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Online since: August 2022
Authors: R.S. Santos, Vital Araújo Barbosa de Oliveira, Thayze Rodrigues Bezerra Pessoa, Pierre Correa Martins, Anderson Melchiades Vasconcelos da Silva, Antonio Gilson Barbosa de Lima, Morgana Vasconcellos Araújo, Adriano S. Cabral, Marcia R. Luiz, Alanna C. Sousa
The optimization of the ceramic materials production process is basically aimed at improving the design and energy performance of industrial equipment [5 – 10], as well as the internal arrangement of ceramic materials in kilns [11] and ovens [12-14].
Fussl, A multitechnique, quantitative characterization of the pore space of fired bricks made of five clayey raw materials used in European brick industry, Applied Clay Science, 214 (2021) 1-16
Juleff, Computational simulation of air flows through a Sri Lankan wind-driven furnace, Journal of Archaeological Science, 32 (2005) 753-766
Materials, 12 (2019) 2-22
Construction and Building Materials 264 (2020) 1-13
Fussl, A multitechnique, quantitative characterization of the pore space of fired bricks made of five clayey raw materials used in European brick industry, Applied Clay Science, 214 (2021) 1-16
Juleff, Computational simulation of air flows through a Sri Lankan wind-driven furnace, Journal of Archaeological Science, 32 (2005) 753-766
Materials, 12 (2019) 2-22
Construction and Building Materials 264 (2020) 1-13
Online since: February 2018
Authors: Fransisco Casesnoves
This is due to the comparative analysis in both materials hardness values.
Science and Society.
International Journal of Scientific Research in Computer Science, Engineering and Information Technology. 2017 IJSRCSEIT | Volume 2 | Issue 3 | ISSN : 2456-3307
[5] Chen Q, Li D, Computer simulation of solid-particle erosion of composite materials.
Raw Materials and Circular Economy.
Science and Society.
International Journal of Scientific Research in Computer Science, Engineering and Information Technology. 2017 IJSRCSEIT | Volume 2 | Issue 3 | ISSN : 2456-3307
[5] Chen Q, Li D, Computer simulation of solid-particle erosion of composite materials.
Raw Materials and Circular Economy.
Online since: August 2015
Authors: Tomasz Giesko, Dariusz Boroński
The authors present examples of the developed unique optomechatronic systems for the monitoring of fatigue of materials.
Ritchie, Fatigue crack measurement: technique and applications, Engineering Materials Advisory Services Ltd., 1991
Wei, Mixed-mode crack growth in ductile thin-sheet materials under combined in-plane and out-of-plane loading, International Journal of Fracture Vol. 14, No 4 (2009) 297-321
Giesko, Dual-camera vision system for fatigue monitoring, Materials Science Forum Vol. 726, (2012) 226-232
Giesko, Application of Digital Image Correlation in Fatigue Crack Analysis, Materials Science Forum Vol. 726, (2012) 218-221
Ritchie, Fatigue crack measurement: technique and applications, Engineering Materials Advisory Services Ltd., 1991
Wei, Mixed-mode crack growth in ductile thin-sheet materials under combined in-plane and out-of-plane loading, International Journal of Fracture Vol. 14, No 4 (2009) 297-321
Giesko, Dual-camera vision system for fatigue monitoring, Materials Science Forum Vol. 726, (2012) 226-232
Giesko, Application of Digital Image Correlation in Fatigue Crack Analysis, Materials Science Forum Vol. 726, (2012) 218-221
Online since: June 2013
Authors: Philip Harrison, Farag Abdiwi, Woong Ryeol Yu
Effect of Tow Meander on the Shear Compliance of Woven Engineering Fabrics Measured using the Biaxial Bias Extension Test
Farag Abdiwi1, Philip Harrison1 and Woong-Ryeol Yu2
1 School of Engineering, James Watt Building (South)
University of Glasgow, Glasgow G12 8QQ, UK
2 Department of Materials Science and Engineering, 33 Dong 305 Ho, Seoul National University, 1 Gwanak-ro, Gwanak-gu, Seoul 151-742, South Korea
f.abdiwi.1@research.gla.ac.uk, Philip.Harrison@glasgow.ac.uk, woongryu@snu.ac.kr
Keywords: Biaxial bias extension test, woven engineering fabric, variability.
