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Online since: January 2026
Authors: Sota Mori, Ikuo Shohji, Tatsuya Kobayashi
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: July 2017
Authors: Bernd Kieback, Thomas Hutsch, Thomas Weißgärber, Fabian Aßmann
TFP Reinforced Metal - One Way to Increase the Specific Strength
Thomas Hutsch1,a *, Fabian Aßmann1, Thomas Weißgärber1,b
and Bernd Kieback1,2,c
1Fraunhofer Institute for Manufacturing Technology and Advanced Materials IFAM,
Branch Lab Dresden, Winterbergstraße 28, 01277 Dresden, Germany
2 Technische Universität Dresden, Institute for Materials Science,
Helmholtzstr. 7, 01069 Dresden, Germany
aThomas.Hutsch@ifam-dd.fraunhofer.de, bThomas.Weissgaerber@ifam-dd.fraunhofer.de, cBernd.Kieback@ifam-dd.fraunhofer.de
* Corresponding author
Keywords: Powder metallurgy, composite, SPS, carbon fiber, TFP, specific strength, load transfer
Abstract.
Sanders, Integration of glass fibre structures in aluminium cast parts for CFRP aluminium transition structures, Procedia Materials Science 2 (2013) pp 197-203 [8] D.L.
Shen, The fabrication and properties of short carbon fiber reinforced copper matrix composites, Journal of Composite Materials, 45 (24) (2011) pp 2567-2571 [10] S.T.
Zhang, Interface characteristics and mechanical properties of carbon fibre reinforced copper composites, Journal of Materials Science, 26 (1991) pp 5762-5766 [12] T.
Herrmann, Metal/FRP connection module – a power metallurgical approach, Materials Science Forum, Vol. 825-826 (2015) pp 449-456
Sanders, Integration of glass fibre structures in aluminium cast parts for CFRP aluminium transition structures, Procedia Materials Science 2 (2013) pp 197-203 [8] D.L.
Shen, The fabrication and properties of short carbon fiber reinforced copper matrix composites, Journal of Composite Materials, 45 (24) (2011) pp 2567-2571 [10] S.T.
Zhang, Interface characteristics and mechanical properties of carbon fibre reinforced copper composites, Journal of Materials Science, 26 (1991) pp 5762-5766 [12] T.
Herrmann, Metal/FRP connection module – a power metallurgical approach, Materials Science Forum, Vol. 825-826 (2015) pp 449-456
Online since: September 2013
Authors: Thomas Stephen Ijimdiya
They can be formed from various parent rock materials provided conditions suitable for laterisation are prevalent.
The degree of success in use of these soils as construction materials is said to depend on their characteristics and the specific purpose for which they are to be used.
International Journal of Engineering Science, Vol. 3, No. 3
Advanced Materials Research, Vol. 367, pp. 19. http://www.scientific.net Trans Tech Publications.
Materials Society of Nigeria, Bi-monthly meetings/workshops, organized by Zaria Chapter.
The degree of success in use of these soils as construction materials is said to depend on their characteristics and the specific purpose for which they are to be used.
International Journal of Engineering Science, Vol. 3, No. 3
Advanced Materials Research, Vol. 367, pp. 19. http://www.scientific.net Trans Tech Publications.
Materials Society of Nigeria, Bi-monthly meetings/workshops, organized by Zaria Chapter.
Online since: January 2007
Authors: Woei Shyan Lee, Tien Yin Chan
The high strain rate mechanical properties of materials may be substantially different from their
quasi-static properties, and the high strain rate properties should be the discriminating properties for
penetrator materials.
[3] Tien-Yin Chan, and Shun-Tian Lin, Metallurgical and Materials Transactions A, 29A, p. 2885-2892, (1998)
[4] Tien-Yin Chan and Shun-Tian Lin, Journal of Materials Science, 35, p. 3759-3765, (2000) [5] Chen-Sheng Hsu, Pei-Chuen Tsai, and Shun-Tian Lin, Metallurgical and Materials Transactions, 32A, p. 95-101, (2001)
[7] Kuan-Hong Lin, Chen-Sheng Hsu, Shun-Tian Lin, Internation Journal of Refractory Metals &Hard Materials, 21, p. 193-203, (2003)
[8] Woei-Shyan Lee, Guo-Liang Xiea, Chi-Feng Lin, Materials Science and Engineering, A 257, p. 256-267, (1998).
