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Online since: January 2026
Authors: Ikuo Shohji, Tatsuya Kobayashi, Sota Mori
Experimental Procedure
Materials.
Suhling, A review of mechanical properties of lead-free solders for electronic packaging, Journal of Materials Science, 44 (2009) 1141-1158
Shohji, Fabrication and characterization of zinc-coated aluminum particle joining materials via zincate treatment, Journal of Materials Science, 59 (2024) 20812-20823
Series: Materials Science and Engineering, 257 (2017) 012014
Ko, Cu–Ni alloy electrodeposition on microstructured surfaces, Journal of Materials Science, 50 (2015) 393-402.
Suhling, A review of mechanical properties of lead-free solders for electronic packaging, Journal of Materials Science, 44 (2009) 1141-1158
Shohji, Fabrication and characterization of zinc-coated aluminum particle joining materials via zincate treatment, Journal of Materials Science, 59 (2024) 20812-20823
Series: Materials Science and Engineering, 257 (2017) 012014
Ko, Cu–Ni alloy electrodeposition on microstructured surfaces, Journal of Materials Science, 50 (2015) 393-402.
Online since: May 2013
Authors: Ying Ma, Yuan Hao, Wen Ming Song, Gui Rong Yang, Yu Fu Zhang
The low-temperature brittleness would happen under the condition of transferring lighter hydrocarbon for these materials fabricated these parts of pump [7].
Experiment 2.1 The running parameter of light hydrocarbon pump The materials fabricated the shaft for light hydrocarbon pump is SCM440H(AISI4140H).
References [1] X.Y Wang, J.Q.Qi, SH.G.Li, Process Equipment & Piping, 2011(2):34-39 [2] Y.L.Liu, Q.Zhang, H.D.Dong, L.L.Zhao, Journal of Zhengzhou University of Light Industry (Natural Science),2010(4):23-28 [3] Miller B, Green I.
Journal of Tribology Transactions of the ASME. 2002, 123-130 [4] H.T.Zhang, X.F.Wang, P.G.Yan, W.J.Han, Chinese Journal of Mechanical Engineering, 2012,(22):51-57 [5] Tomaz Rus, Brane Srok, Marko Hocevar.
Journal of Fluid Mechanics,2007,(2):231-239 [6] Y.Wang, H.L.Liu, SH.Q.Yuan, Journal of Harbin Engineering University, 2012, (12):45-51 [7] J.X.Tai, W.Q.You, L.M.Shan, Chemical Equipment Technology, 2012, (4):38-43
Experiment 2.1 The running parameter of light hydrocarbon pump The materials fabricated the shaft for light hydrocarbon pump is SCM440H(AISI4140H).
References [1] X.Y Wang, J.Q.Qi, SH.G.Li, Process Equipment & Piping, 2011(2):34-39 [2] Y.L.Liu, Q.Zhang, H.D.Dong, L.L.Zhao, Journal of Zhengzhou University of Light Industry (Natural Science),2010(4):23-28 [3] Miller B, Green I.
Journal of Tribology Transactions of the ASME. 2002, 123-130 [4] H.T.Zhang, X.F.Wang, P.G.Yan, W.J.Han, Chinese Journal of Mechanical Engineering, 2012,(22):51-57 [5] Tomaz Rus, Brane Srok, Marko Hocevar.
Journal of Fluid Mechanics,2007,(2):231-239 [6] Y.Wang, H.L.Liu, SH.Q.Yuan, Journal of Harbin Engineering University, 2012, (12):45-51 [7] J.X.Tai, W.Q.You, L.M.Shan, Chemical Equipment Technology, 2012, (4):38-43
Effect of Thermal Process on the Microstructure and Property of Si/Al Composite with High Si Content
Online since: March 2012
Authors: Yan Xia Li, Guo Quan Liu, Jun You Liu, Wen Shao Wang
Chen, D.D.L.Chung: Journal of Materials Science Vol. 29(1994), p. 6069-6075
[6] Xiaofeng Wang: Trans.
Tsao: Materials Science and Engineering A Vol. 396(2005), p.263-270 [9] Di Zhang, Hua Cui, Yanguang Wei: Rare Metals Vol.24(2005), p.317-324 [10] C.W.
Chien, S.L.Lee, J.C.Lin: Mateials Letters Vol. 52(2002), p.334-341 [11] Yiwu Yan, Lin Geng: Journal Material Science Vol. 42(2007), p.6433-6438 [12] E.A.Vieira,M.
Kang, G.D.Jung: Journal of Material Engineering Pergorm Vol. 10(2001), p.419-428 [14] G.
