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Online since: April 2014
Authors: Hazlin Hamdan, Ahmad Rafizan Mohamad Daud, Munawar Zaman Shahruddin, Syed Shatir A. Syed-Hassan
Methods
Materials and sample preparation.
Additionally, an analysis using Bomb calorimeter (IKA model C5000) on the calorific value of the single fuels (coal, bio-oil and biomass) and the mixture of coal/bio-oil has been conducted to emphasise on some of the fuel characteristics possess by the materials and its mixture that is comparable to the characteristics of an ideal fuel shown in Table 1.
Experimental Thermal and Fluid Science. 47 (2013) 232-240
Yakar Elbeylí and Pískìn, Pyrolysis Kinetics of Turkish Bituminous Coals by Thermal Analysis, Turkish Journal of Engineering and Environmental Science. 28 (2004) 233-239
Liu, A thermal behavior study of Chinese coals with high hydrogen content, International Journal of Coal Geology. 81 (2010) 37-44
Additionally, an analysis using Bomb calorimeter (IKA model C5000) on the calorific value of the single fuels (coal, bio-oil and biomass) and the mixture of coal/bio-oil has been conducted to emphasise on some of the fuel characteristics possess by the materials and its mixture that is comparable to the characteristics of an ideal fuel shown in Table 1.
Experimental Thermal and Fluid Science. 47 (2013) 232-240
Yakar Elbeylí and Pískìn, Pyrolysis Kinetics of Turkish Bituminous Coals by Thermal Analysis, Turkish Journal of Engineering and Environmental Science. 28 (2004) 233-239
Liu, A thermal behavior study of Chinese coals with high hydrogen content, International Journal of Coal Geology. 81 (2010) 37-44
Online since: May 2012
Authors: Xian Ze Peng, Han Li, Yu Jun Zeng, Xiao Yuan Guo
As a method to research into the material resource metabolic action of nature-economy-society three-dimensional ecosystem, the basic thought of emergy analysis is to transfer different types, incomparable energy and materials fluid or stored in the ecology economic system into solar emergy of the same standard, which is count by sej.
Journal of Beijing Forestry University (2001), 23(6): p. 66-69.
(In Chinese) [6] Shengfang Lan, Feipeng Chen, Xinmao Liu: Emergy analysis on agriculture eco-economic system[J], Ecologic Science (1995), (2) 1.
(In Chinese) [17] Guowei Xu, Shuling Huang, Xintian Yuan, Yang Gao: Emergy analysis of agriculture ecosystem in China[J], Journal of Chifeng University (2011), Vol. 6.
Journal of Resources and Ecology: Emergy Evaluation of Agro-ecosystem of Shiyang River Basin, Northwestern China.
Journal of Beijing Forestry University (2001), 23(6): p. 66-69.
(In Chinese) [6] Shengfang Lan, Feipeng Chen, Xinmao Liu: Emergy analysis on agriculture eco-economic system[J], Ecologic Science (1995), (2) 1.
(In Chinese) [17] Guowei Xu, Shuling Huang, Xintian Yuan, Yang Gao: Emergy analysis of agriculture ecosystem in China[J], Journal of Chifeng University (2011), Vol. 6.
Journal of Resources and Ecology: Emergy Evaluation of Agro-ecosystem of Shiyang River Basin, Northwestern China.
Online since: November 2014
Authors: Norzita Ngadi, Syie Luing Wong, T.A.T. Abdullah
Under such condition, the materials decompose into smaller fragments, which may then recombine to form some other compounds.
The solvent can be collected and recycled through drying process, hence reducing the materials cost.
MATERIALS AND METHODOLOGY Materials.
Materials Safety Data Sheet (MSDS) of the solvents used above have been studied, and several important data was summarized in Table 1 from Materials Safety Data Sheet obtained from the Science Lab Company.
Journal of Analytical and Applied Pyrolysis, 2012. 97(0): p. 29-38
The solvent can be collected and recycled through drying process, hence reducing the materials cost.
MATERIALS AND METHODOLOGY Materials.
Materials Safety Data Sheet (MSDS) of the solvents used above have been studied, and several important data was summarized in Table 1 from Materials Safety Data Sheet obtained from the Science Lab Company.
Journal of Analytical and Applied Pyrolysis, 2012. 97(0): p. 29-38
Online since: October 2013
Authors: Chil Chyuan Kuo, Ying Jie Wang, Zhong Sheng Shi
Low carbon steel was used as the core materials.
Kaplas,”Comparative Study of 3D Printing Technologies for Rapid Casting of Aluminum Alloy,” Materials and Manufacturing Processes, Vol. 24 (2009), P. 1405-1411 [2] I.
Buchmeister,” Potential of laser engineered net shaping (LENS) technology,” Materials and Manufacturing Processes, Vol. 24 (2009), P. 750-753 [3] C.
