook of Fibrous Materials, 2020, pp. 455-476) [7] Hu, J., Structure and mechanics of woven fabrics, Woodhead Publishing Ltd., Cambridge, 2004
Lu, Handbook of Fibrous Materials, 2 Volumes: Volume 1: Production and Characterization / Volume 2: Applications in Energy, Environmental Science and Healthcare, Wiley, 2020
Harun, Fundamentals of the Fibrous Materials, in: In Handbook of Fibrous Materials, 2020, pp. 1-36) [15] Liu, G.
Online since: July 2011
Authors: Zi Ming Zhao, Cui Hua Li, Hua Shi, Quan Zou
Material Classification Using Random Forest
Ziming Zhao, Cuihua Li, Hua Shi, Quan Zou
School of Information Science and Technology Xiamen University
Xiamen 361005, Fujian, P.R.China
mailto:newplan1010@gmail.com
Keywords:texture classification; image patch; filter banks; random forest
Abstract.
This paper proposes an approach to classify materials, which combines random forest with MR8 filter bank.
J, “Representing and recognizing the visual appearance of materials using three-dimensional textons”, International Journal of Computer Vision, vol. 43(1), pp. 29-44, 2001
“Random forests”, Machine Learning Journal, 45(1):5-32, 2001
Wehenkel, “Extremely randomized trees”, Machine Learning Journal, 36(1), 3-42, 2006
This paper proposes an approach to classify materials, which combines random forest with MR8 filter bank.
J, “Representing and recognizing the visual appearance of materials using three-dimensional textons”, International Journal of Computer Vision, vol. 43(1), pp. 29-44, 2001
“Random forests”, Machine Learning Journal, 45(1):5-32, 2001
Wehenkel, “Extremely randomized trees”, Machine Learning Journal, 36(1), 3-42, 2006
Online since: October 2011
Authors: Pavan Kumar Gurrala, Srinivasa Prakash Regalla
Ahn, “Measurement of anisotropic compressive strength of RP parts”, Journal of Materials Processing Technology, vol. 187-188 (1), 2007, pp. 627-630
Radhakrishnan, “Critical parameters influencing the quality of prototypes in fused deposition modeling”, Journal of Materials Processing Technology, vol. 118 (1), 2001, pp. 385-388
Khan, “Optimization of rapid prototyping parameters for production of flexible ABS objects”, Journal of Materials Processing Technology, vol. 169, 2005, pp.54-69
Mahapatra, “Improving dimensional accuracy of FDM processed parts using gray Taguchi method”, Materials and Design, vol. 30, 2009, pp.4243-4252
Mahapatra, “Parametric appraisal of mechanical property of FDM processed parts”, Materials and Design, Vol. 31(1), 2010, pp.287-295
Radhakrishnan, “Critical parameters influencing the quality of prototypes in fused deposition modeling”, Journal of Materials Processing Technology, vol. 118 (1), 2001, pp. 385-388
Khan, “Optimization of rapid prototyping parameters for production of flexible ABS objects”, Journal of Materials Processing Technology, vol. 169, 2005, pp.54-69
Mahapatra, “Improving dimensional accuracy of FDM processed parts using gray Taguchi method”, Materials and Design, vol. 30, 2009, pp.4243-4252
Mahapatra, “Parametric appraisal of mechanical property of FDM processed parts”, Materials and Design, Vol. 31(1), 2010, pp.287-295
Online since: April 2011
Authors: Zahira Yaakob, Samaneh Shahgaldi, Wan Ramli Wan Daud, Mostafa Ghasemi, Dariush Jafar Khadem
Ajji: Journal Macromol Materials Engineering Vol. 292 (2007), p. 1229
Wang: Journal Membrane Science Vol. 281 (2006), p. 1
Xia: Advanced Materials Vol. 16 (2004), p. 115
Freeman: Advanced materials for Membrane Separation, ACS Symposium Series, Washington DC, 2004
Meng: Journal Membrane Science Vol. 222 (2003), p. 3
Wang: Journal Membrane Science Vol. 281 (2006), p. 1
Xia: Advanced Materials Vol. 16 (2004), p. 115
Freeman: Advanced materials for Membrane Separation, ACS Symposium Series, Washington DC, 2004
Meng: Journal Membrane Science Vol. 222 (2003), p. 3
Online since: September 2011
Authors: Hao Huang, Yong Nian Dai, Shun Zhong Yao
Experimental crude materials, equipments and chemical analysis method
Crude materials: The residue after refined Cd material which contains Cd 64%, Zn 0.0056% , Tl 29.4%, Pb 2.15%, Cu 2.10%, Ni 3.02% , Fe 0.0058% and Si 0.05%.