A Vol. 25A (1994), p.839-841 [18] M.Vogelsang, R J A rsenault, R M Fisher: Metall Trans A Vol. 17(1986),p.379-389 [19] Chengsong Cui, Schulz Alwin, Matthaei Ellen: Journal Material Science Vol.44(2009), p.4814-4826 [20] B.A.Parker, D.S.Saunders, J.R.Griffiths: Metals Forum Vol. 5(1982), p.48-53 [21] Meihui Song, Ziyang Xiu: Aerospace Materials & Technology Vol. 6(2005), p.44-47, in Chinese [22] Chu Ke: Materials and Design Vol. 30(2009), p.3497-3503 [23] Fuliang Yang: The study on the new lightweight electronic packaging materials with low thermal expansion coefficient and high thermal conductivity.
Tsao: Materials Science and Engineering A Vol. 396(2005), p.263-270 [9] Di Zhang, Hua Cui, Yanguang Wei: Rare Metals Vol.24(2005), p.317-324 [10] C.W.
Chien, S.L.Lee, J.C.Lin: Mateials Letters Vol. 52(2002), p.334-341 [11] Yiwu Yan, Lin Geng: Journal Material Science Vol. 42(2007), p.6433-6438 [12] E.A.Vieira,M.
Kang, G.D.Jung: Journal of Material Engineering Pergorm Vol. 10(2001), p.419-428 [14] G.
A Vol. 25A (1994), p.839-841 [18] M.Vogelsang, R J A rsenault, R M Fisher: Metall Trans A Vol. 17(1986),p.379-389 [19] Chengsong Cui, Schulz Alwin, Matthaei Ellen: Journal Material Science Vol.44(2009), p.4814-4826 [20] B.A.Parker, D.S.Saunders, J.R.Griffiths: Metals Forum Vol. 5(1982), p.48-53 [21] Meihui Song, Ziyang Xiu: Aerospace Materials & Technology Vol. 6(2005), p.44-47, in Chinese [22] Chu Ke: Materials and Design Vol. 30(2009), p.3497-3503 [23] Fuliang Yang: The study on the new lightweight electronic packaging materials with low thermal expansion coefficient and high thermal conductivity.
Online since: November 2011
Authors: Qi Cheng Liu, Jiang Rong Kong, Xu Dong Xu, Fu Long Sun, Peng Liu
School of Physics and Electronics Science, Changsha University of Science and Technology, Changsha 410114, P.
Asthana: Progress in Crystal Growth and Characterization of Materials Vol. 45 (2002), p. 161-165 [4] B.T.
Yamki: Journal of Power Source Vol. 174 (2007), p. 493-500 [5] H.J.
Qi: Materials Letters Vol. 61 (2007), p. 697-700 [7] P.
Ross: Journal of Catalysis Vol. 154 (1995), p. 98-106 [9] M.Q.
Asthana: Progress in Crystal Growth and Characterization of Materials Vol. 45 (2002), p. 161-165 [4] B.T.
Yamki: Journal of Power Source Vol. 174 (2007), p. 493-500 [5] H.J.
Qi: Materials Letters Vol. 61 (2007), p. 697-700 [7] P.
Ross: Journal of Catalysis Vol. 154 (1995), p. 98-106 [9] M.Q.
Online since: November 2018
Authors: Yong Ho Sohn, Le Zhou
NiMnGa alloys are generally known as ferromagnetic shape memory alloys (FSMAs) or magnetocaloric materials (MCM).
Structure of the layered martensitic phases of Ni–Mn–Ga alloys, Materials Science and Engineering: A 438 (2006) 931-934
Diffusion in solids: fundamentals, methods, materials, diffusion-controlled processes, Springer Science & Business Media, 2007
Materials science forum, vol. 327: Trans Tech Publ, 2000. p.489-492
Martensitic transformation and mechanical properties of Ni49+xMn36–xIn15 (x= 0, 0.5, 1.0, 1.5 and 2.0) alloys, Materials Science and Engineering: A 646 (2015) 57-65
Structure of the layered martensitic phases of Ni–Mn–Ga alloys, Materials Science and Engineering: A 438 (2006) 931-934
Diffusion in solids: fundamentals, methods, materials, diffusion-controlled processes, Springer Science & Business Media, 2007
Materials science forum, vol. 327: Trans Tech Publ, 2000. p.489-492
Martensitic transformation and mechanical properties of Ni49+xMn36–xIn15 (x= 0, 0.5, 1.0, 1.5 and 2.0) alloys, Materials Science and Engineering: A 646 (2015) 57-65
Online since: April 2012
Authors: Robert Molloy, Winita Punyodom, Krisda Suchiva, A. Sirikulsathean, S. Rassameemasmaung, P. Piyakunakorn, S. Phunturug
Piyakunakorn1,g
1 Department of Oral Medicine, Faculty of Dentistry, Mahidol University, Thailand
2 Department of Chemistry and Center of Excellence for Innovation in Chemistry, Faculty of
Science, Chiang Mai University, Chiang Mai, Thailand 50200
3 Materials Science Research Center, Faculty of Science, Chiang Mai University, Chiang Mai, Thailand 50200
6 Department of Chemistry, Faculty of Science, Mahidol University, Thailand
aaoo250@yahoo.com, bdtsrs@mahidol.ac.th,cwinita@chiangmai.ac.th,drobert@chiangmai.ac.th, edtasr@mahidol.ac.th, fkrisdasc@mtec.or.th,gsend2gift@yahoo.com
Keywords: Periodontal regeneration; Electrospun; Resorbable membrane
Abstract. 75:25 poly(DL-lactide-co-ε-caprolactone) electrospun resorbable membranes were prepared by electrospinning and film casting techniques.