[3] Tien-Yin Chan, and Shun-Tian Lin, Metallurgical and Materials Transactions A, 29A, p. 2885-2892, (1998)
[4] Tien-Yin Chan and Shun-Tian Lin, Journal of Materials Science, 35, p. 3759-3765, (2000) [5] Chen-Sheng Hsu, Pei-Chuen Tsai, and Shun-Tian Lin, Metallurgical and Materials Transactions, 32A, p. 95-101, (2001)
[7] Kuan-Hong Lin, Chen-Sheng Hsu, Shun-Tian Lin, Internation Journal of Refractory Metals &Hard Materials, 21, p. 193-203, (2003)
[8] Woei-Shyan Lee, Guo-Liang Xiea, Chi-Feng Lin, Materials Science and Engineering, A 257, p. 256-267, (1998).
Online since: August 2012
Authors: Kun Sun, Yuan Xu, Jin Hao Liu
Experimental procedure
1.1 Materials investigated
The materials investigated, which had different types, are TA7, TC6 and TB8, respectively.
References [1] Anon: submitted to Journal of Advanced Materials & Processes (1999)
[12] SUN Kun, WANG Fuchi, CHENG Xingwang, MIAO Pu, and ZHAO Shuangzan: submitted to Journal of RARE METAL MATERIALS AND ENGINEERING (2009)
[13] SUN Kun, WANG Fuchi, CHENG Xingwang, MIAO Pu, and ZHAO Shuangzan: submitted to Journal of RARE METAL MATERIALS AND ENGINEERING (2009)
[15] GAO Lingqing, ZHU Jinhua, LI Hui, and SUN Jianke: submitted to Journal of RARE METAL MATERIALS AND ENGINEERING (2008)
References [1] Anon: submitted to Journal of Advanced Materials & Processes (1999)
[12] SUN Kun, WANG Fuchi, CHENG Xingwang, MIAO Pu, and ZHAO Shuangzan: submitted to Journal of RARE METAL MATERIALS AND ENGINEERING (2009)
[13] SUN Kun, WANG Fuchi, CHENG Xingwang, MIAO Pu, and ZHAO Shuangzan: submitted to Journal of RARE METAL MATERIALS AND ENGINEERING (2009)
[15] GAO Lingqing, ZHU Jinhua, LI Hui, and SUN Jianke: submitted to Journal of RARE METAL MATERIALS AND ENGINEERING (2008)
Online since: February 2019
Authors: Mikhail V. Maisuradze, Maxim A. Ryzhkov
Morris, L Woollard, Calculated hardenability for improved consistency of properties in heat treatable engineering steels, Journal of Materials Engineering and Performance. 6 (1997) 443–448
Dobrzański, Selection method of steel grade with required hardenability, Journal of Achievements in Materials and Manufacturing Engineering. 17 (2006) 289-292
Banerjee, Hardenability of Steel, Comprehensive Materials Finishing. 2 (2017) 50–70
Mae, Correlation of the Effects of Alloying Elements on the Hardenability of Steels to the Diffusion Coefficients of Elements in Fe, International Journal of Materials Science and Applications. 6 (2017) 200-206
Kim, Effect of molybdenum and chromium on hardenability of low-carbon boron-added steels, Metals and Materials International. 14 (2008) 667-672
Dobrzański, Selection method of steel grade with required hardenability, Journal of Achievements in Materials and Manufacturing Engineering. 17 (2006) 289-292
Banerjee, Hardenability of Steel, Comprehensive Materials Finishing. 2 (2017) 50–70
Mae, Correlation of the Effects of Alloying Elements on the Hardenability of Steels to the Diffusion Coefficients of Elements in Fe, International Journal of Materials Science and Applications. 6 (2017) 200-206
Kim, Effect of molybdenum and chromium on hardenability of low-carbon boron-added steels, Metals and Materials International. 14 (2008) 667-672
Online since: August 2005
Authors: Zhu Ji Jin, Ren Ke Kang, Dong Ming Guo, Y.X. Zhang
Compared with crack
configurations in some machined brittle materials, the crack configurations are complicated in
ground (100) silicon wafers.
