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Online since: June 2012
Authors: Gong Xing Yan, Xiao Rong Wang
Meanwhile, the research in the future will be for the prosthesis manufactured by using bioactive materials in conjunction with tissue engineering methods to reduce, even to eliminate the need of taking autograft bones.
Chinese Journal of Trauma, 2005, 21(12): 881-883,In Chinese
Laser Journal, 2008,29(1):70-71,In Chinese
[3] Ling Li and Miao Xue.Chinese Journal of Dental Materials and Devices, 2003,12(3): 117-121
Chinese Journal for Stomatology, 2000, 35(5): 374-377
Chinese Journal of Trauma, 2005, 21(12): 881-883,In Chinese
Laser Journal, 2008,29(1):70-71,In Chinese
[3] Ling Li and Miao Xue.Chinese Journal of Dental Materials and Devices, 2003,12(3): 117-121
Chinese Journal for Stomatology, 2000, 35(5): 374-377
Online since: August 2013
Authors: Zhong Yuan Li
Conventional views address that the reinforced R.C. structures are composed of the concrete materials which are thought to be considerably stable.
Building Science, 1999, 15(2): 25-30.
ACI Material Journal, 1993, 90(6): 611- 617
ACI Materials Journal, 1990, 87(6): 581- 587
Advances in Science and Technology of Water Resources, 2005, 25(4): 63-70.
Building Science, 1999, 15(2): 25-30.
ACI Material Journal, 1993, 90(6): 611- 617
ACI Materials Journal, 1990, 87(6): 581- 587
Advances in Science and Technology of Water Resources, 2005, 25(4): 63-70.
Online since: April 2024
Authors: Ayyanar Dhanalakshmi, Masthan Ali Shahul Hameed, J. Jeyaseela, S. Karthika
The utilization of effective materials such as cement, flyash, silica fume and PP fibre were used in this investigation.
Materials Cement Cement of Ordinary Portland Cement (OPC) OF GRADE 53 was used.
Heat map of materials used for Fibre reinforced foam concrete Figure 5, shows the heat map for the cross validation of average materials used as a function of six parameters are cement, silica fume, flyash, polypropylene fiber, foaming agent and water.
Series: Materials Science and Engineering, 989, doi:10.1088/1757-899X/989/1/012024, 2020
[26] Shahul Hameed, M., Sekar, A.S.S., “Properties of green concrete containing quarry rock dust and marble sludge powder as fine aggregate”, ARPN Journal of Engineering and Applied Sciences, ISSN 1819-6608, Vol.4, No.4, pp.1-7, 2009
Materials Cement Cement of Ordinary Portland Cement (OPC) OF GRADE 53 was used.
Heat map of materials used for Fibre reinforced foam concrete Figure 5, shows the heat map for the cross validation of average materials used as a function of six parameters are cement, silica fume, flyash, polypropylene fiber, foaming agent and water.
Series: Materials Science and Engineering, 989, doi:10.1088/1757-899X/989/1/012024, 2020
[26] Shahul Hameed, M., Sekar, A.S.S., “Properties of green concrete containing quarry rock dust and marble sludge powder as fine aggregate”, ARPN Journal of Engineering and Applied Sciences, ISSN 1819-6608, Vol.4, No.4, pp.1-7, 2009
Online since: May 2013
Authors: Di Zhang, Qiang Zhang, Jun Wu, Peng Fei Zhao
The material of the specimen is 1Cr13.
Journal of Tribology, 2004, 126: 482-489
Liu: Journal of Zhejiang University (Engineering Science), Vol. 43(8) (2009), pp. 1501-1505(In Chinese)
Gola: Journal of Tribology Vol. 126 (2004), pp. 482-489
Liu: Journal of Zhejiang University (Engineering Science), Vol. 43(8) (2009), pp. 1501-1505(In Chinese).
Journal of Tribology, 2004, 126: 482-489
Liu: Journal of Zhejiang University (Engineering Science), Vol. 43(8) (2009), pp. 1501-1505(In Chinese)
Gola: Journal of Tribology Vol. 126 (2004), pp. 482-489
Liu: Journal of Zhejiang University (Engineering Science), Vol. 43(8) (2009), pp. 1501-1505(In Chinese).
Online since: September 2013
Authors: Chun Qiu, Shu Bo Yue
Zhang et al: Journal of Hydrodynamics.Vol. 21(2006), p.26 (In Chinese)
[2] P.
Gao, Y.Q.Yang and J.Deng et al: Journal of Sichuan University (Engineer Science edition).
