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Online since: June 2015
Authors: Fedor V. Grechnikov, Yaroslav A. Erisov
Kuwabara, Advances in anisotropy and formability, International Journal of Material Forming. 3 (2010) 165-189
Hirsch, Texture control by thermomechanical processing of AA6xxx Al-Mg-Si sheet alloys for automotive applications - a review, Materials Science and Engineering A. 336 (2002) 249-262
Van Houtte, On the role of texture development in the forming limits of sheet metals, International Journal of Mechanical Sciences. 38 (1996) 1117-1126
Karlsson, Control of microstructure and earing behaviour in aluminium alloy AA 3004 hot bands, Materials Science and Technology. 5 (1989) 1118-1127
Campbell Jr., Manufacturing Technology for Aerospace Structural Materials, Elsevier, Oxford, 2006
Hirsch, Texture control by thermomechanical processing of AA6xxx Al-Mg-Si sheet alloys for automotive applications - a review, Materials Science and Engineering A. 336 (2002) 249-262
Van Houtte, On the role of texture development in the forming limits of sheet metals, International Journal of Mechanical Sciences. 38 (1996) 1117-1126
Karlsson, Control of microstructure and earing behaviour in aluminium alloy AA 3004 hot bands, Materials Science and Technology. 5 (1989) 1118-1127
Campbell Jr., Manufacturing Technology for Aerospace Structural Materials, Elsevier, Oxford, 2006
Online since: October 2022
Authors: Marite Skute, Ilze Irbe, Inese Filipova, Anrijs Verovkins, Laura Andze, Gustavs Daniels Loris
Mycelium composites (MC) are ecologically safe materials, well suited for the short-life usage as packaging materials.
Materials MC Substrate, Compost.
John, Waste-derived low-cost mycelium composite construction materials with improved fire safety, Fire and Materials, 2018, (42) 816-825
Bajare, Novel Mycelium-Based Biocomposites (MBB) as Building Materials, Journal of Renewable Materials, 2020, 8(9), 1067-1076
John, Engineered mycelium composite construction materials from fungal biorefineries: A critical review, Materials & Design, 2020, Vol 187, 108397
Materials MC Substrate, Compost.
John, Waste-derived low-cost mycelium composite construction materials with improved fire safety, Fire and Materials, 2018, (42) 816-825
Bajare, Novel Mycelium-Based Biocomposites (MBB) as Building Materials, Journal of Renewable Materials, 2020, 8(9), 1067-1076
John, Engineered mycelium composite construction materials from fungal biorefineries: A critical review, Materials & Design, 2020, Vol 187, 108397
Online since: September 2013
Authors: Yu Ping Zhao, Yu Hai Xu
INTRODUCTION
Research situation 45Mn materials in mechanical properties, heat treatment of literature about that: 45Mn belongs to the alloy steel and carbon steel in conditioning, commonly known as manganese steel.
In order to improve the mechanical properties and wear resistance of the steel, a lot of axial, such as gear are all made in a state under the conditions of the use, and domestic to 45Mn materials forging performance of literature study, there is no data is available.
Chromium to the influence of the mechanical properties of When add chromium 45Mn steel for the strong impact of abrasive wear working conditions, the wear resistance of the material do not obviously change; When used for strong impact abrasive wear working condition, the wear resistance of the materials have increased significantly.
The results show that: forging state 45Mn sample tensile strength and elongation increased at the same time, that is, the plastic and strength and at the same time, improve, different from the general structure of the material characteristics, and the mechanical properties of raw materials without forging compared, mechanical properties were well. 5.
Mechanical Industry Press(2004),Vol. 7 ,pp. 934 [4] PAN Chun-xu, SUN Guo-zheng,Heter Ogeneous Steel Welding of The Present Status And Progress of Research,Hydraulic Power Machinery,(1998),Vol.1988, pp.42-46 [5] LIU Hai-yun, WU-yu, LU Wen-xiong,Heterogeneous Steel Welding Joint Bond Area Martensite With The Chemical Composition And Organization Structure, Taiyuan University of Technology( 1999),Vol. 30,pp. 598-601 [6] XIONG Yu-zhu,Tempering Temperature of High Manganese Steel Wear-resisting Influence On The Performance,Journal of Guizhou University of Natural Science Edition(2001) [7] XIE Jing-pei,Metamorphic of Plastic Deformation Wear of Manganese Steel,Journal of Friction Learn(2003) ,Vol.6
In order to improve the mechanical properties and wear resistance of the steel, a lot of axial, such as gear are all made in a state under the conditions of the use, and domestic to 45Mn materials forging performance of literature study, there is no data is available.
