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Online since: November 2025
Authors: Ismail Mohd Saaid, Manuel Jr. L. Cabiguen, Jayson D. Santos, Lexyber Casantosan Manalo
International Journal of Rock Mechanics and Mining Sciences. 135: p. 104486
Journal of Applied Polymer Science, 2016. 133(45)
Journal of Adhesion Science and Technology 32(16): 1795-1808
IOP Conference Series: Materials Science and Engineering, 2018. 374: p. 012071
Journal of Petroleum Science and Engineering, 2016. 137: p. 1-9
Journal of Applied Polymer Science, 2016. 133(45)
Journal of Adhesion Science and Technology 32(16): 1795-1808
IOP Conference Series: Materials Science and Engineering, 2018. 374: p. 012071
Journal of Petroleum Science and Engineering, 2016. 137: p. 1-9
Online since: January 2014
Authors: Hai Li Yang, Lei Shang, Hong Xu, Yun Gang Li, Ye Kang Wu
Low resistance, good corrosion resistance and strong binding force with non-metallic materials resulted to it becoming large integrated circuits, capacitors, radiation protection products and aspects of the new material.
Vanadium alloy's high-temperature strength, thermal stress factors and low activation properties of neutron irradiation are better than other materials.
Its electrical conductivity and electron emission properties are better than other material.
Conclusion Refractory metals have become an integral part of aerospace and industrial materials because of its high melting point, high ductility, toughness and other excellent features.
References [1] Wenyuan Ma: Chinese Journal of Rare Metals Vol.18 No.1 (1994), p. 7-13 (In Chinese) [2] C J Liu, Y H Huang and H L Liu: Advanced Materials Research Vols.163-167(2011), p. 110-116 [3] W Cai, Y Cheng and Y F Zhang: Materials Science Forum Vols. 475-497(2005), p. 2349-2352 [4] H B Hu, B Liu and L J Li: Advanced Materials Research Vols. 396-398(2012),p. 1786-1793 [5] S F Moustafa, S H Kaitbay and G M Abdo: Defect and diffusion Forum Vols.303-304(2010), p. 55-62 [6] R L Mannheim, J L Garin: Materials Science Forum Vols. 416-418 (2003), p. 276-282 [7] G Z Chen, D J Fray and T Farthing: Nature Vol. 407 No. 21 (2000), p.361-363 [8] K Oso, R O Suzuki: JOM Vol. 54 No.2 (2002), p. 59-61 [9] E H Kraft: EHK technologies No.1 (2004), p.1-55 [10] T H Okabe, T Oda and Y Mitsuda: Journal of Alloys and Compounds Vol.364(2004), p. 156-163 [11] E Gordoe, G Z Chen and D J Fray: Electrochim Acta Vol. 49 No.13 (2004), p. 2195-2208 [12] X Y Yan, D J Fray: Electrothem Soc Vol. 152
Vanadium alloy's high-temperature strength, thermal stress factors and low activation properties of neutron irradiation are better than other materials.
Its electrical conductivity and electron emission properties are better than other material.
Conclusion Refractory metals have become an integral part of aerospace and industrial materials because of its high melting point, high ductility, toughness and other excellent features.
References [1] Wenyuan Ma: Chinese Journal of Rare Metals Vol.18 No.1 (1994), p. 7-13 (In Chinese) [2] C J Liu, Y H Huang and H L Liu: Advanced Materials Research Vols.163-167(2011), p. 110-116 [3] W Cai, Y Cheng and Y F Zhang: Materials Science Forum Vols. 475-497(2005), p. 2349-2352 [4] H B Hu, B Liu and L J Li: Advanced Materials Research Vols. 396-398(2012),p. 1786-1793 [5] S F Moustafa, S H Kaitbay and G M Abdo: Defect and diffusion Forum Vols.303-304(2010), p. 55-62 [6] R L Mannheim, J L Garin: Materials Science Forum Vols. 416-418 (2003), p. 276-282 [7] G Z Chen, D J Fray and T Farthing: Nature Vol. 407 No. 21 (2000), p.361-363 [8] K Oso, R O Suzuki: JOM Vol. 54 No.2 (2002), p. 59-61 [9] E H Kraft: EHK technologies No.1 (2004), p.1-55 [10] T H Okabe, T Oda and Y Mitsuda: Journal of Alloys and Compounds Vol.364(2004), p. 156-163 [11] E Gordoe, G Z Chen and D J Fray: Electrochim Acta Vol. 49 No.13 (2004), p. 2195-2208 [12] X Y Yan, D J Fray: Electrothem Soc Vol. 152
Online since: May 2014
Authors: G. Rosas, J. Luis López-Miranda, R. Pérez, Tiberio A. Reyes-Hernández, J.R. Romero-Romero, Ares G. Hernández-Torres
As previously mentioned the intermetallic materials react spontaneously with water liberating hydrogen.
