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Online since: February 2018
Authors: Huai Ying Zhou, Yong Qiang Xu, Chang Cheng Fang, Qing Rong Yao, Guang Hui Rao, Jian Qiu Deng, Zhong Min Wang
Raw materials of Ce, Fe, Co, B with purity of 99.99% were re-melted five times to produce compositional homogeneity ingots.
Hiraga, Permanent magnet materials based on the rare earth iron boron tetragonal compounds, J.
Journal of Magnetism & Magnetic Materials, Vol. 196(1999) No. 5, P. 288
Journal of Magnetism & Magnetic Materials, Vol. 202 (1999) No. 2, P. 458
Crystal and magnetic structure of the permanent magnet materials Nd2Fe14−xCoxB (x,=0-14)[J].
Hiraga, Permanent magnet materials based on the rare earth iron boron tetragonal compounds, J.
Journal of Magnetism & Magnetic Materials, Vol. 196(1999) No. 5, P. 288
Journal of Magnetism & Magnetic Materials, Vol. 202 (1999) No. 2, P. 458
Crystal and magnetic structure of the permanent magnet materials Nd2Fe14−xCoxB (x,=0-14)[J].
Online since: June 2014
Authors: Norhamidi Muhamad, Istikamah Subuki, Muhammad Hussain Ismail, Rosliza Razali, Zulaila Abdullah
Edmonds, “Porous NiTi alloys produced by press-and-sinter from Ni/Ti and Ni/TiH2 mixtures,” Materials Science and Engineering: A, vol. 582, pp. 117–125, Oct. 2013
Stöver, “Powder metallurgical fabrication processes for NiTi shape memory alloy parts,” Materials Science and Engineering: A, vol. 337, no. 1–2, pp. 254–263, Nov. 2002
Edmonds, “Porous NiTi alloys produced by press-and-sinter from Ni/Ti and Ni/TiH2 mixtures,” Materials Science and Engineering: A, vol. 582, pp. 117–125, Oct. 2013
Yanhong, “Fabrication of high porous NiTi shape memory alloy by metal injection molding,” Journal of Materials Processing Technology, vol. 206, no. 1–3, pp. 395–399, Sep. 2008
Sulong, “Rheological Investigation of Water Atomised Stainless Steel,” International Journal of Mechanical and Materials Engineering, vol. 4, no. 1, pp. 1–8, 2009
Stöver, “Powder metallurgical fabrication processes for NiTi shape memory alloy parts,” Materials Science and Engineering: A, vol. 337, no. 1–2, pp. 254–263, Nov. 2002
Edmonds, “Porous NiTi alloys produced by press-and-sinter from Ni/Ti and Ni/TiH2 mixtures,” Materials Science and Engineering: A, vol. 582, pp. 117–125, Oct. 2013
Yanhong, “Fabrication of high porous NiTi shape memory alloy by metal injection molding,” Journal of Materials Processing Technology, vol. 206, no. 1–3, pp. 395–399, Sep. 2008
Sulong, “Rheological Investigation of Water Atomised Stainless Steel,” International Journal of Mechanical and Materials Engineering, vol. 4, no. 1, pp. 1–8, 2009
Online since: August 2013
Authors: Wei Xu, Zhao Ming Liu
l Use recyclable packaging materials as much as possible.
l Use non-toxic materials as much as possible, and reduce the use of hazardous materials.
l Foster the recovery and disposal of waste packaging materials.The recovery and disposal of waste packaging materials should be fostered, including the packaging materials that could be directly reused or repaired, and the waste that could be reproduced or degraded and so forth.
Octagon pizza boxes can save 10% of packaging materials compared to square ones.
Beijing: Science Press,2005.1(in Chinese)
l Use non-toxic materials as much as possible, and reduce the use of hazardous materials.
l Foster the recovery and disposal of waste packaging materials.The recovery and disposal of waste packaging materials should be fostered, including the packaging materials that could be directly reused or repaired, and the waste that could be reproduced or degraded and so forth.
Octagon pizza boxes can save 10% of packaging materials compared to square ones.