Vol. 30(2011), P.103(In Chinese) [4] H.G.Ni: Journal of Hydraulic Engineering. (1998), P.19 (In Chinese) [5] X.D.Zhou, T.Yin and Y.H.Lei et al: Journal of Sichuan University (Engineer Science edition).
Vol.42 (2010), P.17 (In Chinese) [6] C.Qiu, M.J.Diao and L.L.Xu: Applied Mechanics and Materials.
Vols.170-173(2012), P.3687 [7] J.G.Chen, J.M.Zhang and W.L.Xu et al: Journal of Hydrodynamics.
Gao, Y.Q.Yang and J.Deng et al: Journal of Sichuan University (Engineer Science edition).
Vol. 30(2011), P.103(In Chinese) [4] H.G.Ni: Journal of Hydraulic Engineering. (1998), P.19 (In Chinese) [5] X.D.Zhou, T.Yin and Y.H.Lei et al: Journal of Sichuan University (Engineer Science edition).
Vol.42 (2010), P.17 (In Chinese) [6] C.Qiu, M.J.Diao and L.L.Xu: Applied Mechanics and Materials.
Vols.170-173(2012), P.3687 [7] J.G.Chen, J.M.Zhang and W.L.Xu et al: Journal of Hydrodynamics.
Online since: November 2012
Authors: Chi Yun Zhao, Hua Li, Li Yun Li
Concrete was modeled using element Solid 65, a dedicated three-dimensional 8-node solid isoperimetric element to model the nonlinear response of brittle materials based on a constitutive model for the tri-axial behavior of concrete.
Sketches of constitutive models of concrete material and steel material Fig.7.
This may be that a concrete material in computational model is a more homogeneous material than actual.
E.: Analysis of Composite Beam-Columns under Lateral Cyclic Loading, Journal of Structural Engineering, ASCE (2001) Vol. 127(2), p.186-193
[5] Zhang, L.R. and Wang, M.G.: Experimental Research on Load-Bearing Capacity of Joints For a Steel-Concrete Composite Structure, Journal of Architecture Science, (2003) Vol.19(5), p.16-19 [in Chinese]
Sketches of constitutive models of concrete material and steel material Fig.7.
This may be that a concrete material in computational model is a more homogeneous material than actual.
E.: Analysis of Composite Beam-Columns under Lateral Cyclic Loading, Journal of Structural Engineering, ASCE (2001) Vol. 127(2), p.186-193
[5] Zhang, L.R. and Wang, M.G.: Experimental Research on Load-Bearing Capacity of Joints For a Steel-Concrete Composite Structure, Journal of Architecture Science, (2003) Vol.19(5), p.16-19 [in Chinese]
Online since: May 2013
Authors: Shi Qiang Lu, Jun Wei Liu, Xuan Xiao, Gui Fa Li, Ke Lu Wang
The Microstructure evolution and Twinning Characterization of AZ31 Mg alloy sheet in low-temperature bending process
Liu Junwei 1, 2, a, Lu Shiqiang*2, b, Wang Kelu1, 2, Li Guifa1, 2, Xiao Xuan1, 2
a Key Laboratory for Microstructural Control of Metallic Materials of Jiangxi Province, Nanchang Hangkong University; b School of Materials Science and Engineering, Nanchang Hangkong University, Jiangxi 330063, China
aliujw1981@yahoo.com.cn, bniatlusq@126.com
Key words: Bending, Mg alloy, Microstructure evolution;
Abstract.
Experimental Procedure The material used in this study is as-rolled AZ31 Mg alloy.
Acknowledgement Project were supported by the Key Laboratory for Microstructural Control of Metallic Materials of Jiangxi Province (Nanchang Hangkong University) (LW201101) and Doctor Startup Foundation of Nanchang Hangkong University (EA201001035), China Reference [1] O.Sitdikov, R.Kaibyshev: submitted to Journal of Materials Research Materials Transaction (2001) [2] W.J.Kim, J.B.Lee, W.Y.Kim: submitted to Scripta Materialia (2007) [3] M.F.Sucliffe, P.J.Rayner: submitted to Journal of Mechanical Sciences (1998) [4] M.R.Barnett: submitted to Materials Science and Engineering A (2007) [5] M.H.Yoo, J.K.Lee: submitted to Philosophy Magnazine (1991) [6] X.W.Guo, X.S.Wang: submitted to Materials Protection (2003)
Experimental Procedure The material used in this study is as-rolled AZ31 Mg alloy.
