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Online since: June 2012
Authors: Yan An, Hua Yin, Huan Yu Jin, Xing Liu, Jian Liu, Da Peng Wang, Yu Liu
Recently, it is developed as many other kinds of biomedical materials, such as bone repair material, artificial blood vessel, microcapsules, artificial skin, urethral defect repair material, medical biological dressings and so on[1].
Some people have allergic reaction after use the silk materials.
Academic Journal of Jiangsu University (medicine), 2003, 13(1): 1-3
Advanced Materials Research, 2011, (197-198): 27-31 [4] Zhonghou Zheng, Yanqiong Wei, Shuqin Yan et al.
Journal of Applied Polymer Science, 2010, (116): 461–467 [5] Yongcheng Liu, Zhengzhong Shao, Yuyu Sun.
Some people have allergic reaction after use the silk materials.
Academic Journal of Jiangsu University (medicine), 2003, 13(1): 1-3
Advanced Materials Research, 2011, (197-198): 27-31 [4] Zhonghou Zheng, Yanqiong Wei, Shuqin Yan et al.
Journal of Applied Polymer Science, 2010, (116): 461–467 [5] Yongcheng Liu, Zhengzhong Shao, Yuyu Sun.
Online since: May 2014
Authors: Odd Sture Hopperstad, Magnus Langseth, Ørjan Fyllingen
The material came from the same coil as the material used in previous investigations by Tarigopula et al. [1]-[4].
According to Logan and Hosford [10] the exponent of the yield surface is typically 6 for bcc materials, which was used herein.
Acknowledgement The experimental tests were carried out at SIMLab-Centre for Research-based Innovation at the Norwegian University of Science and Technology.
Clausen, Elastic-plastic behaviour of dual-phase, high-strength steel under strain-path changes, European Journal of Mechanics –A/solids 27:5 (2008) 764-782
Chaboche, Mechanics of Solids Materials, Cambridge University Press, 1990
According to Logan and Hosford [10] the exponent of the yield surface is typically 6 for bcc materials, which was used herein.
Acknowledgement The experimental tests were carried out at SIMLab-Centre for Research-based Innovation at the Norwegian University of Science and Technology.
Clausen, Elastic-plastic behaviour of dual-phase, high-strength steel under strain-path changes, European Journal of Mechanics –A/solids 27:5 (2008) 764-782
Chaboche, Mechanics of Solids Materials, Cambridge University Press, 1990
Online since: October 2011
Authors: Ji Zhao, De Xu Geng, Lei Zhang, Yun Wei Zhao
Mechanical Properties Analysis on Elongation Type of Pneumatic Artificial Muscles
Geng Dexu 1,2, Zhao Ji 1, Zhang Lei 1 and Zhao Yunwei 1,2
1College of Mechanical Science and Engineering, Jilin University,Changchun 130022, P.R.
Rubber is hyperelastic and it is a kind of material with large deformation and nonlinearity which deformation rate can reach 600% or more.
In this paper, the material nonlinearity of rubber can ignore as the elongation of PAM is controlled within 50%.
Caldwell, “Natural and artificial muscle elements as robot actuators,” Journal of Mechatronics, vol. 3,1993, pp. 269-283
Suzumori, “Elastic materials producing compliant robots,” Robotics and Autonomous Systems, vol.18, 1996, pp. 135-140
Rubber is hyperelastic and it is a kind of material with large deformation and nonlinearity which deformation rate can reach 600% or more.
In this paper, the material nonlinearity of rubber can ignore as the elongation of PAM is controlled within 50%.
Caldwell, “Natural and artificial muscle elements as robot actuators,” Journal of Mechatronics, vol. 3,1993, pp. 269-283
Suzumori, “Elastic materials producing compliant robots,” Robotics and Autonomous Systems, vol.18, 1996, pp. 135-140
Online since: July 2021
Authors: Inna Lavrova, Anna Cherkashina, Vladimir Lebedev
In particular, this applies to waterproofing materials manufacture able of providing resistance to the cracks formation in the cold and heat resistance of structures from them at elevated temperatures in summer.
Therefore, now great importance is attached to improving the properties of such traditional waterproofing roofing materials as bitumen [1].
It should be noted that the working plasticity interval of the required materials should be not less than 100 ° C, and in the best brands of road bitumens we have ~ 70 ° C.
