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Online since: October 2011
Authors: She Liang Wang, Zhuo Chen, Yu Jiang Fan, Qian Ying Ma
Drive components made in new functional materials and sensor would be embedded or attached to the structure.
By mechanical, thermal, optical, chemical, electrical, magnetic and other incentive and control, making the Intelligent structural materials not only had the ability to withstand loads, but also had a capacity of sense ,identify, analyze, judge, decision, response, control and actuation and etc. which the common structure did not have the Piezoelectric ceramic which was currently used in the structure as a sensor and an actuator was an Intelligent materials of active control of structural vibration and had a widely frequency response range,fast response, easy measurement, light weight, and etc., and had been extensively studied [4-6].
References [1] Sheliang Wang, Jianbo Dai, Seng Du and Xiang Zhao: Journal of Xi'an University of Architecture & Technology(Natural Science Edition), Vol.42(2010), p. 261-266,in Chinese
[4] Linquan Yao and Huanran Yu: Journal of Mechanics, Vol.31(1999), p. 111-116,in Chinese
[6] ZhiChun YANG and Wei WAN: Journal of Mechanical Strength, Vol.30(2008), p. 735-738,in Chinese
By mechanical, thermal, optical, chemical, electrical, magnetic and other incentive and control, making the Intelligent structural materials not only had the ability to withstand loads, but also had a capacity of sense ,identify, analyze, judge, decision, response, control and actuation and etc. which the common structure did not have the Piezoelectric ceramic which was currently used in the structure as a sensor and an actuator was an Intelligent materials of active control of structural vibration and had a widely frequency response range,fast response, easy measurement, light weight, and etc., and had been extensively studied [4-6].
References [1] Sheliang Wang, Jianbo Dai, Seng Du and Xiang Zhao: Journal of Xi'an University of Architecture & Technology(Natural Science Edition), Vol.42(2010), p. 261-266,in Chinese
[4] Linquan Yao and Huanran Yu: Journal of Mechanics, Vol.31(1999), p. 111-116,in Chinese
[6] ZhiChun YANG and Wei WAN: Journal of Mechanical Strength, Vol.30(2008), p. 735-738,in Chinese
Online since: August 2011
Authors: Li Li Zhang, Jun Ru Yang, Gong Ling Chen
(3)
Where, β is Dundurs parameter, k is related with Poisson's ratio υ, k=(3-υ)/(1+υ) for plane stress and k=3-4υ for plane strain, subscripts 1 and 2 refer to two kinds of materials, G1 and G2 are material shear modulus.
Acknowledgements This work is supported by Shandong Province Outstanding Young Scientist Research Award Fund (BS2009ZZ012), by Shandong Province Higher Educational Science and Technology Program (J10LD04) and also by Qingdao science and technology development plan (09-1-3-36-jch).
References [1] Arnd Jung, and Alexander Schnell: International Journal of Fatigue Vol. 30 (2008), p. 286-291 [2] F.
Zhao, etal: Composites Science and Technology Vol. 64 (2004), p. 1795-1803 [3] W.
W. and Hutchinson: International Journal of Fracture Vol. 43 (1990), p. 1-18 [7] Dundurs J: Mathematical Theory of Dislocation, American Society of Mechanical Engineer, Now York, (1969), p. 70-115 [8] Edit Committee of Handbook of Property Data of Materials for Mechanical Engineering: Handbook of Property Data of Materials for Mechanical Engineering, Mechanical Industry Publishing House, Beijing (1995) (In Chinese)
Acknowledgements This work is supported by Shandong Province Outstanding Young Scientist Research Award Fund (BS2009ZZ012), by Shandong Province Higher Educational Science and Technology Program (J10LD04) and also by Qingdao science and technology development plan (09-1-3-36-jch).
References [1] Arnd Jung, and Alexander Schnell: International Journal of Fatigue Vol. 30 (2008), p. 286-291 [2] F.
Zhao, etal: Composites Science and Technology Vol. 64 (2004), p. 1795-1803 [3] W.
W. and Hutchinson: International Journal of Fracture Vol. 43 (1990), p. 1-18 [7] Dundurs J: Mathematical Theory of Dislocation, American Society of Mechanical Engineer, Now York, (1969), p. 70-115 [8] Edit Committee of Handbook of Property Data of Materials for Mechanical Engineering: Handbook of Property Data of Materials for Mechanical Engineering, Mechanical Industry Publishing House, Beijing (1995) (In Chinese)
Online since: October 2011
Authors: V. Miclaus, C. Ober, I. Ratiu, Cristian Ratiu, O. Ponta, Simona Cavalu
Grafting materials for major sinus lift
C.
