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Online since: August 2009
Authors: Bo Lin He, Ying Xia Yu, Jian Ping Shi
Mould Materials[M].
Strengthening Technology for Materials Surface.
Advanced QPQ Complex Salt Bath Heat Treatment [J].Journal of Materials Processing Technology, Vol.66(1997) , p.249
Journal of Materials Processing echnology, , Vol 69 (1997) , p.45
Key Engineering Materials 373-374 (2008) p. 260.
Strengthening Technology for Materials Surface.
Advanced QPQ Complex Salt Bath Heat Treatment [J].Journal of Materials Processing Technology, Vol.66(1997) , p.249
Journal of Materials Processing echnology, , Vol 69 (1997) , p.45
Key Engineering Materials 373-374 (2008) p. 260.
Online since: January 2021
Authors: Vu Ngoc Pi, Nguyen Hong Linh, Bui Thanh Danh, Nguyen Thi Thanh Nga, Nguyen Van Cuong, Tran Thi Hong, Le Hong Ky, Do Thi Tam
Materials, 2019. 12(6): p. 907
Materials Today: Proceedings, 2019
Materials Today: Proceedings, 2019
Journal of Environmental Science and Engineering B, 2017. 6: p. 387-390
Materials Research Express, 2019. 6(8): p. 086507
Materials Today: Proceedings, 2019
Materials Today: Proceedings, 2019
Journal of Environmental Science and Engineering B, 2017. 6: p. 387-390
Materials Research Express, 2019. 6(8): p. 086507
Online since: September 2011
Authors: Alojz Ivanković, Neal Murphy, J. Mohan, A. Karač
Experimental
Materials & Manufacture of Bonded Specimens.
A variety of aerospace grade materials were used in the present study.
The materials supplied by Bombardier Aerospace (UK) and Henkel Loctite Ltd. are also gratefully acknowledged.
Elsevier Science, 2001
Elsevier Science, Amsterdam
A variety of aerospace grade materials were used in the present study.
The materials supplied by Bombardier Aerospace (UK) and Henkel Loctite Ltd. are also gratefully acknowledged.
Elsevier Science, 2001
Elsevier Science, Amsterdam
Online since: July 2014
Authors: Bambang Kusharjanta, Nurul Muhayat, Triyono Triyono, Radian T. Handika
The increase of preheat temperature soften the material so that the more material can be extruded.
Rao, K.Huber, J.Heerens, J.F.dosSantos, N.Huber, Asymmetric mechanical properties and tensile behaviour prediction of aluminium alloy 5083 friction stir welding joints, Materials Science & Engineering A 565 (2013) 44–50 [2] RS.
Ma, Friction stir welding and processing, Materials Science and Engineering R 50 (2005) 1–78 [3] R.
China 23(2013) 2708−2713 [4] Sun, y.f., Shen, J.M., Morisada, Y., Fujii, H., Spot friction stir welding of low carbon steel plates preheated by high frequency induction, Materials and Design 54 (2014) 450–457 [5] Masoud Jabbari, Effect of the Preheating Temperature on Process Time in Friction Stir Welding of Al 6061-T6,Journal of Engineering, Volume 2013, Article ID 580805, [6] AWS D1 Committee on Structural Welding, Sructural Welding Code-Aluminum, AWS D1.2/D1.2M: 2003, [7] Yong-Jai Kwon, Seong-Beom Shim, Dong-Hwan Park, Friction stir welding of 5052 aluminum alloy plates, Trans.
Zaed Yuliadi, Effect of tool Tilt Angle and Tool Plunge Depth on Mechanical Properties of Friction Stir Welded AA 5083 Joints, Applied Mechanics and Materials Vol. 493 (2014) pp 709-714.
Rao, K.Huber, J.Heerens, J.F.dosSantos, N.Huber, Asymmetric mechanical properties and tensile behaviour prediction of aluminium alloy 5083 friction stir welding joints, Materials Science & Engineering A 565 (2013) 44–50 [2] RS.
Ma, Friction stir welding and processing, Materials Science and Engineering R 50 (2005) 1–78 [3] R.
China 23(2013) 2708−2713 [4] Sun, y.f., Shen, J.M., Morisada, Y., Fujii, H., Spot friction stir welding of low carbon steel plates preheated by high frequency induction, Materials and Design 54 (2014) 450–457 [5] Masoud Jabbari, Effect of the Preheating Temperature on Process Time in Friction Stir Welding of Al 6061-T6,Journal of Engineering, Volume 2013, Article ID 580805, [6] AWS D1 Committee on Structural Welding, Sructural Welding Code-Aluminum, AWS D1.2/D1.2M: 2003, [7] Yong-Jai Kwon, Seong-Beom Shim, Dong-Hwan Park, Friction stir welding of 5052 aluminum alloy plates, Trans.