References [1] Anton Sculean, Dimitris Nikolidakis, Frank Schwarz, Regeneration of periodontal tissues: combinations of barrier membranes and grafting materials – biological foundation and preclinical evidence: A systematic review, Journal of Clinical Periodontology,2008, 35(8 Suppl):106-116; [2] Mark P.
A new paradigm for periodontal regeneration based on molecular and cell biology, Periodontology 2000, 2000,24: 253-269; [3] Jae-Jun Lee, Hye-Sun Yu, Seok-Jung Hong, et al, Nanofibrous membrane of collagen-polycaprolactone for cell growth and tissue regeneration, Journal of Materials Science: Materials in Medicine,2009, 20(9): 1927-1935; [4] Yanzhong Zhang, Bo Su, Jayarama Reddy Venugopal, et al., Biomimetic and bioactive nanofibrous scaffolds from electrospun composite nanofibers, International Journal of Nanomedicine, 2007,2(4), 623-638; [5] Panat Piyakunakorn, Synthesis, Processing and Testing of A Poly(DL-Lactide-co-Caprolactone) Resorbable Electrospun Membrane for Guided Tissue Regeneration, MSc Thesis, Mahidol University ,2010; [6] Takashi Takata, Hom-Lay Wang, Mutsumi Miyauchi , Attachment, proliferation and differentiation of periodontal ligament cells on various guided tissue regeneration membranes, Journal of Periodontal Research, 2001, 36: 322-327; [7] Yufeng Zhang, Xiangrong
Planell;et al., Surface characterization and cell response of a PLA/CaP glass biodegradable composite material, Journal of Biomedical Materials Research Part A, 2008, 85(2):477-486;
References [1] Anton Sculean, Dimitris Nikolidakis, Frank Schwarz, Regeneration of periodontal tissues: combinations of barrier membranes and grafting materials – biological foundation and preclinical evidence: A systematic review, Journal of Clinical Periodontology,2008, 35(8 Suppl):106-116; [2] Mark P.
A new paradigm for periodontal regeneration based on molecular and cell biology, Periodontology 2000, 2000,24: 253-269; [3] Jae-Jun Lee, Hye-Sun Yu, Seok-Jung Hong, et al, Nanofibrous membrane of collagen-polycaprolactone for cell growth and tissue regeneration, Journal of Materials Science: Materials in Medicine,2009, 20(9): 1927-1935; [4] Yanzhong Zhang, Bo Su, Jayarama Reddy Venugopal, et al., Biomimetic and bioactive nanofibrous scaffolds from electrospun composite nanofibers, International Journal of Nanomedicine, 2007,2(4), 623-638; [5] Panat Piyakunakorn, Synthesis, Processing and Testing of A Poly(DL-Lactide-co-Caprolactone) Resorbable Electrospun Membrane for Guided Tissue Regeneration, MSc Thesis, Mahidol University ,2010; [6] Takashi Takata, Hom-Lay Wang, Mutsumi Miyauchi , Attachment, proliferation and differentiation of periodontal ligament cells on various guided tissue regeneration membranes, Journal of Periodontal Research, 2001, 36: 322-327; [7] Yufeng Zhang, Xiangrong
Planell;et al., Surface characterization and cell response of a PLA/CaP glass biodegradable composite material, Journal of Biomedical Materials Research Part A, 2008, 85(2):477-486;
Online since: August 2009
Authors: Ari Sulistyo Rini, Mohd Ambar Yarmo, Mohd. Zulfa Ya, Abdullah Huda
The purpose of ice-bathing is to avoid the large sizes of particle formed when TiCl
particles (20 to 50nm) were formed using CTAB
and precipitation (Lee et al, 2008
dissolving TiCl4 in ethanol at a
structure were then evaluated by
Materials and Method
Titanium tetrachloride TiCl4 (99%)
Aldrich, were used as starting materials
was cetyltrimethylammonium bromide (CTAB){CH
Merck.
(99%), provided by Merck, and absolute ethanol were used as starting materials, without further purification.