Acknowledgement Project were supported by the Key Laboratory for Microstructural Control of Metallic Materials of Jiangxi Province (Nanchang Hangkong University) (LW201101) and Doctor Startup Foundation of Nanchang Hangkong University (EA201001035), China Reference [1] O.Sitdikov, R.Kaibyshev: submitted to Journal of Materials Research Materials Transaction (2001) [2] W.J.Kim, J.B.Lee, W.Y.Kim: submitted to Scripta Materialia (2007) [3] M.F.Sucliffe, P.J.Rayner: submitted to Journal of Mechanical Sciences (1998) [4] M.R.Barnett: submitted to Materials Science and Engineering A (2007) [5] M.H.Yoo, J.K.Lee: submitted to Philosophy Magnazine (1991) [6] X.W.Guo, X.S.Wang: submitted to Materials Protection (2003)
Online since: February 2011
Authors: Hong Qing Zhou, Xiao Dong Shen, Hui Shao
Its technology uses glass–ceramic (G-C) materials for substrate and has advantages in low dielectric constant and high component density [1, 2].
Several studies have shown that the addition of B2O3 on commercial microwave materials has the advantages of lowering sintering temperatures and improving the dielectric properties [8,9].
Glasses of CaO-B2O3-SiO2-Al2O3 system were prepared using the solid-state reaction technique, with high purity (>99.9% pure) of SiO2, B2O3, Al2O3 and CaO as raw materials.
The glass powder (60 wt %) and ceramic materials (40 wt %) were mixed by a ball mill for 48 h.
Materials Letters, 2004 (58):2776-2780.
Several studies have shown that the addition of B2O3 on commercial microwave materials has the advantages of lowering sintering temperatures and improving the dielectric properties [8,9].
Glasses of CaO-B2O3-SiO2-Al2O3 system were prepared using the solid-state reaction technique, with high purity (>99.9% pure) of SiO2, B2O3, Al2O3 and CaO as raw materials.
The glass powder (60 wt %) and ceramic materials (40 wt %) were mixed by a ball mill for 48 h.
Materials Letters, 2004 (58):2776-2780.
Online since: October 2023
Authors: Juan Antonio Ferriz-Papi, Gasak Abdul-Hussain, William Holderbaum, Guowu Wei, Haitham El-Hussieny, Theodoros Theodoridis
Other studies have used piezoelectric materials for creating sensors capable of detecting bending and rotational defects [18].
Materials coated with PEDOT, a conductive polymer, have been used to create stretchable polymers for measuring resistance variations.
Studies have exhibited a variety of materials with potential to be used in wearable devices.
These materials have the potential to be used as strain sensors for the conversion of physical deformities into electrical impulses.
Firstly, the materials used for the sensors and the integration of textiles are discussed followed by highlighting the experimental setup.
Materials coated with PEDOT, a conductive polymer, have been used to create stretchable polymers for measuring resistance variations.
Studies have exhibited a variety of materials with potential to be used in wearable devices.
These materials have the potential to be used as strain sensors for the conversion of physical deformities into electrical impulses.
Firstly, the materials used for the sensors and the integration of textiles are discussed followed by highlighting the experimental setup.
Online since: August 2025
Authors: Chonlada Karnbanjong, Yanagon Pholruang, Jenjira Sukmanee, Khompee Limpadapun, Ramil Kesvarakul
Sebastianib, A.H. van den Boogaardc, The technology of Incremental Sheet Forming—A brief review of the history, Journal of Materials Processing Technology, 210 (2010), 981–997
Critical Engineering Materials, ISSN: 1662-9795, Vol. 821 (2019) 256-262 [5] Mercedes M.
Ou, Analytical and experimental investigations on the deformation mechanism and fracture behavior in single point incremental forming, Journal of Materials Processing Technology, 214 (8) (2014) 1503-1515
[12] Khompee Limpadapun and Ramil Kesvarakul, Investigating the temperature from friction stir in the SPIF process via an infrared imager, Journal of Mechanical Science and Technology, 36 (3) (2022)
[13] Jin Wang, Lihua Li, and Husen Jiang, Effects of forming parameters on temperature in frictional stir incremental sheet forming, Journal of Mechanical Science and Technology 30 (5) (2016) 2163-2169
Critical Engineering Materials, ISSN: 1662-9795, Vol. 821 (2019) 256-262 [5] Mercedes M.
Ou, Analytical and experimental investigations on the deformation mechanism and fracture behavior in single point incremental forming, Journal of Materials Processing Technology, 214 (8) (2014) 1503-1515
[12] Khompee Limpadapun and Ramil Kesvarakul, Investigating the temperature from friction stir in the SPIF process via an infrared imager, Journal of Mechanical Science and Technology, 36 (3) (2022)
[13] Jin Wang, Lihua Li, and Husen Jiang, Effects of forming parameters on temperature in frictional stir incremental sheet forming, Journal of Mechanical Science and Technology 30 (5) (2016) 2163-2169