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Online since: June 2011
Authors: R. Mascorro, M. Corea
These materials can be obtained through emulsion polymerization[3].
Materials and methods Materials.
All materials were produced with high solid contents (43 wt%).
Journal of Applied Polymer Science, 1997. 65(12): p. 2343-2355
Journal of Applied Polymer Science, 2003. 89(10): p. 2749-2756.
Materials and methods Materials.
All materials were produced with high solid contents (43 wt%).
Journal of Applied Polymer Science, 1997. 65(12): p. 2343-2355
Journal of Applied Polymer Science, 2003. 89(10): p. 2749-2756.
Online since: December 2004
Authors: Dan Li, Ming Jun Chen, W.X. Guo
Materials Science Forum Vols. *** (2004) pp.155-161
online at http://scientific.net
2004 Trans Tech Publications, Switzerland
Research of the Complex Surface Algorithm Based on Recursive
Subdivision Numeric Control Interpolation
M.J.
Principle of NC Interpolation Algorithmic Based on Recursive Subdivision Advances in Materials Manufacturing Science and Technology 156 Construct of Initial Mesh.
After the third interpolation, we get Fig.9 c), Fig.9 d) is filled in picture of Fig.9 c) all meshes, from this picture we can obviously see, the profile a) initial meshes construction b) first approach c) the third approach d) filling picture after the third approach Fig.9 Complex surface's recursive approach (human's face) Fig.10 End interface of open-style NC system and the NC code of human's face curved surface Advances in Materials Manufacturing Science and Technology 160 is very smooth.
c) non-uniform B-spline interpolation graph d) recursive subdivision interpolation graph Fig.11 Modeling, simulation and machining effect of this human's curved surface a) modeling of human face curved surface b) the simulation picture of curved surface milling Materials Science Forum Vols. *** 161 (2) For the recursion subdivision algorithm, its interpolation error can be controlled, and step- length change is very small.
Reif: SIAM Journal of Numerical Analysis Vol. 35(2) (1998), p. 728 [3] Marchenko Tikhon, Tae Jo Ko, Seung Hyun Lee, et al: International Journal of Machine Tools and Manufacture Vol. 44(2) (2004), p. 237 [4] A.
Principle of NC Interpolation Algorithmic Based on Recursive Subdivision Advances in Materials Manufacturing Science and Technology 156 Construct of Initial Mesh.
After the third interpolation, we get Fig.9 c), Fig.9 d) is filled in picture of Fig.9 c) all meshes, from this picture we can obviously see, the profile a) initial meshes construction b) first approach c) the third approach d) filling picture after the third approach Fig.9 Complex surface's recursive approach (human's face) Fig.10 End interface of open-style NC system and the NC code of human's face curved surface Advances in Materials Manufacturing Science and Technology 160 is very smooth.
c) non-uniform B-spline interpolation graph d) recursive subdivision interpolation graph Fig.11 Modeling, simulation and machining effect of this human's curved surface a) modeling of human face curved surface b) the simulation picture of curved surface milling Materials Science Forum Vols. *** 161 (2) For the recursion subdivision algorithm, its interpolation error can be controlled, and step- length change is very small.
Reif: SIAM Journal of Numerical Analysis Vol. 35(2) (1998), p. 728 [3] Marchenko Tikhon, Tae Jo Ko, Seung Hyun Lee, et al: International Journal of Machine Tools and Manufacture Vol. 44(2) (2004), p. 237 [4] A.
Online since: April 2023
Authors: Blessie A. Basilia, Mark Anthony R. Agbayani, Marianito T. Margarito, Marissa A. Paglicawan
Methodology
Materials.
Materials and Design Volume 31 (2010) pp. 850-856
Paull: Recent developments in 3D printable composite materials.
Serban: Fabrication and characterization of LDPE and HDPE filaments for 3D printing, Journal of Engineering Sciences and Innovation Volume 3, Issue 4 (2018) pp. 299-312
Comprehensive Composite Materials 2 Volume 3 (2017)
Materials and Design Volume 31 (2010) pp. 850-856
Paull: Recent developments in 3D printable composite materials.
Serban: Fabrication and characterization of LDPE and HDPE filaments for 3D printing, Journal of Engineering Sciences and Innovation Volume 3, Issue 4 (2018) pp. 299-312
Comprehensive Composite Materials 2 Volume 3 (2017)
Online since: September 2011
Authors: Lin Hui Wan, Yong Heng Huang, Ping Cao, Yi Xian Wang, Xiang Yang Zhang
Liu: Chinese Journal of Rock Mechanics and Engineering.
Wan: Chinese Journal of Rock Mechanics and Engineering.
Technol (Natural Science Edition).
Gao: Chinese Journal of Geotechnical Engineering, Vol.27(2005), p.1273.
Xu: Chinese Journal of Geotechnical Engineering, Vol.28(2006), p.796 (In Chinese) [15] NAPIER J A L, MALAN D F: International Journal of Rock Mechanics and Mining Sciences, Vol. 34(1997), p.1075
Wan: Chinese Journal of Rock Mechanics and Engineering.
Technol (Natural Science Edition).