Composites Science and Technology, 72, (9), 1034–1041, 2012 [4] Prodromou, A. and Chen, J., On the Relationship between Shear Angle and Wrinkling of Textile Composites Preforms, Composites: Part A, (28): 491-503, 1997 [5] Wang, J., Predictive Modelling and Experimental Measurement of Composite Forming Behaviour, PhD Thesis, University of Nottingham, 2008 [6] Lussier, D., and Chen, J., Material Characterization of Woven Fabrics for Thermoforming of Composites, Journal of Thermoplastic Composite Materials, 15, 497-509, 2002 [7] Peng, X. and Cao, J., A Continuum Mechanics-Based Non-Orthogonal Constitutive Model for Woven Composite Fabrics, Composites: Part A, 36, 859–874, 2005 [8] Launay, L., Hivet, G., Duong, A. and Boisse, P., Experimental Analysis of the Influence of Tensions on in Plane Shear Behaviour of Woven Composite Reinforcements, Composites Science and Technology, 68, 2, 506–515, 2008 [9] Milani, A., Nemes, J., Lebrun, G., and Bureau, M., A Comparative Analysis of a Modified
Picture Frame Test for Characterization of Woven Fabrics, Polymer Composites, 31(4): 561-568, 2010 [10] Komeili, M. and Milani, A., Shear Response of Woven Fabric Composites under Meso-Level Uncertainties, Journal of Composite Materials, 1–11, 2012 [11] Hivet, G. and Duong, A., A Contribution to the Analysis of the Intrinsic Shear Behaviour of Fabrics, Journal of Composite Materials, 45(6), 695–716, 2010 [12] Harrison, P.
International Journal of Material Forming. 1:891-894, 2008 [14] Abdiwi, F., Harrison, P., Yu, W.R. and Guo, Z., Modelling the Shear-Tension Coupling of Engineering Fabrics.
Composites Part A: Applied Science and Manufacturing, 43 (9), 1546-1554, 2012
Composites Science and Technology, 72, (9), 1034–1041, 2012 [4] Prodromou, A. and Chen, J., On the Relationship between Shear Angle and Wrinkling of Textile Composites Preforms, Composites: Part A, (28): 491-503, 1997 [5] Wang, J., Predictive Modelling and Experimental Measurement of Composite Forming Behaviour, PhD Thesis, University of Nottingham, 2008 [6] Lussier, D., and Chen, J., Material Characterization of Woven Fabrics for Thermoforming of Composites, Journal of Thermoplastic Composite Materials, 15, 497-509, 2002 [7] Peng, X. and Cao, J., A Continuum Mechanics-Based Non-Orthogonal Constitutive Model for Woven Composite Fabrics, Composites: Part A, 36, 859–874, 2005 [8] Launay, L., Hivet, G., Duong, A. and Boisse, P., Experimental Analysis of the Influence of Tensions on in Plane Shear Behaviour of Woven Composite Reinforcements, Composites Science and Technology, 68, 2, 506–515, 2008 [9] Milani, A., Nemes, J., Lebrun, G., and Bureau, M., A Comparative Analysis of a Modified
Picture Frame Test for Characterization of Woven Fabrics, Polymer Composites, 31(4): 561-568, 2010 [10] Komeili, M. and Milani, A., Shear Response of Woven Fabric Composites under Meso-Level Uncertainties, Journal of Composite Materials, 1–11, 2012 [11] Hivet, G. and Duong, A., A Contribution to the Analysis of the Intrinsic Shear Behaviour of Fabrics, Journal of Composite Materials, 45(6), 695–716, 2010 [12] Harrison, P.
International Journal of Material Forming. 1:891-894, 2008 [14] Abdiwi, F., Harrison, P., Yu, W.R. and Guo, Z., Modelling the Shear-Tension Coupling of Engineering Fabrics.
Composites Part A: Applied Science and Manufacturing, 43 (9), 1546-1554, 2012
Online since: July 2012
Authors: Sirirat Thothong, Amnat Jarerat, Klanarong Sriroth, Rattana Tantatherdtam
Sun: Journal of Applied Polymer Science Vol. 81 (2001), p. 3069-3082
[2] C.
Zhang: Journal of Applied Polymer Science Vol. 103 (2007), p. 812-818 [7] H.
