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Online since: February 2011
Authors: Hao Bin Tian, Shi Jian Yuan, Wen Jing Yuan, Xiao Hang Liu, Xiao Song Wang
Journal of Materials Processing Technology, (1996)
[5] K.Manabe, M.Amino.
Journal of Materials Processing Technology, (2002) [6] S.J.Yuan, G.Liu, X.S.Wang, Z.R.Wang.
Journal of Materials Processing Technology, (2004) [9] F.
Journal of Materials Processing Technology, (2002) [10] P.
Journal of Materials Processing Technology, (1997) [12] F.
Journal of Materials Processing Technology, (2002) [6] S.J.Yuan, G.Liu, X.S.Wang, Z.R.Wang.
Journal of Materials Processing Technology, (2004) [9] F.
Journal of Materials Processing Technology, (2002) [10] P.
Journal of Materials Processing Technology, (1997) [12] F.
Online since: July 2014
Authors: G.N. Deshpande, Nitin V. Sali
Materials & Methods of Spiral Coil manufacturing
Spiral coils are made from straight copper tube of thickness 1[mm].
Erin: Global Science and Technology Journal Vol. 1.
Wongwises: Experimental Thermal and Fluid Science Elseveir Journal 29 511–521 (2005) [10] P.
Sunnapwar: Experimental Thermal and Fluid Science Elseveir Journal 44 792–804 (2013)
Nasrallah: International Journal of Thermal Sciences Elseveir Journal 50 2536e2542 (2011).
Erin: Global Science and Technology Journal Vol. 1.
Wongwises: Experimental Thermal and Fluid Science Elseveir Journal 29 511–521 (2005) [10] P.
Sunnapwar: Experimental Thermal and Fluid Science Elseveir Journal 44 792–804 (2013)
Nasrallah: International Journal of Thermal Sciences Elseveir Journal 50 2536e2542 (2011).
Online since: October 2011
Authors: I.O. Oboh, C.N. Owabor, F.A. Omiojieahior
Many clay minerals may contain organic materials and water soluble salts.
Materials and Methods Collection of samples: The clay and silt soil used for this experiment were collected from the bank of Ekpan River in Warri, Delta state.
Journal of Chromatographic Science.
Research Journal of Applied Sciences 3(4), 2008, 294-301
Journal of Engineering Science and Technology Vol. 3, No. 2, 2008, 180 – 189
Materials and Methods Collection of samples: The clay and silt soil used for this experiment were collected from the bank of Ekpan River in Warri, Delta state.
Journal of Chromatographic Science.
Research Journal of Applied Sciences 3(4), 2008, 294-301
Journal of Engineering Science and Technology Vol. 3, No. 2, 2008, 180 – 189
Online since: May 2014
Authors: Kenji Kanemasu, Takuya Shibukawa, Katsuyuki Kida, Koshiro Mizobe, Koretomo Okamoto
Microstructure, wear track depth and hardness distribution in these materials were observed.
Test method Materials.
Adams, A review of the stainless steel surface, Journal of Vacuum science and Technology A, Vol. 1, No. 12, (1983), pp. 12-18 [3] R.
Shibukawa, Changes in the microstructure of 13Cr-2Ni-2Mo stainless steels through the quenching process by induction heating, International journal of materials and product technology, Vol. 45, No 1/2/3/4, (2012), pp. 31-40
Shibukawa, Investigation of wear in induction-heated AISI E 52100 steel bars under reciprocating motion, International journal of materials and product technology, Vol. 44, No. 3/4, (2012), pp. 240-251.
Test method Materials.
Adams, A review of the stainless steel surface, Journal of Vacuum science and Technology A, Vol. 1, No. 12, (1983), pp. 12-18 [3] R.
Shibukawa, Changes in the microstructure of 13Cr-2Ni-2Mo stainless steels through the quenching process by induction heating, International journal of materials and product technology, Vol. 45, No 1/2/3/4, (2012), pp. 31-40
Shibukawa, Investigation of wear in induction-heated AISI E 52100 steel bars under reciprocating motion, International journal of materials and product technology, Vol. 44, No. 3/4, (2012), pp. 240-251.
Online since: March 2008
Authors: Alexander M. Korsunsky, A.M. Venter, Willem J.J. Vorster, E.C. Oliver, M.W. van der Watt
Burnett, Materials Science and Technology, Vol. 1, (1985) p. 863-871
Beck, Materials Science and Technology, Vol. 1, (1985) p. 805-814
Sjostrom, Materials Science and Technology, Vol. 1, (1985) p. 823-829
Wang, Materials Science and Technology, Vol. 1, (1985) p. 845-850
Singh, Materials Science and Technology, Vol. 20, (2004) p. 1134-1142
Beck, Materials Science and Technology, Vol. 1, (1985) p. 805-814
Sjostrom, Materials Science and Technology, Vol. 1, (1985) p. 823-829
Wang, Materials Science and Technology, Vol. 1, (1985) p. 845-850
Singh, Materials Science and Technology, Vol. 20, (2004) p. 1134-1142
Online since: February 2012
Authors: Zheng Ren, Xiu Rong Zhu, Jian Bo Sun, Jin Jun Tang, Xin Bing Zhao
Materials and methods
The apparatus of direct chill continuous casting for clad slab is schematically shown in Fig. 1.