In the conditions of industrial experiment the results of researches of physical and mechanical properties of roofing materials of the PromIzol brand and a new roofing material on the basis of the developed bituminous-polymeric composition were compared.
Khakimullin, R.Kazakulov, Bitumen chemical modification by a thermoplastic polymer, IOP Conference Series: Materials Science and Engineering. 890 (2020) 012094
Therefore, now great importance is attached to improving the properties of such traditional waterproofing roofing materials as bitumen [1].
It should be noted that the working plasticity interval of the required materials should be not less than 100 ° C, and in the best brands of road bitumens we have ~ 70 ° C.
In the conditions of industrial experiment the results of researches of physical and mechanical properties of roofing materials of the PromIzol brand and a new roofing material on the basis of the developed bituminous-polymeric composition were compared.
Khakimullin, R.Kazakulov, Bitumen chemical modification by a thermoplastic polymer, IOP Conference Series: Materials Science and Engineering. 890 (2020) 012094
Online since: May 2011
Authors: Hong Nan Li, Hui Qian, Di Cui, Huai Chen
Proceedings of SPIE: Smart Structures and materials & Nondestructive Evaluation and health Monitoring.
Proceedings of SPIE: Smart Structures and materials & Nondestructive Evaluation and health Monitoring.
Smart Materials and Structures, 17, 1-10 (2008)
Gu, Smart Materials and Structures, 15, 309-314 (2006)
Proceedings of SPIE: Smart Structures and materials & Nondestructive Evaluation and health Monitoring.
Proceedings of SPIE: Smart Structures and materials & Nondestructive Evaluation and health Monitoring.
Smart Materials and Structures, 17, 1-10 (2008)
Gu, Smart Materials and Structures, 15, 309-314 (2006)
Proceedings of SPIE: Smart Structures and materials & Nondestructive Evaluation and health Monitoring.
Online since: April 2023
Authors: Katsuyuki Kida, Takahiro Matsueda, Koshiro Mizobe, Yuki Nakasone, Li Xiang
[3] Jin-Young Choi, Joonoh Moon, Jae-Hoon Jang, Tae-Ho Lee, Hyun-Uk Hong, Hyoung Chan Kim, Nam Hyun Kang, Jong-Ho Shin, Chang-Hoon Lee, Enhancement of mechanical properties by repeated heat treatment in reduced activation ferritic/martensitic steel with Ta and Ti, Journal of Nuclear Materials 557 (2021) 153321
Wang, Martensitic transformations in AISI 440C stainless steel, Materials Science and Engineering: A 438-440 (2006) 276-280
Khan, Effect of Repeated Thermal Cycling on the Formation of Retained Austenite in 18%Ni 350 Grade Maraging Steel, Materials Transactions 39 9 (1998) 995-999
Rozwadowska, Fatigue strength improvement of AISI E52100 bearing steel by induction heating and repeated quenching, Materials Science. 47 5 (2011) 677-682
Rozwadowska, Effect of repeated induction heating on fatigue crack propagation in SAE 52100 bearing steel, Advanced Materials Research. 217-218 (2011) 1266-1271
Wang, Martensitic transformations in AISI 440C stainless steel, Materials Science and Engineering: A 438-440 (2006) 276-280
Khan, Effect of Repeated Thermal Cycling on the Formation of Retained Austenite in 18%Ni 350 Grade Maraging Steel, Materials Transactions 39 9 (1998) 995-999
Rozwadowska, Fatigue strength improvement of AISI E52100 bearing steel by induction heating and repeated quenching, Materials Science. 47 5 (2011) 677-682
Rozwadowska, Effect of repeated induction heating on fatigue crack propagation in SAE 52100 bearing steel, Advanced Materials Research. 217-218 (2011) 1266-1271
Online since: September 2014
Authors: Xin Hong Xiong, Dun Miao Quan, Qiao Xin Zhang, Yun Chen, Jia Lin Chen
Materials and Methods
The components of magnesium alloys are shown in Table 1.
Rong Ma from Huazhong University of Science & Technology for his help.
The Chinese Journal of Nonferrous Metals, Vol.21 (2011), p.2709 [2] DRITS M.E, SVIDERKAYA Z.