Chromium to the influence of the mechanical properties of When add chromium 45Mn steel for the strong impact of abrasive wear working conditions, the wear resistance of the material do not obviously change; When used for strong impact abrasive wear working condition, the wear resistance of the materials have increased significantly.
The results show that: forging state 45Mn sample tensile strength and elongation increased at the same time, that is, the plastic and strength and at the same time, improve, different from the general structure of the material characteristics, and the mechanical properties of raw materials without forging compared, mechanical properties were well. 5.
Mechanical Industry Press(2004),Vol. 7 ,pp. 934 [4] PAN Chun-xu, SUN Guo-zheng,Heter Ogeneous Steel Welding of The Present Status And Progress of Research,Hydraulic Power Machinery,(1998),Vol.1988, pp.42-46 [5] LIU Hai-yun, WU-yu, LU Wen-xiong,Heterogeneous Steel Welding Joint Bond Area Martensite With The Chemical Composition And Organization Structure, Taiyuan University of Technology( 1999),Vol. 30,pp. 598-601 [6] XIONG Yu-zhu,Tempering Temperature of High Manganese Steel Wear-resisting Influence On The Performance,Journal of Guizhou University of Natural Science Edition(2001) [7] XIE Jing-pei,Metamorphic of Plastic Deformation Wear of Manganese Steel,Journal of Friction Learn(2003) ,Vol.6
Online since: April 2009
Authors: Perla E. García, Jose G. Camacho Meza, Carlos A. Martínez, Humberto Monreal Romero
Kittelson, Journal of Aerosol Science, Vol. 29, Issues 5-6, (1998), 575-588
Jing Liu, George Anthony Flores, Rongsheng Sheng, Journal of Magnetism and Magnetic Materials 225 (2001), 209-217
Cho, Chong-Oh Kim, CheolGi Kim, Journal of Magnetism and Magnetic Materials in press
Zhongbing Huang , Guangfu Yin, Xiaoming Liao, Yadong Yao, Yunqing Kang, Journal of Colloid and Interface Science, Vol. 317 (2008), 530-535
Deliyanni E.A., Nalbandian L., Matis K.A., Journal of Colloid and Interface Science, Vol.302 (2006) 458-466.
Jing Liu, George Anthony Flores, Rongsheng Sheng, Journal of Magnetism and Magnetic Materials 225 (2001), 209-217
Cho, Chong-Oh Kim, CheolGi Kim, Journal of Magnetism and Magnetic Materials in press
Zhongbing Huang , Guangfu Yin, Xiaoming Liao, Yadong Yao, Yunqing Kang, Journal of Colloid and Interface Science, Vol. 317 (2008), 530-535
Deliyanni E.A., Nalbandian L., Matis K.A., Journal of Colloid and Interface Science, Vol.302 (2006) 458-466.
Online since: July 2019
Authors: Sivakumar Sivanesan, Satesh Namasivayam, Mohammad Hosseini Fouladi, Teow Hsien Loong
Journal of materials science, 30(12), (1995) 3057-3060
Journal of materials science, 31(22), (1996) 6055-6062
Journal of materials science, 29(15) (2014) 3949-3954
Journal of materials science, 35(21), (2000) 5509-5515
Journal of Materials Science, 17(1), (1982) 225-234
Journal of materials science, 31(22), (1996) 6055-6062
Journal of materials science, 29(15) (2014) 3949-3954
Journal of materials science, 35(21), (2000) 5509-5515
Journal of Materials Science, 17(1), (1982) 225-234
Online since: January 2016
Authors: Suriati Sufian, Zakaria Man, Amir Sada Khan, Ahmer Ali Siyal, Khairun Azizi Azizli, Hafeez Ullah, Muhammad Irfan Khan
This review discusses the IR analysis of geopolymers and their starting materials.
Alkali activated materials (AAMs) and geopolymers were introduced as green alternatives to OPC [1].