Lai,” Development of an automatic vacuum degassing system and parameters optimization for degassing process,” Indian Journal of Engineering and Materials Sciences, Vol. 18(2011), Number 6, P. 405-410 [7] A.
Mahapatra,” Improving dimensional accuracy of Fused Deposition Modelling processed part using grey Taguchi method,” Materials & Design, Vol. 30 (2009), Issue 10, P. 4243-4252
Kaplas,”Comparative Study of 3D Printing Technologies for Rapid Casting of Aluminum Alloy,” Materials and Manufacturing Processes, Vol. 24 (2009), P. 1405-1411 [2] I.
Buchmeister,” Potential of laser engineered net shaping (LENS) technology,” Materials and Manufacturing Processes, Vol. 24 (2009), P. 750-753 [3] C.
Lai,” Development of an automatic vacuum degassing system and parameters optimization for degassing process,” Indian Journal of Engineering and Materials Sciences, Vol. 18(2011), Number 6, P. 405-410 [7] A.
Mahapatra,” Improving dimensional accuracy of Fused Deposition Modelling processed part using grey Taguchi method,” Materials & Design, Vol. 30 (2009), Issue 10, P. 4243-4252
Online since: October 2010
Authors: Chun Jie Han, Tie Yan
Ansys can be used in many science fields.
The material type of drill string is linear, elastic, isotropic material; for the system of drill string, the material properties are: elastic model is 2.06E0+11, poison's ratio is 0.3, material density is 7850kg/m3 or 7800kg/m3.
Fig. 1(a) is the situation of the material density of drill string is 7850kg/m3, Fig. 1(b) is the situation of the material density of drill string is 7800kg/m3.
Fig. 2(a) is the situation of the material density of drill string is 7850kg/m3, Fig. 2(b) is the situation of the material density of drill string is 7800kg/m3.
Journal of Engineering for Industry, Vol.82(1960), p.122-128 [2] Zhao Guozhen, Long Weian, "Borehole Mechanics basis, Oil Industry" Press, BJ(1988), In press
The material type of drill string is linear, elastic, isotropic material; for the system of drill string, the material properties are: elastic model is 2.06E0+11, poison's ratio is 0.3, material density is 7850kg/m3 or 7800kg/m3.
Fig. 1(a) is the situation of the material density of drill string is 7850kg/m3, Fig. 1(b) is the situation of the material density of drill string is 7800kg/m3.
Fig. 2(a) is the situation of the material density of drill string is 7850kg/m3, Fig. 2(b) is the situation of the material density of drill string is 7800kg/m3.
Journal of Engineering for Industry, Vol.82(1960), p.122-128 [2] Zhao Guozhen, Long Weian, "Borehole Mechanics basis, Oil Industry" Press, BJ(1988), In press
Online since: September 2013
Authors: Ya Xu, Wen Ting He, Zi Jian Wang, Yi Sheng Zhang
Hot Stamping of Two Different High Strength Steel with Tailored Properties
Zijian Wang, Ya Xu, Wenting He, Yisheng Zhang*
1State Key Laboratory of Materials Processing and Die & Mould Technology, Huazhong University of Science and Technology, Wuhan, China
*zhangys@mail.hust.edu.cn
Keywords: Hot Stamping, High Strength Steel, Tailored Properties, Air Gap
Abstract.
In the future, corresponding experiments and numerical research will be carried out, considering much more different air gaps and materials.
References [1] Karbasian H, Tekkaya A E: Journal of Materials Processing technology,2010,210(15):2103-2118 [2] Pellegrini D: University of Padua(2012)
[3] Zhu B, Zhang Y S, Li J, et al: Materials Research Innovations, 2011,15(1):426-430
[8] Svec T, Grüner M, Merklein M: Key Engineering Materials, 2011,473:699-706
In the future, corresponding experiments and numerical research will be carried out, considering much more different air gaps and materials.
References [1] Karbasian H, Tekkaya A E: Journal of Materials Processing technology,2010,210(15):2103-2118 [2] Pellegrini D: University of Padua(2012)
[3] Zhu B, Zhang Y S, Li J, et al: Materials Research Innovations, 2011,15(1):426-430
[8] Svec T, Grüner M, Merklein M: Key Engineering Materials, 2011,473:699-706
Online since: June 2008
Authors: C.M. Clemente, N. Martins, J.A. Simões
Computational fluid
dynamics (CFD) codes using VOF (volume-of-fluid) method has proven to be a useful and robust
tool method to simulate multi-material flows with immiscible interfaces.
Incompressible multi-material flows with immiscible interfaces occur in a large number of natural and industrial processes like extrusion, casting and mold filling.