Seib: Journal of Applied Polymer Science Vol.82 (2001), p. 1761-1767 [8] A.P.
In Annual Book of ASTM standard; American Society Testing and Materials: Plastic Test Standard [17] S.
Sun and P.Seib: Journal of Applied Polymer Science Vol 90 (2003), p. 3683-3689
Zhang: Journal of Applied Polymer Science Vol. 103 (2007), p. 812-818 [7] H.
Seib: Journal of Applied Polymer Science Vol.82 (2001), p. 1761-1767 [8] A.P.
In Annual Book of ASTM standard; American Society Testing and Materials: Plastic Test Standard [17] S.
Sun and P.Seib: Journal of Applied Polymer Science Vol 90 (2003), p. 3683-3689
Online since: May 2021
Authors: P.A. Artamonov, N.P. Lukutsova, S.N. Golovin, A.A. Pykin
Zajcev Effective Fine-Grained Concrete with High-Dispersed Additive Based on the Natural Mineral Wollastonite, FarEastСon - Materials and Construction: Materials International Scientific Conference «FarEastCon». 945 (2018) 85-90
Bondarenko, Effective Highly Dispersed Additive for Concretes on the Basis of Natural Mineral Raw Materials, FarEastСon - Materials and Construction: Materials International Scientific Conference «FarEastCon». 992 (2019) 168-172
Efremochkin, Nano-additives for composite building materials and their environmental SAFETY,International Journal of Applied Engineering Research. 11 (2016) 7561-7565
Minko, Determination of the thermal conductivity of wood insulation materials in conditions of non-stationary heat transferInternational, Journal of Applied Engineering Research. 22 (2014) 15791
Liseitsev et al, Development of fiber concretes with cement-free binders, Modern science-intensive technologies. 1 (2019) 124-130
Bondarenko, Effective Highly Dispersed Additive for Concretes on the Basis of Natural Mineral Raw Materials, FarEastСon - Materials and Construction: Materials International Scientific Conference «FarEastCon». 992 (2019) 168-172
Efremochkin, Nano-additives for composite building materials and their environmental SAFETY,International Journal of Applied Engineering Research. 11 (2016) 7561-7565
Minko, Determination of the thermal conductivity of wood insulation materials in conditions of non-stationary heat transferInternational, Journal of Applied Engineering Research. 22 (2014) 15791
Liseitsev et al, Development of fiber concretes with cement-free binders, Modern science-intensive technologies. 1 (2019) 124-130
Online since: October 2013
Authors: Yong Gang Guo, Long Bang Qing, Zheng Liu
Three different materials were used to model the dam, and the acceleration response of arch dam under the observed seismic waves was simulated.
Fig. 1 Finite element model and partitions of different materials of dam Arch dam and boundary finite element model has a total of 8819 nodes, 6309 units including 3381 dam units.
In order to simulate the real situation as much as possible, three different concrete materials are used in the dam model, as shown in Fig. 1.
Tu, Journal of Hydraulic Engineering, Vol. 10 2 (2009)
Li, Journal of Hydraulic Engineering, 5 (2009)
Fig. 1 Finite element model and partitions of different materials of dam Arch dam and boundary finite element model has a total of 8819 nodes, 6309 units including 3381 dam units.
In order to simulate the real situation as much as possible, three different concrete materials are used in the dam model, as shown in Fig. 1.
Tu, Journal of Hydraulic Engineering, Vol. 10 2 (2009)
Li, Journal of Hydraulic Engineering, 5 (2009)
Online since: August 2013
Authors: Wei De Lu, Zhan Qing Ma, Jun Feng Rao
Materials and Methods
Experimental Reagents.Sulfadiazine,sulfamerazine, sulfapyridine, the sulfa-6-between alloxan, sulfamethazine, Sulfamethoxine, Sulfamethoxypyridazine sodium, Sulfamethoxazole, sulfafurazole, and sulfaguanidine with concentration of 1000 mg / L were provided by Centre for disease prevention and control in Zhejiang Province.The experimental sodium hydroxide solution was preparedby of 50% sodium hydroxide stock solution.The other reagents were Reagents.
In order to prevent analyze time too long so that reducing the impact of post-peak material, the optimized eluent concentration was 14 mmol / L NaOH solution.
Food Science Vol. 30(2009),p. 294 [7] Zuoqing Li, Meilin Ni, Xuejun Yu, et al.