Bernal, Geopolymers and related alkali-activated materials, Annual Review of Materials Research. 44 (2014) 299 - 327
Provis, Quantitative study of the reactivity of fly ash in geopolymerization by FTIR, Journal of Sustainable Cement-Based Materials. 1 (2012) 154 - 166
Rossignol, Evidence of a gel in geopolymer compounds from pure metakaolin, Journal of Sol-Gel Science and Technology. 67 (2013), 534 - 544
Alkali activated materials (AAMs) and geopolymers were introduced as green alternatives to OPC [1].
Bernal, Geopolymers and related alkali-activated materials, Annual Review of Materials Research. 44 (2014) 299 - 327
Provis, Quantitative study of the reactivity of fly ash in geopolymerization by FTIR, Journal of Sustainable Cement-Based Materials. 1 (2012) 154 - 166
Rossignol, Evidence of a gel in geopolymer compounds from pure metakaolin, Journal of Sol-Gel Science and Technology. 67 (2013), 534 - 544
Online since: February 2012
Authors: Zhong Cheng Wang, An Kang Kan
Introduction
Vacuum insulation panels l (referred to as VIP), is a new super-insulation material.It uses the principle of vacuum insulation, the insulation properties of a good core material into the trap structure, and then vacuum sealed to form the sheet.From the literature[1] to know: If the core material containing the water which can not be completely ruled out, then made use of the VIP after a period of time the vacuum will rise, insulation will deteriorate, so the pre-core material is very important.Glass fiber (a VIP core material), for example, the use of a conventional drying method to remove the core material in the water, due to very small thermal conductivity core material, the heat transfer in glass fibers is very slow, dry and long cycle, low efficiency .
Water-wet media and the general media in a certain partial pressure corresponding to a certain saturation effect of the temperature, the greater the vacuum, wet material contained in water or wet media saturation temperature corresponding to the lower boiling point temperature is low, the more easily vaporized escape leaving the material dry.Vacuum drying is based on the physical characteristics of the hot dried material which will be placed in a sealed drying chamber.
Acknowledgements:This paper is supported by Science & Technology Program of Shanghai Maritime University(20110055) References [1] Jun Ji.
High-vacuum low-temperature insulation materials.The study on TLC-VIP [D].A master's degree paper of SMU, 2007.6
[2] Xianjun Li,Qingli Wu,Wei Jiang,Biguang Zhang.The moisture migration mechanism of wood in the microwave vacuum drying process[J].Journal of Beijing Forestry University, 2006(28)
Water-wet media and the general media in a certain partial pressure corresponding to a certain saturation effect of the temperature, the greater the vacuum, wet material contained in water or wet media saturation temperature corresponding to the lower boiling point temperature is low, the more easily vaporized escape leaving the material dry.Vacuum drying is based on the physical characteristics of the hot dried material which will be placed in a sealed drying chamber.
Acknowledgements:This paper is supported by Science & Technology Program of Shanghai Maritime University(20110055) References [1] Jun Ji.
High-vacuum low-temperature insulation materials.The study on TLC-VIP [D].A master's degree paper of SMU, 2007.6
[2] Xianjun Li,Qingli Wu,Wei Jiang,Biguang Zhang.The moisture migration mechanism of wood in the microwave vacuum drying process[J].Journal of Beijing Forestry University, 2006(28)
Online since: March 2018
Authors: Hamid Sellaf, Aissa Asroun, Habib Trouzine
As for the suspended materials are all the organic and non-organic materials which did not decompose.
Carpathian Journal of Earth and Environmental Sciences, 10 (2015) 95-104
Carpathian Journal of Earth and Environmental Sciences, 115 (2016) 529 – 538
Carpathian Journal of Earth and Environmental Sciences, 12 (2015) 271 - 280
International Journal of Innovative Research in Science, Engineering and Technology, 3 (2014) 8447-8454
Carpathian Journal of Earth and Environmental Sciences, 10 (2015) 95-104
Carpathian Journal of Earth and Environmental Sciences, 115 (2016) 529 – 538
Carpathian Journal of Earth and Environmental Sciences, 12 (2015) 271 - 280
International Journal of Innovative Research in Science, Engineering and Technology, 3 (2014) 8447-8454
Online since: March 2010
Authors: R.X. Chen, Wen Hao Fan, Qing Sen Meng, L.Q. Wang, L.Z. Ding
Introduction
Iron disilicide (β-FeSi2) is a potential candidate for thermoelectric materials because of its abundance
as a raw material, high Seebeck coefficient, large working temperature range, good resistance to
oxidation, and non-toxicity.