Dye-sensitized solar cell: Journal of Photochemistry and Photobiology C, 2003, 4, 145 [5] Jinting Jiu et al.,.
Performance of dye-sensitized solar cell based on nanocrystals TiO2 film prepared with mixed template method: Solar Energy Materials and Solar Cells, 2005, 87, 77 [6] Jinting Jiu et al., Preparation of highly photocatalytic active nano-scale TiO2 by mixed template method: Materials Letters, 2004, 58, 3915 [7] I.Kartini et al., A novel route to the synthesis of mesoporous titania with full anatase nanocrystalline domains: Journal of Sol-Gel and Tech., 2004, 31, 185 [8] Kavan et al.,.
Mesoporous thin film TiO2 electrodes: Microp. and Mesoporous Material, 2001, 44-45, 653 [9] D.U.Lee et al.,.
(99%), provided by Merck, and absolute ethanol were used as starting materials, without further purification.
Dye-sensitized solar cell: Journal of Photochemistry and Photobiology C, 2003, 4, 145 [5] Jinting Jiu et al.,.
Performance of dye-sensitized solar cell based on nanocrystals TiO2 film prepared with mixed template method: Solar Energy Materials and Solar Cells, 2005, 87, 77 [6] Jinting Jiu et al., Preparation of highly photocatalytic active nano-scale TiO2 by mixed template method: Materials Letters, 2004, 58, 3915 [7] I.Kartini et al., A novel route to the synthesis of mesoporous titania with full anatase nanocrystalline domains: Journal of Sol-Gel and Tech., 2004, 31, 185 [8] Kavan et al.,.
Mesoporous thin film TiO2 electrodes: Microp. and Mesoporous Material, 2001, 44-45, 653 [9] D.U.Lee et al.,.
Online since: October 2011
Authors: Zhi Wei Xing, Jie Fu, Miao Yu
Wang: Smart Materials and structures, vol.15(2006), p.
Wang: Smart Materials and structures, vol. 19 (2010), p. 065023
Smart materials & Structures, vol. 13(2004), p.1203-1210
Huang: Journal of Intelligent Material Systems and Structures, vol. 17(2006), p. 801-806
Guo: Journal of Intelligent Material Systems and Structures, vol. 17(2006), p. 871-881.
Wang: Smart Materials and structures, vol. 19 (2010), p. 065023
Smart materials & Structures, vol. 13(2004), p.1203-1210
Huang: Journal of Intelligent Material Systems and Structures, vol. 17(2006), p. 801-806
Guo: Journal of Intelligent Material Systems and Structures, vol. 17(2006), p. 871-881.
Online since: September 2014
Authors: Hui Fang Chi
Therefore, in this study, The true leaf, internodes , cotyledon and stems as materials to research on tissue culture of Sweet broad pea, in order to provide a reference of genetic transformation and rapid propagation of improved varieties for Sweet broad pea.
Materials and Methods Varieties.
The study material is the Sweet broad pea, which is also known as soft legume pea.
Food Science and Technology, 2010, 43(9): 1467-1470
[5] SU Cheng-gang, WU Xue-ke, ZHENG Zhan-wei, Study on Tissue Culture and Plant Regeneration of Pea (Pisum sativumL), Journal of Southwest China Normal University (Natural Science) [J], 2007,32 (4) :30-32
Materials and Methods Varieties.
The study material is the Sweet broad pea, which is also known as soft legume pea.
Food Science and Technology, 2010, 43(9): 1467-1470
[5] SU Cheng-gang, WU Xue-ke, ZHENG Zhan-wei, Study on Tissue Culture and Plant Regeneration of Pea (Pisum sativumL), Journal of Southwest China Normal University (Natural Science) [J], 2007,32 (4) :30-32
Online since: February 2008
Authors: H. Jiang, Ruixiang Bai, Cheng Yan
The viscous behavior of the adhesive material and thermal mismatch between the
dissimilar materials in the package were considered.
In a thin package, the coefficient of temperature expansion (CTE) mismatch between different materials is regarded as the main reason for warpage.
In order to save computational cost, 1/4 of the package with 64 joints (Fig.2) was investigated based on the geometrical dimensions and materials properties described in Jung's work [5].
Also, high stresses usually appear after several thermal cycles due to the creep behavior of the adhesive and solder materials.
Journal of Materials Science: Materials in Electronics Vol. 12 (2001), p. 667
In a thin package, the coefficient of temperature expansion (CTE) mismatch between different materials is regarded as the main reason for warpage.
In order to save computational cost, 1/4 of the package with 64 joints (Fig.2) was investigated based on the geometrical dimensions and materials properties described in Jung's work [5].
Also, high stresses usually appear after several thermal cycles due to the creep behavior of the adhesive and solder materials.
Journal of Materials Science: Materials in Electronics Vol. 12 (2001), p. 667