Beijing: Science Press,2005.1(in Chinese)
Online since: June 2010
Authors: Josep A. Planell, Melba Navarro
Guerin: Journal of Materials Science-Materials in
Medicine.
Vert: Journal of Materials Science: Materials in Medicine Vol.1 (1991), p.131 112.
Cui: Materials Science and Engineering C, Vol.7 (1999), p.19 118.
Tanihara: Materials Science and Engineering C, Vol.22 (2002), p. 27 140.
Zhu, K. de Groot: Journal of Biomedical Materials Research Part A.
Vert: Journal of Materials Science: Materials in Medicine Vol.1 (1991), p.131 112.
Cui: Materials Science and Engineering C, Vol.7 (1999), p.19 118.
Tanihara: Materials Science and Engineering C, Vol.22 (2002), p. 27 140.
Zhu, K. de Groot: Journal of Biomedical Materials Research Part A.
Online since: October 2015
Authors: Jaromír Moravec, Ozan Caliskanoglu, Martina Dikovits, Iva Novakova
Comparison of Dilatometry Results Obtained by Two Different Devices when Generating CCT and In-Situ Diagrams
MORAVEC Jaromir1,a *, DIKOVITS Martina2,b, NOVAKOVA Iva1,c, CALISKANOGLU Ozan2,d
1Technical University of Liberec, Studentská 2, 461 17 Liberec, Czech Republic
2 Institute of Materials Science and Welding, Graz University of Technology, Kopernikusgasse 24/I, A-8010 Graz, Austria
ajaromir.moravec@tul.cz, bmartina.dikovits@tugraz.at, civa.novakova@tul.cz,
dozan.caliskanoglu@tugraz.at
Keywords: CCT diagram, In-situ diagram, Dilatometry, Gleeble®, 10GN2MFA steel
Abstract
For understanding and describing the materials behaviour during phase transformations, dilatometer measurements are commonly used in the scientific community.
However, in many cases, real weld cycles are more suitable for studying the materials behaviour instead of using CCT diagrams.
Pieczonka, Dilatometric analysis of sintering of iron-boron-cobalt P/M metal matrix composites, Journal of Materials Processing Technology 157-158 (2004) 749-754
Shih, Design, manufacture, and analysis of metal foam electrical resistance heater, Journal of Mechanical Sciences 48/11 (2006) 1314-1322
Bradac, Possibilities and utilization of stress-temperature simulator Gleeble at research of materials technological processability, TU Liberec, Liberec, 2014
However, in many cases, real weld cycles are more suitable for studying the materials behaviour instead of using CCT diagrams.
Pieczonka, Dilatometric analysis of sintering of iron-boron-cobalt P/M metal matrix composites, Journal of Materials Processing Technology 157-158 (2004) 749-754
Shih, Design, manufacture, and analysis of metal foam electrical resistance heater, Journal of Mechanical Sciences 48/11 (2006) 1314-1322
Bradac, Possibilities and utilization of stress-temperature simulator Gleeble at research of materials technological processability, TU Liberec, Liberec, 2014
Online since: January 2022
Authors: Mickael Saillio, Elhem Ghorbel, Mohammed Nouali
Recovery of Excavated Materials as an Alternative Solution to Earth Building Materials
M.
MATERIALS AND METHOD 2.1.
European Scientific Journal 10, 217–231
Construction and Building Materials 1–11
Construction and Building Materials 1–10
MATERIALS AND METHOD 2.1.
European Scientific Journal 10, 217–231
Construction and Building Materials 1–11
Construction and Building Materials 1–10
Online since: February 2015
Authors: Pierre Millet, Alain Lodini, Veijo Honkimäki, Abdelilah Benmarouane, Thomas Buslaps, Helene Citterio
Materials and Method
Two different coatings have been plasma sprayed on Ti-6Al-4V substrate.
Materials Science and Engineering A, 213(1-2) (1996) 134-137 [2] C.
Journal of Biomedical Materials Research, 34(1) (1997) 121-128
Line Broadening Analysis Using FullProf*: Determination of Microstructural Properties, Materials Science Forum, 123 (2004) 443-444
Materials Science Forum. 524 (2006) 951-956.