Journal of Instrumental Analysis Vol.26(2007),p.508“In Chinese” [8] Xiuling Ji, Ufang Li, Qunhui Shen, et al..Ecology and Environmental Sciences Vol.20(2011), p. 927 “In Chinese” [9] Xiaoping Li, Xiao-hong Chen, Micong Jin, et al.
Chinese Journal of Analysis Laboratory Vol.30(2011), p. 109“In Chinese”
In order to prevent analyze time too long so that reducing the impact of post-peak material, the optimized eluent concentration was 14 mmol / L NaOH solution.
Food Science Vol. 30(2009),p. 294 [7] Zuoqing Li, Meilin Ni, Xuejun Yu, et al.
Journal of Instrumental Analysis Vol.26(2007),p.508“In Chinese” [8] Xiuling Ji, Ufang Li, Qunhui Shen, et al..Ecology and Environmental Sciences Vol.20(2011), p. 927 “In Chinese” [9] Xiaoping Li, Xiao-hong Chen, Micong Jin, et al.
Chinese Journal of Analysis Laboratory Vol.30(2011), p. 109“In Chinese”
Online since: October 2011
Authors: J.W. Kim, H.H. Chong, T.G. Park, M.H. Kim, S.S. Jeong, C.H. Park
The piezoelectric ceramic used here is PZT 4 and the materials of the elastic body are brass, copper and SUS 304.
As a result of analysis depending on change in the material, the order of resonance frequency was determined according to the speed of sound, which has relation to Young’s modulus and density. [9] In case of SUS304, which has the highest resonance frequency among three materials, the highest output voltage was also shown because of high Young’s modulus.
Analysis of the output voltage depending on the applied Frequency When the materials of the elastic body were changed, the output voltage of generator using SUS304 was higher than the other generators because of high Young’s modulus.
Gonzalez, Antonio Rubio and Francesc Moll, " Human Powered Piezoelectric Batteries to Supply Power to Wearable Electronic Devices", International Journal of the Society of Materials Engineering for Resource, p. 7, 2001
Jun, "Design and Fabrication of Piezoelectric Generator using Piezoelectric ceramics", Journal of the Korean Institute of Electrical and Electronic Material Engineers, Vol. 9, pp.315-316, 2008 [4] J.
As a result of analysis depending on change in the material, the order of resonance frequency was determined according to the speed of sound, which has relation to Young’s modulus and density. [9] In case of SUS304, which has the highest resonance frequency among three materials, the highest output voltage was also shown because of high Young’s modulus.
Analysis of the output voltage depending on the applied Frequency When the materials of the elastic body were changed, the output voltage of generator using SUS304 was higher than the other generators because of high Young’s modulus.
Gonzalez, Antonio Rubio and Francesc Moll, " Human Powered Piezoelectric Batteries to Supply Power to Wearable Electronic Devices", International Journal of the Society of Materials Engineering for Resource, p. 7, 2001
Jun, "Design and Fabrication of Piezoelectric Generator using Piezoelectric ceramics", Journal of the Korean Institute of Electrical and Electronic Material Engineers, Vol. 9, pp.315-316, 2008 [4] J.
Online since: July 2013
Authors: Muguthu Joseph Njuguna, D. Gao
Chip morphologies are shown in Fig. 5 to Fig.7 with varying cutting speed and depth of cut and three tool materials.
Acknowledgement The Authors would like to specially thank Chinese Scholarship Council for funding this research, the School of Mechanics Engineering, Harbin Institute of Technology for providing the facilities to carry out the research and the School of Material Science in providing the Aluminum Silicon Carbide Metal Matrix Composite material.
International Journal of Advanced Technology 39 (2008) 211-218
Mortenson A (Ed). encyclopedia of materials science and technology composites 2001
Journal of Materials Processing Technology, 1998
Acknowledgement The Authors would like to specially thank Chinese Scholarship Council for funding this research, the School of Mechanics Engineering, Harbin Institute of Technology for providing the facilities to carry out the research and the School of Material Science in providing the Aluminum Silicon Carbide Metal Matrix Composite material.
International Journal of Advanced Technology 39 (2008) 211-218
Mortenson A (Ed). encyclopedia of materials science and technology composites 2001
Journal of Materials Processing Technology, 1998