Ponta3 1University of Oradea, Faculty of Medicine and Pharmacy, Oradea, Romania 2 University of Agricultural Sciences and Veterinary Medicine, Faculty of Veterinary Medicine, Cluj-Napoca, Romania 3 Babes-Bolyai University, Faculty of Physics & Institute of Interdisciplinary Research in Bio-Nano-Sciences, Cluj-Napoca, Romania a ratiu_cristian@yahoo.com, b scavalu@rdslink.ro, Key words: Plasma Rich in Growth Factors, Equine bone, Porous titanium Abstract: The materials used for major sinus lift varies from autogenous or allogenous bone, to animal origin (xenograft) bone or synthetic (alloplastic) materials.
Disadvantages of using autogenous bone lead some authors to use bone substitution materials for sinus grafting [1].
Material and method The grafting materials used in tis study are equine bone ( by BIOTECK) and porous titanium (by Tigran -80% air and 20% pure titanium).
Conclusions The study presents a comparison between two clinical cases using different grafting materials.
Ponta3 1University of Oradea, Faculty of Medicine and Pharmacy, Oradea, Romania 2 University of Agricultural Sciences and Veterinary Medicine, Faculty of Veterinary Medicine, Cluj-Napoca, Romania 3 Babes-Bolyai University, Faculty of Physics & Institute of Interdisciplinary Research in Bio-Nano-Sciences, Cluj-Napoca, Romania a ratiu_cristian@yahoo.com, b scavalu@rdslink.ro, Key words: Plasma Rich in Growth Factors, Equine bone, Porous titanium Abstract: The materials used for major sinus lift varies from autogenous or allogenous bone, to animal origin (xenograft) bone or synthetic (alloplastic) materials.
Disadvantages of using autogenous bone lead some authors to use bone substitution materials for sinus grafting [1].
Material and method The grafting materials used in tis study are equine bone ( by BIOTECK) and porous titanium (by Tigran -80% air and 20% pure titanium).
Conclusions The study presents a comparison between two clinical cases using different grafting materials.
Online since: December 2025
Authors: Alejandro Morales-Ortiz, Camilo Seifert, Sebastian Acuña, Andres Felipe Duque, Daniel Hincapie
Journal of Materials Science 35 (2000) 6259-6269
Materials Science and Technology 17(4) (2001) 401-409
Materials Science and Engineering: A 693 (2017) 22-31
Materials Science and Engineering 63(2) (1984) 163-172
Engineering Materials Science and Technology, ASME 116(2) (1994) 345-350
Materials Science and Technology 17(4) (2001) 401-409
Materials Science and Engineering: A 693 (2017) 22-31
Materials Science and Engineering 63(2) (1984) 163-172
Engineering Materials Science and Technology, ASME 116(2) (1994) 345-350
Online since: December 2016
Authors: Oleksandr Umanskyi, Olena Poliarus, Irina Boiko, Yevheniia Puhachevska
As a result, the material does not meet the requirements for corrosion-resistant materials.
Welding Journal (2015) 225-230
Journal of Superhard Materials. 37 (2015) 253-261
J.Metal Science & Treatment of Metals. 4 (2015) 24-30
Problems of corrosion protection of materials.
Welding Journal (2015) 225-230
Journal of Superhard Materials. 37 (2015) 253-261
J.Metal Science & Treatment of Metals. 4 (2015) 24-30
Problems of corrosion protection of materials.
Online since: April 2008
Authors: Ji Zhang, Zhu Bin He, Shi Jian Yuan
Investigation of Relationship between Material Flow Direction and Local
Stress Field in Plastic Deformation
Ji ZHANG, Zhubin HE, Shijian YUAN
School of Materials Science and Engineering, Harbin Institute of Technology, Harbin 150001, P.
Journal of Materials Processing Technology 95 (1999), p. 55-64
Journal of Materials Processing Technology 125-126 (2002), p. 588-593 [5] B.
Journal of Materials Processing Technology 54 (1995), p. 120-128 [6] J.J.
Lowhaphandu: Effects of hydrostatic pressure on mechanical behaviour and deformation processing of materials.
Journal of Materials Processing Technology 95 (1999), p. 55-64
Journal of Materials Processing Technology 125-126 (2002), p. 588-593 [5] B.
Journal of Materials Processing Technology 54 (1995), p. 120-128 [6] J.J.
Lowhaphandu: Effects of hydrostatic pressure on mechanical behaviour and deformation processing of materials.