Strasbaugh: International Journal of Machine Tools & Manufacture, Vol. 42 (2002), pp. 395-404
Miura: International Journal of Machine Tools & Manufacture, Vol. 39 (1999), pp. 1103-1116
Kirscht: Semiconductor Science Technology, Vol. 14 (1999), pp. 936-944
Duduch: Journal of Materials Science Letters, Vol. 18 (1999), pp. 1185-1187.
Strasbaugh: International Journal of Machine Tools & Manufacture, Vol. 42 (2002), pp. 395-404
Miura: International Journal of Machine Tools & Manufacture, Vol. 39 (1999), pp. 1103-1116
Kirscht: Semiconductor Science Technology, Vol. 14 (1999), pp. 936-944
Duduch: Journal of Materials Science Letters, Vol. 18 (1999), pp. 1185-1187.
Online since: May 2012
Authors: Lei Wang, Xing Hua Tong, Guo Fu Sun, Jian Xin Han
Rock mass is heterogeneous brittle material and its deformation characteristic has marked difference from metallic materials.
Acknowledgements The work was financially supported by the National Key Basic Research and Development Program(973 Program NO.2010CB732002), the National Natural Science Foundation of China(NO.51179098)and the Natural Science Foundation of Shandong Province (NO. 2009ZRB02285) References [1] Yinlong Lu,Lianguo Wang, Feng Yang: Chinese Journal of Rock Mechanics and Engineering,2010,29(3):640–648.
:International Journal of Rock Mechanics and Mining Science, 2001,38(8):1 193–1 199
[8]Zhujiang Shen: Journal of Jiang Su Mechanics,1982,(6):1–9.
(In Chinese) [9]Xuebin Wang: Chinese Journal of Rock Mechanics and Engineering,2004,23(Supp.1):4 292–4 295.
Acknowledgements The work was financially supported by the National Key Basic Research and Development Program(973 Program NO.2010CB732002), the National Natural Science Foundation of China(NO.51179098)and the Natural Science Foundation of Shandong Province (NO. 2009ZRB02285) References [1] Yinlong Lu,Lianguo Wang, Feng Yang: Chinese Journal of Rock Mechanics and Engineering,2010,29(3):640–648.
:International Journal of Rock Mechanics and Mining Science, 2001,38(8):1 193–1 199
[8]Zhujiang Shen: Journal of Jiang Su Mechanics,1982,(6):1–9.
(In Chinese) [9]Xuebin Wang: Chinese Journal of Rock Mechanics and Engineering,2004,23(Supp.1):4 292–4 295.
Egg Yolk as Pore Creating Agent to Produce Porous Tri-Calcium Phosphate for Bone Implant Application
Online since: June 2011
Authors: Iis Sopyan, A. Zuraida, A.R. Fariza
Bhisey, Development of calcium phosphate based bioceramics, Bulletin Materials Science, 24 (2001) 653-657
Journal of Materials Science: Materials in Medicine, 12 (2001) 679-68
Science and Technology of Advanced Materials, 8 (2007)116-123
Journal of Materials Science, (2005) [6] K.
Materials and Manufacturing Processes, 21 (2006) 325-328 [7] A.K.
Journal of Materials Science: Materials in Medicine, 12 (2001) 679-68
Science and Technology of Advanced Materials, 8 (2007)116-123
Journal of Materials Science, (2005) [6] K.
Materials and Manufacturing Processes, 21 (2006) 325-328 [7] A.K.
Online since: December 2010
Authors: Wei Ma, Yong Gang Liu, Yong Chao Lu, Yu Jun Xue, Ji Shun Li
Multi-plies bellows will have a perfect damping characteristic and equivalent stiffness when appropriate materials are adopted to process the metal multi-layer and sandwich damping layer.
Structural damping of viscoelastic materials for vibration reduction commonly has two types.
Constrained damping layer is the layer that viscoelastic materials are trapped in the bellows between two or more layers.
Journal of Henan University of Science and Technology (Natural Science). 2004,25(4):28-31(In Chinese)
Journal of Vibration Engineering. 2004, 8:747-749(In Chinese)
Structural damping of viscoelastic materials for vibration reduction commonly has two types.
Constrained damping layer is the layer that viscoelastic materials are trapped in the bellows between two or more layers.
Journal of Henan University of Science and Technology (Natural Science). 2004,25(4):28-31(In Chinese)
Journal of Vibration Engineering. 2004, 8:747-749(In Chinese)