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Online since: February 2022
Authors: Vitaliy Ivanov, Dmitriy P. Il’yaschenko, Elena V. Lavrova, F.V. Morgay, Elena Verkhoturova
Studies were carried out on the effect of various solutions on the mechanical properties and corrosion resistance of steels of this type [7], and also investigated the effect of heat treatment on the properties of a number of materials in the manufacture of various products from austenitic and low-alloy strips [8, 9].
In connection with the problem that arose in the manufacture of corrugations by various methods and from various materials, it was decided to carry out a number of studies, namely: to check the chemical analysis of the material, to check the effect of welding modes on the strength of the weld and to investigate the structure.
There used grades of electrode materials, which were identical to the base metal (BM).
Shanmugam, Experimental and numerical studies on the influence of formability of AISI 316L tailor-welded blanks at different weld line orientations, Journal of the Brazilian Society of Mechanical Sciences and Engineering. 43(3) (2021) 171. 10.1007/s40430-021-02896-8
Corrosion Science. 49(4) (2007) 1718–1736. doi:10.1016/j.corsci.2006.10.009 [8] V.N.
In connection with the problem that arose in the manufacture of corrugations by various methods and from various materials, it was decided to carry out a number of studies, namely: to check the chemical analysis of the material, to check the effect of welding modes on the strength of the weld and to investigate the structure.
There used grades of electrode materials, which were identical to the base metal (BM).
Shanmugam, Experimental and numerical studies on the influence of formability of AISI 316L tailor-welded blanks at different weld line orientations, Journal of the Brazilian Society of Mechanical Sciences and Engineering. 43(3) (2021) 171. 10.1007/s40430-021-02896-8
Corrosion Science. 49(4) (2007) 1718–1736. doi:10.1016/j.corsci.2006.10.009 [8] V.N.
Online since: November 2014
Authors: Tian Dong Cao, Chang Zi Chen
Introduction
Plasma processing is currently a hot research about surface engineering, and it has been applied widely in equipment manufacturing, microelectronics, building materials, and instrument transplantation and other fields.
The underlying mechanisms of operation are generally understood, although many features still lack a detailed description.André Anders et al[19,20] studied The voltage current time relationship of high power pulsed magnetron sputtering, they use different target materials studying the effect of pressure to discharge characteristics,such as Cu, Ti, Nb, C, W, Al and Cr target.
Residual Stress in Cu Sputtered Films on Glass Substrates at Different Substrate Temperatures Journal of Sciences, Islamic Republic of Iran 15(3) (2004) 277-282 [5] A.
Oseguera et al.Tribological Properties of CrN/AlN Films Produced by Reactive Magnetron Sputtering,Journal of Materials Engineering and Performance.19(3) (2010) 421
[27] MichaelA.Lieberman, Allan J.Lichtenberg, Principles of Plasma Discharges and Material Processing,second ed., wiley, Berkeley,1994
The underlying mechanisms of operation are generally understood, although many features still lack a detailed description.André Anders et al[19,20] studied The voltage current time relationship of high power pulsed magnetron sputtering, they use different target materials studying the effect of pressure to discharge characteristics,such as Cu, Ti, Nb, C, W, Al and Cr target.
Residual Stress in Cu Sputtered Films on Glass Substrates at Different Substrate Temperatures Journal of Sciences, Islamic Republic of Iran 15(3) (2004) 277-282 [5] A.
Oseguera et al.Tribological Properties of CrN/AlN Films Produced by Reactive Magnetron Sputtering,Journal of Materials Engineering and Performance.19(3) (2010) 421
[27] MichaelA.Lieberman, Allan J.Lichtenberg, Principles of Plasma Discharges and Material Processing,second ed., wiley, Berkeley,1994
Online since: June 2012
Authors: Meng Hua Wu, Wei Ping Jia, Fan Yang
We hope that it could provide a useful reference for the preparation of special materials by electrodepositing under the magnetic field.
Acknowledgement This work is financially supported by the National Natural Science Foundation (50975034), and Liaoning province science and technology projects (2010223006).
Fan: Functional materials, Vol.41 (2010), p.1424
Guan: Materials protection, Vol.39 (2006), p.20
Zhang: Materials protection, Vol.43 (2010), p.36
Acknowledgement This work is financially supported by the National Natural Science Foundation (50975034), and Liaoning province science and technology projects (2010223006).
Fan: Functional materials, Vol.41 (2010), p.1424
Guan: Materials protection, Vol.39 (2006), p.20
Zhang: Materials protection, Vol.43 (2010), p.36
Online since: July 2014
Authors: Aayush Chandrawanshi, S. Bhaiyat, A. Jain, A. Ananda Babu, P. Edwin Sudhagar, R. Vasudevan
Jain, Ananda Babu A,
Edwin Sudhagar P, R.Vasudevan
School of Mechanical and Building Sciences, VIT University, Vellore-632014, India.