Carroll: Journal of Biomedical Materials Research Vol. 63 (2002), p. 191
Engineering in Materials Vol. 218 (2004) pp. 331
Fan: Computational Materials Science Vol. 29 (2004), pp. 103
Incompressible multi-material flows with immiscible interfaces occur in a large number of natural and industrial processes like extrusion, casting and mold filling.
Carroll: Journal of Biomedical Materials Research Vol. 63 (2002), p. 191
Engineering in Materials Vol. 218 (2004) pp. 331
Fan: Computational Materials Science Vol. 29 (2004), pp. 103
Online since: October 2023
Authors: David Palomo, Marcos Borrego Puche, Andrés J. Martínez-Donaire, Carpoforo Vallellano
International Journal of Engineering Science 38 (2000) 1759-1788
Mechanics of Materials 146 (2020) [7] ISO 12004-2, 2008.
Mechanics of Materials 132 (2019) 47-56 [10] M.P.
Journal of Materials Processing Technology 214 (2014) 1749-1758 [11] K.
Key Engineering Materials 926 (2022) 710-716
Mechanics of Materials 146 (2020) [7] ISO 12004-2, 2008.
Mechanics of Materials 132 (2019) 47-56 [10] M.P.
Journal of Materials Processing Technology 214 (2014) 1749-1758 [11] K.
Key Engineering Materials 926 (2022) 710-716
Online since: January 2007
Authors: Mario Zadra, Francesco Casari, Alberto Molinari
Microstructure and Mechanical Properties of Nanostructured
Aluminum Consolidated By SPS
Mario Zadra, Francesco Casari and Alberto Molinari
University of Trento - Faculty of Engineering -
Department of Materials Science and Industrial Technologies
Via Mesiano 77 - 38050 Trento (Italy)
mario.zadra@ing.unitn.it
Keywords: Spark Plasma Sintering, Nanostructured Aluminum, Processing Control Agent, Milling,
Light Alloys
Abstract.
Tokita in: Proceedings of NEDO International Symposium on Functionally Graded Materials pp.23-33 "Trends in Advanced SPS System and FGM Technology" [2] L.
Besterci: Dispersion-Strengthened Aluminum Prepared by Mechanical Alloying (Cambridge International Science Publishing, 1999) [4] P.
Delhez in: Journal of Applied Crystollography Vol. 37 pp. 381-390 (2004) "Line Broadening Analysis using Integral Breadth Methods: a Critical Review" [5] M.
Lavernia in: Progress in Materials Science Vol. 51 Issue 1 Jan. 2006 pp.1-60 "Synthesis and Mechanical Behavior of Nanostructured Materials via Cryomilling" [7] T.
Tokita in: Proceedings of NEDO International Symposium on Functionally Graded Materials pp.23-33 "Trends in Advanced SPS System and FGM Technology" [2] L.
Besterci: Dispersion-Strengthened Aluminum Prepared by Mechanical Alloying (Cambridge International Science Publishing, 1999) [4] P.
Delhez in: Journal of Applied Crystollography Vol. 37 pp. 381-390 (2004) "Line Broadening Analysis using Integral Breadth Methods: a Critical Review" [5] M.
Lavernia in: Progress in Materials Science Vol. 51 Issue 1 Jan. 2006 pp.1-60 "Synthesis and Mechanical Behavior of Nanostructured Materials via Cryomilling" [7] T.
Online since: June 2012
Authors: Can Wang, Yan Bo Liu, Quan Sheng Wang, Xian Kai Sun
Thermal Cycling Behavior of Sm2Zr2O7 Ceramics Thermal Barrier Coatings by APS
Xiankai Sun1,a, Quansheng Wang1,b, Yanbo Liu2,c, Can wang3,d
School of Material Science and Engineering, Beijing Institute of Technology, Beijing 100081, China
asunxiankai2008@163.com, bqsh-wang@bit.edu.cn, clyb197896@bit.edu.cn, dwangcan1105@126.com
Keywords: rare-earth zirconates, atmospheric plasma spraying, thermal barrier coating
Abstract.
The recent researches focus on the serving of new materials, new coating structure and advanced manufacture craft that can replace the conventional YSZ series TBCs.
Clyne, Sintering kinetics of plasma-sprayed zirconia TBCs, Journal.
Ralyos, Emerging materials and process for thermal barrier systems, Current Opinion in Solid State and Materials Science. 8 (2004) 77-91
Qiang, Thermal barrier coating material, first ed., Science Press, Beijing 2007
The recent researches focus on the serving of new materials, new coating structure and advanced manufacture craft that can replace the conventional YSZ series TBCs.
Clyne, Sintering kinetics of plasma-sprayed zirconia TBCs, Journal.
Ralyos, Emerging materials and process for thermal barrier systems, Current Opinion in Solid State and Materials Science. 8 (2004) 77-91
Qiang, Thermal barrier coating material, first ed., Science Press, Beijing 2007