Zaed Yuliadi, Effect of tool Tilt Angle and Tool Plunge Depth on Mechanical Properties of Friction Stir Welded AA 5083 Joints, Applied Mechanics and Materials Vol. 493 (2014) pp 709-714.
Online since: September 2014
Authors: Dong Jin Yan, Xin Zhe Nian, Yao Zhang, Qian Li Zhang
Materials of the model
The support members and the joint beams of the flexible anti-blast walls are made of steel, and adopts MAT_PLASTIC_KINEMATIC material model.
The fiber cloth material under pull will mainly have elastic deformation, and the material model uses MAT_ELASTIC.
To simplify the analysis, the RC anti-blast wall adopts MAT_ELASTIC material model.
Acknowledgements This work was financially supported by National Natural Science Foundations of China (51021001) References [1] LS-DYNA keyword user’s mannal(Version971)[K].
Journal of vibration and shock, 2011, 30(9): 70-75.
The fiber cloth material under pull will mainly have elastic deformation, and the material model uses MAT_ELASTIC.
To simplify the analysis, the RC anti-blast wall adopts MAT_ELASTIC material model.
Acknowledgements This work was financially supported by National Natural Science Foundations of China (51021001) References [1] LS-DYNA keyword user’s mannal(Version971)[K].
Journal of vibration and shock, 2011, 30(9): 70-75.
Online since: December 2010
Authors: Min Sun, Di Jiang Wen, Peng Xie
Experimental details
materials
Wave-shaped fibers with a cicular-section of 0.66mm of diameter and 31mm of length, produced by Yixing Kunwi Metal Fiber company were used in study.
Table 2 Test materials mixing ratio Cement (kg/m3) Water (kg/m3) Sand (kg/m3) Stone (kg/m3) water-cement ratio Volume ratio of steel fiber 493.6 232 721.6 843.7 0.47 1% Mixed cement and gravel firstly without water, then added fibers, mixed for 2 minutes.
(see Fig.1 and Fig.2) Fig.1 Mixing test materials Fig.2 Casting the specimens Measurements In order to simulate marine environment, 5% NaCl solution was used in the test.
References [1]S.Demis, K.Pilakoutas, Ch.Alk.Apostolopoulos, Materials and Corrosion 2009,60(9999) [2]Wang haichao, Journal of Shangdong University of Science and Technology, 2007,26(5),31 [3]Harovel G.
Mindess, Cement and Concrete Composites,1996,18 [5] T.SUGAMA, J MATER SCI , 1992, 42, 2863 [6] A.J.SOMMER and H.LEIDHEISER Jr, Corrosion 1987, 43, 661 [7]M.F.Morks, Materials Letters 58(2004) 3316-3319 [8]Min Sun, Dijiang Wen, Concrete, 2010(5) [9]Min Sun, Dijiang Wen, Materials and Corrosion, 2010(6)
Table 2 Test materials mixing ratio Cement (kg/m3) Water (kg/m3) Sand (kg/m3) Stone (kg/m3) water-cement ratio Volume ratio of steel fiber 493.6 232 721.6 843.7 0.47 1% Mixed cement and gravel firstly without water, then added fibers, mixed for 2 minutes.
(see Fig.1 and Fig.2) Fig.1 Mixing test materials Fig.2 Casting the specimens Measurements In order to simulate marine environment, 5% NaCl solution was used in the test.
References [1]S.Demis, K.Pilakoutas, Ch.Alk.Apostolopoulos, Materials and Corrosion 2009,60(9999) [2]Wang haichao, Journal of Shangdong University of Science and Technology, 2007,26(5),31 [3]Harovel G.
Mindess, Cement and Concrete Composites,1996,18 [5] T.SUGAMA, J MATER SCI , 1992, 42, 2863 [6] A.J.SOMMER and H.LEIDHEISER Jr, Corrosion 1987, 43, 661 [7]M.F.Morks, Materials Letters 58(2004) 3316-3319 [8]Min Sun, Dijiang Wen, Concrete, 2010(5) [9]Min Sun, Dijiang Wen, Materials and Corrosion, 2010(6)
Online since: July 2011
Authors: Ai Min Deng, Lian Meng Gou, Dao Yuan Xu
Introduction
Concrete is one of the main materials of buildings such as the traffic, civil, hydraulic, etc.
Because of the complexity of the mechanical properties of constituent materials and the presence of internal cracks, the research on the deformation and the process of failure is very complex.
Acknowledgements This work was supported by the National Nature Science Foundation of China(Nos.10972072 and 50878077) References [1] Faning Dang, Wei Tian, Wentao Han, Houqun Chen.
Journal of Hydraulic Engineering, Vol. 37(2006),p.674-680 [2] Wancheng Zhu, Tiange Lin.