Materials Science and Engineering A, 213(1-2) (1996) 134-137 [2] C.
Journal of Biomedical Materials Research, 34(1) (1997) 121-128
Line Broadening Analysis Using FullProf*: Determination of Microstructural Properties, Materials Science Forum, 123 (2004) 443-444
Materials Science Forum. 524 (2006) 951-956.
Online since: March 2012
Authors: Cheng Tao Yang, Yang Gao, Jing Wan
Lee, et al:Progress in Materials Science, Vol. 48(4) (2003), p.1–97
Sun:Journal of Applied Physics, Vol.90(6) (2001) , p.2970–2974
Solterbeck, et al:Materials Science and Engineering B Vol. 94, (2002), p. 229 – 236
Piorra:Materials Research Bulletin, Vol. 36, (2001), p. 2563–2575
Cross,M.Fujiki,M.Tsukada: Journal of Materials Research.
Sun:Journal of Applied Physics, Vol.90(6) (2001) , p.2970–2974
Solterbeck, et al:Materials Science and Engineering B Vol. 94, (2002), p. 229 – 236
Piorra:Materials Research Bulletin, Vol. 36, (2001), p. 2563–2575
Cross,M.Fujiki,M.Tsukada: Journal of Materials Research.
Online since: August 2013
Authors: Gu Hua Li, Da Zhen Xu, Chun Hui Yu, Jin Liang Gao, Qun Wei
Materials and test methods
Raw materials
(1) Cement (C): P.O42.5, Lafarge cement, is used in this experiment.
(2) Use water as little as possible to reduce cement and cementitious materials
It is shown in the case of low gelling materials, need to increase the amount of the superplasticizer to achieve good workability.
Amount of P.O42.5 cement is controlled at less than 220 kg/m3 ,cementitious materials in the 283 to 367kg/m3
used in bridge , Journal of Southeast Univwrsity(Natural Science Edition), (2002-05) [7] Ai Hongmei, Bai Xuejiao: High-performance concrete shrinkage cracking and Countermeasures , Ready-Mixed Concrete, (2010-10) [8] An Mingzhe,Zhu Jinquan, Tan Weizu, Ma Yafeng: Study on Fly Ash Restraints on the Early Shrinkage of High Performance Concrete and Its Mechanism , China Railway Science, (2006-04)
(2) Use water as little as possible to reduce cement and cementitious materials
It is shown in the case of low gelling materials, need to increase the amount of the superplasticizer to achieve good workability.
Amount of P.O42.5 cement is controlled at less than 220 kg/m3 ,cementitious materials in the 283 to 367kg/m3
used in bridge , Journal of Southeast Univwrsity(Natural Science Edition), (2002-05) [7] Ai Hongmei, Bai Xuejiao: High-performance concrete shrinkage cracking and Countermeasures , Ready-Mixed Concrete, (2010-10) [8] An Mingzhe,Zhu Jinquan, Tan Weizu, Ma Yafeng: Study on Fly Ash Restraints on the Early Shrinkage of High Performance Concrete and Its Mechanism , China Railway Science, (2006-04)
Online since: May 2013
Authors: Hong Gun Kim, Young Jun Kim, Hee Jae Shin, Sun Ho Ko, Hyun Woo Kim, Young Min Kim, Yun Ju Cha, Woo Kum Lee, Lee Ku Kwac
Al honeycomb core sandwich composite panels have different core and plate materials.
In this study, Al honeycomb core sandwich composite panels have different core and thin plate materials.
GEP224 glass fiber/epoxy laminated composite materials with a good static and dynamic mechanical properties were selected as plate materials.
Al honeycomb cores, which are most widely used in the industrial fields, were selected as core materials.
R: He behavior of sandwich structures of isotropic and composite materials(1999), p.1-9 [2] Shin K.
In this study, Al honeycomb core sandwich composite panels have different core and thin plate materials.
GEP224 glass fiber/epoxy laminated composite materials with a good static and dynamic mechanical properties were selected as plate materials.
Al honeycomb cores, which are most widely used in the industrial fields, were selected as core materials.
R: He behavior of sandwich structures of isotropic and composite materials(1999), p.1-9 [2] Shin K.