Liu, Recent advances in ordered intermetallics, Materials Chemistry and Physics 42 (1995) 77-86
Wang, Research of hydrogen generation by the reaction of Al-based materials with water, Journal of Power Sources 222 (2013) 188-195
Rosas, DSC-TGA hydrogen evaluation during mechanical milling of AlFe intermetallic, Materials Science Forum 755 (2013) 105-110
Rosas, Structural evolution of FeAl3 intermetallic during high energy ball-milling, Materials Science Forum 755 (2013) 133-138.
Liu, Recent advances in ordered intermetallics, Materials Chemistry and Physics 42 (1995) 77-86
Wang, Research of hydrogen generation by the reaction of Al-based materials with water, Journal of Power Sources 222 (2013) 188-195
Rosas, DSC-TGA hydrogen evaluation during mechanical milling of AlFe intermetallic, Materials Science Forum 755 (2013) 105-110
Rosas, Structural evolution of FeAl3 intermetallic during high energy ball-milling, Materials Science Forum 755 (2013) 133-138.
Online since: December 2003
Authors: Takashi Nakamura, Tadashi Kokubo, Hyun Min Kim, Kawashita Masakazu, Chikara Ohtsuki, Francisco Balas
Journal Citation (to be inserted by the publisher )
Copyright by Trans Tech Publications
Bonelike Apatite Formation on Synthetic Organic Polymers
Coated with TiO2
F.
Nakamura 5 1 Graduate School of Material Science, Nara Institute of Science and Technology (NAIST), Nara, Japan, balas@ms.aist-nara.ac.jp 2 Graduate School of Engineering, Kyoto University, Kyoto, Japan 3 Department of Ceramic Engineering, Yonsei University, Seoul, South Korea 4 Research Institute for Science and Technology, Chubu University, Kasugai, Japan 5 Graduate School of Medicine, Kyoto University, Kyoto, Japan Keywords: bioactive materials, coatings, composites, in vitro, polymers, surface modification Abstract.
Synthetic organic polymers were modified with silane-coupling agents, subsequently coated with hydrated titania abundant in Ti-OH group, to produce novel materials with bone-bonding property, i.e. bioactivity.
Composite materials consisting of apatite nanocrystals and polymer fibers that mimicks bone structure attracted much attention, because they may open new avenues for novel bone-reparing materials.
Nakamura 5 1 Graduate School of Material Science, Nara Institute of Science and Technology (NAIST), Nara, Japan, balas@ms.aist-nara.ac.jp 2 Graduate School of Engineering, Kyoto University, Kyoto, Japan 3 Department of Ceramic Engineering, Yonsei University, Seoul, South Korea 4 Research Institute for Science and Technology, Chubu University, Kasugai, Japan 5 Graduate School of Medicine, Kyoto University, Kyoto, Japan Keywords: bioactive materials, coatings, composites, in vitro, polymers, surface modification Abstract.
Synthetic organic polymers were modified with silane-coupling agents, subsequently coated with hydrated titania abundant in Ti-OH group, to produce novel materials with bone-bonding property, i.e. bioactivity.
Composite materials consisting of apatite nanocrystals and polymer fibers that mimicks bone structure attracted much attention, because they may open new avenues for novel bone-reparing materials.
Online since: June 2015
Authors: M.R. Sahar, Sib Krishna Ghoshal, Md Supar Rohani, Hasim Nurhafizah
The well-mixed raw materials then melted in platinum crucibles at 900oC for 30 minutes in an electric furnace.
Daud, Synthesis and Optical Properties of ZnO – TeO2 Glass System, American Journal of Applied Sciences 6(8) (2009) 1489 – 1494
Wan, Optical Properties of Bismuth Tellurite Based Glass, International Journal of Molecular Science 13 (2012) 4623-2631
Khaidzir, Optical Absorption of Er3+/ Nd3+ codoped Tellurite Glass, Advanced Materials Research 501 (2012) 96 – 100
Mohd Zobir, IR and UV Spectral Studies of Zinc Tellurite Glasses, Journal of Applied Sciences 7(20) (2007) 3051 – 3056
Daud, Synthesis and Optical Properties of ZnO – TeO2 Glass System, American Journal of Applied Sciences 6(8) (2009) 1489 – 1494
Wan, Optical Properties of Bismuth Tellurite Based Glass, International Journal of Molecular Science 13 (2012) 4623-2631
Khaidzir, Optical Absorption of Er3+/ Nd3+ codoped Tellurite Glass, Advanced Materials Research 501 (2012) 96 – 100
Mohd Zobir, IR and UV Spectral Studies of Zinc Tellurite Glasses, Journal of Applied Sciences 7(20) (2007) 3051 – 3056
Online since: July 2013
Authors: Zhong De Shan, Hong Ze Chen, Hong Zhao Dong
Fig. 1 Hot wire cutter Fig. 2 Hot knife Fig. 3 The modified cutter Fig. 4 Face mill
CNC machining
Due to the special cutting performance of foam material, using metal processing machine tools will waste too much raw materials and have a low quality of the product.