Journal of Northern Jiaotong University, Vol.27(2003),p.32-35 [5] Xiaozhou Xia.
Because of the complexity of the mechanical properties of constituent materials and the presence of internal cracks, the research on the deformation and the process of failure is very complex.
Acknowledgements This work was supported by the National Nature Science Foundation of China(Nos.10972072 and 50878077) References [1] Faning Dang, Wei Tian, Wentao Han, Houqun Chen.
Journal of Hydraulic Engineering, Vol. 37(2006),p.674-680 [2] Wancheng Zhu, Tiange Lin.
Journal of Northern Jiaotong University, Vol.27(2003),p.32-35 [5] Xiaozhou Xia.
Online since: July 2012
Authors: Jun Ping Zhuang, Xue Ping Li, Ying Liu
One of the reasons why levulinic acid has not been produced in commercial quantities is the cost of raw materials used for its synthesis.
Many kinetic studies have been conducted on the hydrolysis of various biomass materials to sugars but there are limited reports on the kinetics of levulinic acid production from glucose cellulose and other biomass sources.
Saeman was one of the first to use a systematic approach to model the hydrolysis of various wood materials to glucose and subsequent glucose decomposition in two consecutive first-order reactions.
Raw Materials Glucose and ethyl levulinate used for calibration with the purity of over 99% were obtained from Aladdin Reagent (Shanghai, China).
Advanced Materials Research, Vol 236-238 (2011) pp. 138-141 [5] Saravanamurugan, S., Riisager, A.
Many kinetic studies have been conducted on the hydrolysis of various biomass materials to sugars but there are limited reports on the kinetics of levulinic acid production from glucose cellulose and other biomass sources.
Saeman was one of the first to use a systematic approach to model the hydrolysis of various wood materials to glucose and subsequent glucose decomposition in two consecutive first-order reactions.
Raw Materials Glucose and ethyl levulinate used for calibration with the purity of over 99% were obtained from Aladdin Reagent (Shanghai, China).
Advanced Materials Research, Vol 236-238 (2011) pp. 138-141 [5] Saravanamurugan, S., Riisager, A.
Online since: December 2013
Authors: Peng Tian, Zhi Yong Zhong, Rui Guo Bai, Xing Li Zhang, Quan Li Wang, Hai Gao, Xin Guang Hu
Materials and Methods
The experimental material was 165 mm × 165 mm continuous casting billet of HRB500E vanadium-containing high-strength steel rebar.
[3] Cao Jin zoei, Feng Liang-hua, Liu Kun, et al: Journal of University of Science and Technology Liaoning, Vol. 32(2):p.134
[4] Jianfeng Cao, Ke Feng, Zhiwei Han: Advanced Materials Research, Vol. 652-654(2013): p. 2441
[5] Yiwen Kong, Ke Feng, Zhiwei Han, et al: Applied Mechanics and Materials, Vol. 120(2012): p. 510
[6] Jianli Zhang, Yanming Li: Advanced Materials Research, Vol. 268-270(2011): p. 1152.
[3] Cao Jin zoei, Feng Liang-hua, Liu Kun, et al: Journal of University of Science and Technology Liaoning, Vol. 32(2):p.134
[4] Jianfeng Cao, Ke Feng, Zhiwei Han: Advanced Materials Research, Vol. 652-654(2013): p. 2441
[5] Yiwen Kong, Ke Feng, Zhiwei Han, et al: Applied Mechanics and Materials, Vol. 120(2012): p. 510
[6] Jianli Zhang, Yanming Li: Advanced Materials Research, Vol. 268-270(2011): p. 1152.
Online since: May 2011
Authors: Chang Song Zhang, Chen Jie Guo
Experiment
Starting materials were Bi2O3 (99.5%), TiO2 (99.5%), NaCl (99%) and KCl (99%) with analytical purity.
Raw materials mentioned above were mixed by ball-milling with zirconia balls as the grinding media in ethanol for 12h, and dried at 80˚C.
In order to prepare large BIT particles, excessive Bi2O3 were introduced into raw materials of BIT3 composition.
References [1] Yong-ll Kim, Ming Ku Jeon: Materials Letters, 2004, 58, 1889-1893
[3] Yueming Li: Ceramics International., 2004 [4] Juhyun Yoo., Dongon Oh: Materials Letters, 2004
Raw materials mentioned above were mixed by ball-milling with zirconia balls as the grinding media in ethanol for 12h, and dried at 80˚C.
In order to prepare large BIT particles, excessive Bi2O3 were introduced into raw materials of BIT3 composition.
References [1] Yong-ll Kim, Ming Ku Jeon: Materials Letters, 2004, 58, 1889-1893
[3] Yueming Li: Ceramics International., 2004 [4] Juhyun Yoo., Dongon Oh: Materials Letters, 2004