Introduction: Fiber reinforced composite materials are being widely used in many engineering fields due to their high strength-to-weight and stiffness-to-weight ratios.
The various material properties of woven fabric 200 GSM (Woven inter-glass 92112 fibers) and LY556 epoxy resin are evaluated using the relations in Ref. [7] and presented in Table 1.
Parthasaradhi in: Vibration analysis of a rotating tapered composite beam with tip mas, International Journal of Mechanical and Production Engineering (IJMPE), ISSN 2315-4489, Vol-1, Iss-1, (2012) [6] K.
Composites Science and Technology 60 2643±2657,(2000) [7] Berthelot, J.M in: Composite materials, Mechanical Behavior and structural analysis, Chapter 9, Springer Verlag, New York (1999)
Introduction: Fiber reinforced composite materials are being widely used in many engineering fields due to their high strength-to-weight and stiffness-to-weight ratios.
The various material properties of woven fabric 200 GSM (Woven inter-glass 92112 fibers) and LY556 epoxy resin are evaluated using the relations in Ref. [7] and presented in Table 1.
Parthasaradhi in: Vibration analysis of a rotating tapered composite beam with tip mas, International Journal of Mechanical and Production Engineering (IJMPE), ISSN 2315-4489, Vol-1, Iss-1, (2012) [6] K.
Composites Science and Technology 60 2643±2657,(2000) [7] Berthelot, J.M in: Composite materials, Mechanical Behavior and structural analysis, Chapter 9, Springer Verlag, New York (1999)
Online since: May 2016
Authors: Kazushi Yoshikawa, Ei Yamamoto, Nobuhiro Kato, Shigeki Hontsu, Yuki Ido, Kenzo Yasuo
Materials and Methods
ACP Sheet Preparation.
Bartold, “Dentinal hypersensitivity: a review,” Australian Dental Journal 51, (2006) 212-218
Matsumoto, "Treatment of dentine hypersensitivity by lasers: a review," Journal of Clinical Periodontology, vol. 27 (2000) 715-721
Hayami, et al., "Regeneration of Tooth Enamel by Flexible Hydroxyapatite Sheet," Key Engineering Materials vol. 493-494 (2012) 615-619
Hontsu, “Evaluation of Dentin Tubule Sealing Rate Improved by Attaching Ultrathin Amorphous Calcium Phosphate Sheet,” Key Engineering Materials, vol. 631 (2014) 258–261 [9] O.
Bartold, “Dentinal hypersensitivity: a review,” Australian Dental Journal 51, (2006) 212-218
Matsumoto, "Treatment of dentine hypersensitivity by lasers: a review," Journal of Clinical Periodontology, vol. 27 (2000) 715-721
Hayami, et al., "Regeneration of Tooth Enamel by Flexible Hydroxyapatite Sheet," Key Engineering Materials vol. 493-494 (2012) 615-619
Hontsu, “Evaluation of Dentin Tubule Sealing Rate Improved by Attaching Ultrathin Amorphous Calcium Phosphate Sheet,” Key Engineering Materials, vol. 631 (2014) 258–261 [9] O.
Online since: January 2012
Authors: Yu Zhi Jiang, Yue Xin Han, Xiao Long Chen, Yong Sheng Sun
China.110004
2 College of Materials Engineering, ShenYang LiGong University, Shenyang, Liaoning,
P.R.
Experimental Experimental Materials.
Journal of Xi' an Highway University, 1997,17(4): 10-14
New Building Materials, (2010)p,.75-77
Journal of ASTM International, Vol.2 (2005), p.1-15
Experimental Experimental Materials.
Journal of Xi' an Highway University, 1997,17(4): 10-14
New Building Materials, (2010)p,.75-77
Journal of ASTM International, Vol.2 (2005), p.1-15
Online since: February 2012
Authors: Cai Gui Zheng, Dao Xian Yuan, Qing Yuan Yang, Xiao Cheng Zhang, Shi Chuan Li
Fig. 1 Location of Chongqing in China
Materials and Methods
Materials.
References [1] Wenchan Pan, “Establishing new mechanism of saving and intensive land use,” Journal of China Land, Beijing, vol. 9, pp.16-18, September 2009
[2] Zhicheng Wang and Yinrong Chen, “Study on the land saving and intensive use of development zones –a case study of Wuhan economic and technological development zone,” China Journal of Guangdong Land Science, Guangzhou, vol. 7, pp.14-17, February 2008
[6] Juge Feng, “Evaluation and countermeasures of intensive land use potential in Shanxi province,” Journal of China Land Science, Beijing, vol. 22, pp.39-45, August 2008.