Online since: December 2023
Authors: Chakrit Suvanjumrat, Thaman Toobunterng, Jaroonrut Prinyakupt
The behavior model of Ogden hyperelastic materials showed the highest similarity to the behavior of foam materials.
Future study is to find appropriate constant values for the materials that present accurate results for actual foam materials.
Journal of the American Geriatrics Society, 66(4), 693–698
Springer Science and Business Media LLC
Pt-Journal Articles
Future study is to find appropriate constant values for the materials that present accurate results for actual foam materials.
Journal of the American Geriatrics Society, 66(4), 693–698
Springer Science and Business Media LLC
Pt-Journal Articles
Online since: November 2013
Authors: Norlina M. Sabri, Mazidah Puteh, Mohamad Rusop Mahmood
The papers from this review were obtained from relevant databases and from various scientific journals.
A few of the papers were collected from conference proceedings, while most of them were collected from journals such as Expert Systems with Applications, Vacuum, Journal Of Materials Science: Materials In Electronics, International Journal Of Precision Engineering And Manufacturing, IEEE Transactions On Automation Science And Engineering, Applied Mechanics and Materials, Surface & Coatings Technology, Defect and Diffusion Forum and Journal Of Semiconductor Technology And Science.
Kim, Optimization of transmittance characteristic of indium tin oxide film using neural networks, Metals and Materials International. 16 (2010) 793-797
Science, N.
Hashim, Application of Fuzzy Rule-Based Model to Predict TiAlN Coatings Roughness, Applied Mechanics and Materials. 110-116 (2011) 1072-1079
A few of the papers were collected from conference proceedings, while most of them were collected from journals such as Expert Systems with Applications, Vacuum, Journal Of Materials Science: Materials In Electronics, International Journal Of Precision Engineering And Manufacturing, IEEE Transactions On Automation Science And Engineering, Applied Mechanics and Materials, Surface & Coatings Technology, Defect and Diffusion Forum and Journal Of Semiconductor Technology And Science.
Kim, Optimization of transmittance characteristic of indium tin oxide film using neural networks, Metals and Materials International. 16 (2010) 793-797
Science, N.
Hashim, Application of Fuzzy Rule-Based Model to Predict TiAlN Coatings Roughness, Applied Mechanics and Materials. 110-116 (2011) 1072-1079
Online since: September 2021
Authors: Oleg V. Gradov, Anatoly A. Olkhov, Margaret A. Gradova, Elena A. Grigorieva
Journal of Thermoplastic Composite Materials 31 (2018) 1470-1482
Mano, The double porogen approach as a new technique for the fabrication of interconnected poly (L-lactic acid) and starch based biodegradable scaffolds, Journal of Materials Science: Materials in Medicine 18 (2007) 185-193
Ho, Preparation of porous 45S5 Bioglass®-derived glass–ceramic scaffolds by using rice husk as a porogen additive, Journal of Materials Science: Materials in Medicine 20 (2009) 1229-1236
Materials Science Forum 861 (2016) 247-252
Ghassemieh, Control of morphological properties of porous biodegradable scaffolds processed by supercritical CO2 foaming, Journal of Materials Science 48 (2013) 3254-3263
Mano, The double porogen approach as a new technique for the fabrication of interconnected poly (L-lactic acid) and starch based biodegradable scaffolds, Journal of Materials Science: Materials in Medicine 18 (2007) 185-193
Ho, Preparation of porous 45S5 Bioglass®-derived glass–ceramic scaffolds by using rice husk as a porogen additive, Journal of Materials Science: Materials in Medicine 20 (2009) 1229-1236
Materials Science Forum 861 (2016) 247-252
Ghassemieh, Control of morphological properties of porous biodegradable scaffolds processed by supercritical CO2 foaming, Journal of Materials Science 48 (2013) 3254-3263
Online since: September 2021
Authors: Andrey A. Askadskii, Tatyana A. Matseevich, Valerii I. Kondrashchenko, C. Wang
Materials and Methods
Materials for sleepers were prepared on the basis of the production of wood-polymer composites (WPC) by Savewood.
Materials[J].
Stroitel’nye Materialy [Construction Materials]. 2020.
Journal of Railway Science and Engineering. 2019, 3.
Stroitel’nye Materialy [Construction Materials]. 2018.
Materials[J].
Stroitel’nye Materialy [Construction Materials]. 2020.
Journal of Railway Science and Engineering. 2019, 3.
Stroitel’nye Materialy [Construction Materials]. 2018.