Tensile tests were conducted at an initial strain rate of 10-2 s-1 at room temperature on MTS NEW-810 Materials Test System.
References [1] George Durst: Journal of Metals Vol.11 (1956), p. 71
[2] Robert B.Wagstaff: Materials Science Forum Vol. 519-521 (2006), p. 1809
[4] Gow-Yi, T zou: Journal of Materials Processing Technology Vol. 140 (2003), p. 625
Tensile tests were conducted at an initial strain rate of 10-2 s-1 at room temperature on MTS NEW-810 Materials Test System.
References [1] George Durst: Journal of Metals Vol.11 (1956), p. 71
[2] Robert B.Wagstaff: Materials Science Forum Vol. 519-521 (2006), p. 1809
[4] Gow-Yi, T zou: Journal of Materials Processing Technology Vol. 140 (2003), p. 625
Online since: August 2010
Authors: Chien Teng Hsieh, Ching Wen Lin, Chin Mei Lin, Ching Wen Lou, Jia Horng Lin, Chih Yuen Kuo
Materials and methods
Each piece of test material comprised a sandwich structure, with two layers of PET nonwovens
enclosing a layer of PP selvages and nylon geogrid. 7D PET staples were with a length of 51mm
and underwent the nonwoven process of opening, combing and lining.
Hsing, Journal of Advanced Materials, Vol. 39 (2007), p. 32 2.
Lin, Advanced Materials Research, Vols. 55-57 (2008), p. 41 3.
Su, Textile Research Journal Vols. 75 ( 2005) p. 390 4.
Lin, Indian Journal of Fiber and Textile Research, Vol. 29 (2004) p.25
Hsing, Journal of Advanced Materials, Vol. 39 (2007), p. 32 2.
Lin, Advanced Materials Research, Vols. 55-57 (2008), p. 41 3.
Su, Textile Research Journal Vols. 75 ( 2005) p. 390 4.
Lin, Indian Journal of Fiber and Textile Research, Vol. 29 (2004) p.25
Online since: April 2014
Authors: Jia Jun Pan, Wei Lu
National Science Foundation (NSF).
Mechanics of materials and interfaces-- The disturbed state concept[M].
A hierarchical approach for constitutive modeling geological materials[J].
Constitutive Model for rockfill materials and determination of material constants [J].
Testing and modeling two rockfill materials[J].
Mechanics of materials and interfaces-- The disturbed state concept[M].
A hierarchical approach for constitutive modeling geological materials[J].
Constitutive Model for rockfill materials and determination of material constants [J].
Testing and modeling two rockfill materials[J].
Online since: March 2014
Authors: Bi Jia, Jun Wang, Yong Jiang Di
Synthesis and Microstructure of Porous Ceramics Made from Industrial Solid Residues
Yongjiang Di a *, Bi Jia b, and Jun Wang c
School of Metallurgical and Materials Engineering, Chongqing University of Science and Technology, Chongqing 401331, China
ayjdee@cqust.edu.cn, bjiabi1127@163.com, cwangjuncq@126.com
Keywords: Industrial solid residues; Porous ceramic; Porosity; Crushing strength.
The research and development of environmentally friendly materials such as porous ceramic used for filter of pollutant has become one goal of materials researchers [1-2].
The raw materials were crushed, wet milled, dried under 105°C, dry grinded, pass through 80 mesh sieve.
The raw materials were weighed, batched and then ball milled.
Fukushima, Macro-porous ceramics: processing and properties, International Materials Reviews 57 (2012) 115-131
The research and development of environmentally friendly materials such as porous ceramic used for filter of pollutant has become one goal of materials researchers [1-2].
The raw materials were crushed, wet milled, dried under 105°C, dry grinded, pass through 80 mesh sieve.
The raw materials were weighed, batched and then ball milled.
Fukushima, Macro-porous ceramics: processing and properties, International Materials Reviews 57 (2012) 115-131
Online since: October 2014
Authors: Margareta Coteaţă, Gheorghe Creţu
Electrochemical discharge machining (ECDM) of metallic materials is based on synergetic action of anodic dissolution with erosive effect of electrical discharges in material removal process.
Drilling by ECDM can be applied for hard to be cut materials, when no drilling by chip cutting can be applied and no EDM machine is available.
Defence Science Journal. 57 (5) (2007) 765-770
Liao, Study of electrochemical discharge machining technology for slicing non-conductive brittle materials.
Journal of Materials Processing Technology. 149, 1-3 (2004) 363-369
Drilling by ECDM can be applied for hard to be cut materials, when no drilling by chip cutting can be applied and no EDM machine is available.
Defence Science Journal. 57 (5) (2007) 765-770
Liao, Study of electrochemical discharge machining technology for slicing non-conductive brittle materials.
Journal of Materials Processing Technology. 149, 1-3 (2004) 363-369