Aerospace Materials & Technology, Vol.1 (2012), p.57 [10] D.eliezer, P.uzan, E.aghion: Materials Science Forum (2000), p.857- 866 [11] Wu Yujing, Ding Wenjiang, Peng Liming, Zeng Xiaoqing, Li Dongliang: Materials China, Vol.30 (2011), p.1-10 [12] Yuan G.Y, Kato H, Amiya K, et al.
Journal Materials Research, Vol.20 (2005), p.1278
Rong Ma from Huazhong University of Science & Technology for his help.
The Chinese Journal of Nonferrous Metals, Vol.21 (2011), p.2709 [2] DRITS M.E, SVIDERKAYA Z.
Aerospace Materials & Technology, Vol.1 (2012), p.57 [10] D.eliezer, P.uzan, E.aghion: Materials Science Forum (2000), p.857- 866 [11] Wu Yujing, Ding Wenjiang, Peng Liming, Zeng Xiaoqing, Li Dongliang: Materials China, Vol.30 (2011), p.1-10 [12] Yuan G.Y, Kato H, Amiya K, et al.
Journal Materials Research, Vol.20 (2005), p.1278
Online since: February 2014
Authors: Chun Lei Zhang, Shun Cai Wang, Fan Lu Min
Materials and Methods
Materials.
For ordinary earthwork filling materials, the UCS strength of 100 kPa can meet most of the requirements.
Journal of Environmental Management.
Journal of Hazardous Materials.
Materials Letters.
For ordinary earthwork filling materials, the UCS strength of 100 kPa can meet most of the requirements.
Journal of Environmental Management.
Journal of Hazardous Materials.
Materials Letters.
Online since: October 2009
Authors: Jin Song Leng, Guang Ping Zou, Bo Zhou, Yan Ju Liu
In 1986,
Tanaka[4] developed an exponential-type model from the nucleation kinetics differential equation for
metal materials.
Yoon et al.: Key Engineering Materials, Vol. 385-387 (2008), p. 213 [2] B.
Yoon: Key Engineering Materials, Vol. 324-325 (2006), p. 335 [3] C.
Brinson: Journal of Intelligent Material Systems and Structures, Vol.4(1993), p. 229 [6] B.
Yoon: Smart Materials and Structures, Vol.15 (2006), p. 1967
Yoon et al.: Key Engineering Materials, Vol. 385-387 (2008), p. 213 [2] B.
Yoon: Key Engineering Materials, Vol. 324-325 (2006), p. 335 [3] C.
Brinson: Journal of Intelligent Material Systems and Structures, Vol.4(1993), p. 229 [6] B.
Yoon: Smart Materials and Structures, Vol.15 (2006), p. 1967
Online since: July 2023
Authors: R.J. Rumampuk, Heindrich Taunaumang, P.M. Silangen, Rymond Rumampuk
This molecule is known as conjugated organic molecules and interesting materials because of their structures and their electronic, optical properties [6,7].
Method Materials Material used in this experiment was Disperse Orange 3 (DO3).
This material is known as optical nonlinear (ONL) material.
[2] Taunaumang, H., Hidayat R, Herman et al, Effects of substrate temperature and external poling field on molecular orientation and aggregation in vaccum deposited photoresponsive DR 1 films Journal of Nonlinear Optica Physics & Materials 12 (2) 213-219 Jan 2003
Saha‐Möller, J‐ Aggregates: From Serendipitous Discovery to Supramolecular Engineering of Functional Dye Materials, 25 March 2011, https://doi.org/10.1002/anie.201002307 [14] Arri Priimagi, Andriy Shevchenko, M.
Method Materials Material used in this experiment was Disperse Orange 3 (DO3).
This material is known as optical nonlinear (ONL) material.
[2] Taunaumang, H., Hidayat R, Herman et al, Effects of substrate temperature and external poling field on molecular orientation and aggregation in vaccum deposited photoresponsive DR 1 films Journal of Nonlinear Optica Physics & Materials 12 (2) 213-219 Jan 2003
Saha‐Möller, J‐ Aggregates: From Serendipitous Discovery to Supramolecular Engineering of Functional Dye Materials, 25 March 2011, https://doi.org/10.1002/anie.201002307 [14] Arri Priimagi, Andriy Shevchenko, M.