Fig. 5 Nonmetallic materials cutter Fig. 6 Lightweight materials cutter As a soft non-metallic material, foam is very soft, cuttings often easily adhere to the cutting edge portion of the tools in the cutting process.
A high speed machining of nonmetallic materials cutter [P].Hu Nan:CN101502894,2009-08-12
A multi-blade cutter for lightweight materials [P].
Journal of Engineering Design, 2010, v.1701:66-70+80.
Fig. 5 Nonmetallic materials cutter Fig. 6 Lightweight materials cutter As a soft non-metallic material, foam is very soft, cuttings often easily adhere to the cutting edge portion of the tools in the cutting process.
A high speed machining of nonmetallic materials cutter [P].Hu Nan:CN101502894,2009-08-12
A multi-blade cutter for lightweight materials [P].
Journal of Engineering Design, 2010, v.1701:66-70+80.
Online since: September 2013
Authors: Zakaria Mohd Nazarudin, Masitah Abu Kassim, Mohamad Nurul Azman Mohammad Taib, Jamaluddin Mohd Ariff, Nur Shafiqah Othman, Othman Maizatulnisa, Mohd Nasir Syaidatul Hazira
Introduction
In recent years, there have been an increasing number of studies on natural fiber as fillers motivated by the huge potential advantages that can be offered over the conventional materials like glass or carbon fiber.
Methodology Materials.
Composites Part A: Applied Science and Manufacturing, (2010) 41(7)
Composites Science and Technology, 65(3-4), (2005) 525–535
Zainal Ariffin, , Chemical Modification of Kenaf Fibers, Journal of Materials Letters, 61: (2007) 2023- 2025
Methodology Materials.
Composites Part A: Applied Science and Manufacturing, (2010) 41(7)
Composites Science and Technology, 65(3-4), (2005) 525–535
Zainal Ariffin, , Chemical Modification of Kenaf Fibers, Journal of Materials Letters, 61: (2007) 2023- 2025
Online since: January 2016
Authors: Rosemar Batista da Silva, Márcio Bacci da Silva, Wisley Falco Sales, Emanuel Okechukwu Ezugwu, Álisson Rocha Machado
Titanium alloys and their machinability - a review, Journal of Materials Processing and Technology, vol. 68, pp 262–274
Evaluation of principal wear mechanisms of cemented carbides and ceramics used for machining titanium alloy IMI 318, Materials Science and Technology, vol. 2, pp 47-58
On tool materials for high speed machining, Journal of Engineering for Industry, vol. 109, pp 87-91
Wear mechanisms of ultra-hard cutting tools materials, Journal of Materials Processing Technology, vol. 115, pp 402-412
Microstructural analysis on boundary sliding and its accommodation mode during superplastic deformation of Ti–6Al–4V alloy, Materials Science and Engineering, vol.
Evaluation of principal wear mechanisms of cemented carbides and ceramics used for machining titanium alloy IMI 318, Materials Science and Technology, vol. 2, pp 47-58
On tool materials for high speed machining, Journal of Engineering for Industry, vol. 109, pp 87-91
Wear mechanisms of ultra-hard cutting tools materials, Journal of Materials Processing Technology, vol. 115, pp 402-412
Microstructural analysis on boundary sliding and its accommodation mode during superplastic deformation of Ti–6Al–4V alloy, Materials Science and Engineering, vol.
Online since: August 2013
Authors: Fu Sheng Liu, Gang Gang Dong, Lin Zhang, Ji Yong Song, Yan Bin Zhang
Journal of Hazardous Materials,2007,144(3):730-735
Properties of Straw Fiber[J], Journal of Donghua University,Natural Science,2002,28(2):123-128
New Building Materials,2008,7:1-3
Journal of Materials Science and Engineering, 201028(5):748-752
Phase Foundation Research of Building materials[M].
Properties of Straw Fiber[J], Journal of Donghua University,Natural Science,2002,28(2):123-128
New Building Materials,2008,7:1-3
Journal of Materials Science and Engineering, 201028(5):748-752
Phase Foundation Research of Building materials[M].