Doping of β-FeSi2 with metals, e.g., Co and Mn, to produce n-type and p-type materials, respectively, is aimed at improving the Seebeck coefficient and electrical conductivity [1].
It was proved that FAPAS is a benign and rapid synthesis method for β-FeSi2 thermoelectric materials.
Conclusions (1) Mechanically activated powder mixtures of Fe and Si were applied to fabricate FeSi2 and FeSi2-0.1wt%Cu bulk thermoelectric materials by FAPAS process.
References [1] I.Yamauchi, H.Okamoto, A.Suganuma and et al: Journal of Materials Science, Vol.33 (1998), p.385-394 [2] Y.Tomm, L.Ivaneko, K.Irmscher and et al: Materials Science and Engineering, Vol.B37 (1996), p.215-218 [3] Mikio Ito, Tomoyuki Tada and Shigeta Hara:Journal of Alloys and Compounds, Vol.408-412 (2006), p. 363-367 [4] S.W.Kim, M.K.Cho, Y.Mishima and et al: Intermetallics Vol. 11(2003), p.399-405 [5] K.NOGI, T.KITA: Journal of materials science, Vol.35 (2000), p.5845-5849
Doping of β-FeSi2 with metals, e.g., Co and Mn, to produce n-type and p-type materials, respectively, is aimed at improving the Seebeck coefficient and electrical conductivity [1].
It was proved that FAPAS is a benign and rapid synthesis method for β-FeSi2 thermoelectric materials.
Conclusions (1) Mechanically activated powder mixtures of Fe and Si were applied to fabricate FeSi2 and FeSi2-0.1wt%Cu bulk thermoelectric materials by FAPAS process.
References [1] I.Yamauchi, H.Okamoto, A.Suganuma and et al: Journal of Materials Science, Vol.33 (1998), p.385-394 [2] Y.Tomm, L.Ivaneko, K.Irmscher and et al: Materials Science and Engineering, Vol.B37 (1996), p.215-218 [3] Mikio Ito, Tomoyuki Tada and Shigeta Hara:Journal of Alloys and Compounds, Vol.408-412 (2006), p. 363-367 [4] S.W.Kim, M.K.Cho, Y.Mishima and et al: Intermetallics Vol. 11(2003), p.399-405 [5] K.NOGI, T.KITA: Journal of materials science, Vol.35 (2000), p.5845-5849
Online since: July 2022
Authors: Remko Akkerman, Joseph Lewis George Liddiard, Sebastiaan Wijskamp, E. Rens Pierik, Wouter Johannes Bernardus Grouve
Materials and Methods
Materials.
Mallon, "Chapter 5 characterisation of shearing and frictional behaviour during sheet forming," in Composite materials series (D.
Akkerman, "Design of an experimental setup to measure tool-ply and ply-ply friction in thermoplastic laminates," International Journal of Material Forming, vol. 2, no. 1, pp. 197-200, 2009
Chen, "Characterization of the tool/fabric and fabric/fabric friction for woven-fabric composites during the thermostamping process," International Journal of Material Forming, vol. 6, no. 2, pp. 209-221, 2013
Denault, "Thermoforming-stamping of continuous glass fiber/polypropylene composites: interlaminar and tool-laminate shear properties," Journal of Thermoplastic Composite Materials, vol. 17, no. 2, pp. 137-165, 2004
Mallon, "Chapter 5 characterisation of shearing and frictional behaviour during sheet forming," in Composite materials series (D.
Akkerman, "Design of an experimental setup to measure tool-ply and ply-ply friction in thermoplastic laminates," International Journal of Material Forming, vol. 2, no. 1, pp. 197-200, 2009
Chen, "Characterization of the tool/fabric and fabric/fabric friction for woven-fabric composites during the thermostamping process," International Journal of Material Forming, vol. 6, no. 2, pp. 209-221, 2013
Denault, "Thermoforming-stamping of continuous glass fiber/polypropylene composites: interlaminar and tool-laminate shear properties," Journal of Thermoplastic Composite Materials, vol. 17, no. 2, pp. 137-165, 2004