(In Chinese) [5] Yongnian Dai, Bin Yang.Vacuum Metallurgy Of Non-Ferrous Metal Materials[M].Beijing: The Press of Metallurgical Industry,2000.
Removal of barium impurities from selenium by vacuum distillation[J].Inorganic Materials,2010, Vol. 46, No. 3,365–369
Nonferrous Metals , 1992, 4(44):52-55.In Chinese) [10] Bin Yang,Yongnian Dai.Evaporation of Lead in Vacuum[J].Journal Of Kunming University of Science and Technology ,1998,3(23):116-121.
(In Chinese) [16] Lina Wang,Hongwei Yang,Dongping Tao.Activity Prediction of Liquid Ni-Mg-Cu, Ni-Al-Si and Ni-Cu-Co Alloys[J].Journal Of Kunming University of Science and Technology(Science and technology),2007,32(6):7-11.
(In Chinese) [5] Yongnian Dai, Bin Yang.Vacuum Metallurgy Of Non-Ferrous Metal Materials[M].Beijing: The Press of Metallurgical Industry,2000.
Removal of barium impurities from selenium by vacuum distillation[J].Inorganic Materials,2010, Vol. 46, No. 3,365–369
Nonferrous Metals , 1992, 4(44):52-55.In Chinese) [10] Bin Yang,Yongnian Dai.Evaporation of Lead in Vacuum[J].Journal Of Kunming University of Science and Technology ,1998,3(23):116-121.
(In Chinese) [16] Lina Wang,Hongwei Yang,Dongping Tao.Activity Prediction of Liquid Ni-Mg-Cu, Ni-Al-Si and Ni-Cu-Co Alloys[J].Journal Of Kunming University of Science and Technology(Science and technology),2007,32(6):7-11.
Online since: January 2009
Authors: Juan Qin Xue, Yu Jie Wang, Kong Fen Wang, Zhou Zhou
Experimental
1.1 Experimental Materials.
Results and Discussions 2.1 Influence of Different Fiber Membrane Materials on Dynamic Contact Angle.
Fig. 2 shows the change of dynamic contact angle of different fiber membrane materials on the number of cycles.
Gao: Journal of East China University of Science and Technology, Vol.2 (1997), p.30 [13] M.
Wang: Journal of Membrane Science and Technology (China), Vol.2 (2007), p.45 [18] J.
Results and Discussions 2.1 Influence of Different Fiber Membrane Materials on Dynamic Contact Angle.
Fig. 2 shows the change of dynamic contact angle of different fiber membrane materials on the number of cycles.
Gao: Journal of East China University of Science and Technology, Vol.2 (1997), p.30 [13] M.
Wang: Journal of Membrane Science and Technology (China), Vol.2 (2007), p.45 [18] J.
Online since: January 2015
Authors: Wen Cai Xu, Dong Li Li, Ya Bo Fu, Xing Wang, Da Peng Yang
A Comparative Study of MAP Materials on the Shelf-life of Strawberry
(cv.
Sachinoka) FU Yabo1,2,a, XU Wencai1,2,b, LI Dongli2,c, WANG Xing2,d and YANG Dapeng2,e 1Institute of Packaging and Printing Engineering, Tianjin University of Science and Technology, Tianjin 300222,China 2Beijing Key Lab. of Printing & Packaging Materials and Technology, Beijing Institute of Graphic Communication, Beijing 102600, China afuyabo@126.com,bxuwencai@bigc.edu.cn (Corresponding author), clidongli66@163.com, d13811032546@qq.com, e1522706459@qq.com Keywords: Modified atmosphere packaging; Packaging material; Strawberry; Shelf-life Abstract.
Materials and Methods Materials.
[2] Wang W., Li P.X., Liang L.S., et al:Journal of Anhui Agri.
:Packaging Technology and Science Vol.24(2011), p.123
Sachinoka) FU Yabo1,2,a, XU Wencai1,2,b, LI Dongli2,c, WANG Xing2,d and YANG Dapeng2,e 1Institute of Packaging and Printing Engineering, Tianjin University of Science and Technology, Tianjin 300222,China 2Beijing Key Lab. of Printing & Packaging Materials and Technology, Beijing Institute of Graphic Communication, Beijing 102600, China afuyabo@126.com,bxuwencai@bigc.edu.cn (Corresponding author), clidongli66@163.com, d13811032546@qq.com, e1522706459@qq.com Keywords: Modified atmosphere packaging; Packaging material; Strawberry; Shelf-life Abstract.
Materials and Methods Materials.
[2] Wang W., Li P.X., Liang L.S., et al:Journal of Anhui Agri.
:Packaging Technology and Science Vol.24(2011), p.123