Jing Wang, “Methodologies of intensive land use research: issues and trend,” China Journal of Progress in Geography, Beijing, vol. 27, pp.68-74, May 2008.
References [1] Wenchan Pan, “Establishing new mechanism of saving and intensive land use,” Journal of China Land, Beijing, vol. 9, pp.16-18, September 2009
[2] Zhicheng Wang and Yinrong Chen, “Study on the land saving and intensive use of development zones –a case study of Wuhan economic and technological development zone,” China Journal of Guangdong Land Science, Guangzhou, vol. 7, pp.14-17, February 2008
[6] Juge Feng, “Evaluation and countermeasures of intensive land use potential in Shanxi province,” Journal of China Land Science, Beijing, vol. 22, pp.39-45, August 2008.
Jing Wang, “Methodologies of intensive land use research: issues and trend,” China Journal of Progress in Geography, Beijing, vol. 27, pp.68-74, May 2008.
Online since: March 2007
Authors: Akira Shimamoto, Do Yeon Hwang, Kazuyoshi Takayama
In many cases, composite
materials have superiority over metals.
Damage by an impact takes the form of delamination of materials, and the rupture of fibers and/or layers; it could be a permanent change in materials even if damage is limited to a partial area.
Impact load causes effects on an adhesive part of different materials, and create a stress wave
Kim, Journal of Materials Science, 32(1) (1997), p. 23 [4] Roger L.
Crouch: Materials Forum, Vol. 12, (1988), p. 31
Damage by an impact takes the form of delamination of materials, and the rupture of fibers and/or layers; it could be a permanent change in materials even if damage is limited to a partial area.
Impact load causes effects on an adhesive part of different materials, and create a stress wave
Kim, Journal of Materials Science, 32(1) (1997), p. 23 [4] Roger L.
Crouch: Materials Forum, Vol. 12, (1988), p. 31
Online since: January 2013
Authors: Guo Zhong Li, Long Ma
The Preparation of Red Mud Lightweight Ceramsite
Long Ma, GuoZhong Lia*
Shandong Provincial Key Laboratory of Preparation and Measurement of Building Materials, School of Materials Science and Engineering, University of Jinan, Jinan 250022, China
amse_ligz@ujn.edu.cn, *correspondence author
Key words: red mud, fly ash, lightweight ceramsite, pore-forming agent
Abstract.
Lightweight ceramsite as a lightweight aggregate, has good thermal insulation properties, low bulk density, sound insulation, resistance of corrosion and high temperature, and can be used to produce new wall materials.
The formation process of lightweight ceramsite structure is that a series of chemical reactions of the raw materials (including the red mud, fly ash, etc.) occurd, which make green body to have a certain viscosity.
In this process, the gasses were released in raw materials, and expanded in the liquid phase to form a porous lightweight ceramsite structure[2].
Test proportion of materials was shown in Table 4.
Lightweight ceramsite as a lightweight aggregate, has good thermal insulation properties, low bulk density, sound insulation, resistance of corrosion and high temperature, and can be used to produce new wall materials.
The formation process of lightweight ceramsite structure is that a series of chemical reactions of the raw materials (including the red mud, fly ash, etc.) occurd, which make green body to have a certain viscosity.
In this process, the gasses were released in raw materials, and expanded in the liquid phase to form a porous lightweight ceramsite structure[2].
Test proportion of materials was shown in Table 4.
Online since: June 2014
Authors: Haitham B. Al-Wakeel, Hussain Hamoud Al-Kayiem, Z.A. Abdul Karim
Al-Kayiem, Journal of Applied Science Vol. 12 (23) (2012) 2338-2345
Yoshid, Journal of Heat Mass Transfer Vol. 41 (4-5) (1998) 709-718
Upadhyaya, Science of Sintering Vol. 42 (2010) 99-124
Di Blasi, Journal of Chemical Engineering Science Vol. 65 (2010) 4117–4133
Metaxas Time domain finite element analysis of multimode microwave applicators loaded with high and low loss materials, Proceeding of International Conference on Microwave and High Frequency Heating, Cambridge, UK, 1995
Yoshid, Journal of Heat Mass Transfer Vol. 41 (4-5) (1998) 709-718
Upadhyaya, Science of Sintering Vol. 42 (2010) 99-124
Di Blasi, Journal of Chemical Engineering Science Vol. 65 (2010) 4117–4133
Metaxas Time domain finite element analysis of multimode microwave applicators loaded with high and low loss materials, Proceeding of International Conference on Microwave and High Frequency Heating, Cambridge, UK, 1995