Gao: Chinese Journal of Geotechnical Engineering, Vol.27(2005), p.1273.
Xu: Chinese Journal of Geotechnical Engineering, Vol.28(2006), p.796 (In Chinese) [15] NAPIER J A L, MALAN D F: International Journal of Rock Mechanics and Mining Sciences, Vol. 34(1997), p.1075
Online since: October 2014
Authors: Li De Zhan, Pin Gang Liu, Fan Cong Zeng, Li Ying Zhao
Experimental
Materials and sample preparation.
Carbonyl iron production (YTF-P1) with particle size of from 2μm to 5μm was obtained from Yuean Metal Materials Co., Ltd.
Chinese Journal of Materials Research, 22(2008) 102-106
Li, S.C.Ying, Microwave absorption properties of carbonyl iron/EPDM composite, Materials Science & Technology, 16(2008)589-592
He, Preparation and microwave absorbing properties of muti-layered radar(microwave) absorbing materials composites, Journal of Inorganic Materials, 21(2006)1449-1453.
Carbonyl iron production (YTF-P1) with particle size of from 2μm to 5μm was obtained from Yuean Metal Materials Co., Ltd.
Chinese Journal of Materials Research, 22(2008) 102-106
Li, S.C.Ying, Microwave absorption properties of carbonyl iron/EPDM composite, Materials Science & Technology, 16(2008)589-592
He, Preparation and microwave absorbing properties of muti-layered radar(microwave) absorbing materials composites, Journal of Inorganic Materials, 21(2006)1449-1453.
Online since: June 2012
Authors: Chao Tsang Lu, Ching Wen Lou, Jia Horng Lin, Wen Cheng Chen, Ming Sheng Huang, Chiung Yun Chang
Preliminary Study in Cross-Linked Gelatin/Alginate Sponges
Ching-Wen Lou1, Ming-Sheng Huang2, Chiung-Yun Chang3, Chao-Tsang Lu4,a, Wen-Cheng Chen5 and Jia-Horng Lin2,6,b
1Institute of Biomedical Engineering and Material Science, Central Taiwan University of Science and Technology, Taichung 406, Taiwan, R.O.C.
2Laboratory of Fiber Application and Manufacturing, Department of Fiber and Composite Materials, Feng Chia University, Taichung City 407, Taiwan, R.O.C.
3Department of Dental Technology and Materials Science, Central Taiwan University of Science and Technology, Taichung 406, Taiwan, R.O.C.
4Institute of Life Sciences, Central Taiwan University of Science and Technology, Taichung 406, Taiwan, R.O.C.
5Advanced Medical Devices and Composite Laboratory, Department of Fiber and Composite Materials, Feng Chia University, Taichung City 407, Taiwan, R.O.C.
6School of Chinese Medicine, China Medical University, Taichung 40402, Taiwan, R.O.C.
Experimental 2.1 Materials Gelatin (Sigma-Aldrich Co., LLC., U.S.) is extracted from pig skin by method Type A.
Acknowledgment This work would especially like to thank National Science Council of the Taiwan, for financially supporting this research under Contract NSC 99-2622-E-166-004.
[3] Groves A R,Alginate Dressing as a Donor Site Haemostat[J], Annals of the Royal College of Surgeons of England, 1986, 68: 27-28 [4] Bowler P G, Infection Control Properties of some Wound Dressings, J Wound Care, 1999, 8(10):499-502 [5] Guang Yang, Effects of Ca2+ bridge crosslinking on structure and pervaporation of cellulose/alginate blemd membranes, Journal of Membrane Science 175, 2000, p. 53-60 [6] X.
Experimental 2.1 Materials Gelatin (Sigma-Aldrich Co., LLC., U.S.) is extracted from pig skin by method Type A.
Acknowledgment This work would especially like to thank National Science Council of the Taiwan, for financially supporting this research under Contract NSC 99-2622-E-166-004.
[3] Groves A R,Alginate Dressing as a Donor Site Haemostat[J], Annals of the Royal College of Surgeons of England, 1986, 68: 27-28 [4] Bowler P G, Infection Control Properties of some Wound Dressings, J Wound Care, 1999, 8(10):499-502 [5] Guang Yang, Effects of Ca2+ bridge crosslinking on structure and pervaporation of cellulose/alginate blemd membranes, Journal of Membrane Science 175, 2000, p. 53-60 [6] X.
Online since: June 2013
Authors: Fritz Klocke, Fabian Schongen, Patrick Mattfeld, Sergej Rjasanow, Marvin Fleck, Richards Grzhibovskis
Joun, Prediction of geometric dimensions for cold forgings using the finite element method, Journal of Materials Processing Technology 189 (2007) 459-465
Ishikawa, Analysis of the elastic characteristics at forging die for the cold forged dimensional accuracy, Journal of Materials Processing Technology 130-131 (2002) 532-539
Ishikawa, Experimental and analytical evaluation for elastic deformation behaviors of cold forging tool, Journal of Materials Processing Technology 127 (2002) 73-82
Bettess, The coupling of the finite element method and boundary solution procedures, International Journal for Numerical Methods in Engineering 11 (1977), 355–375
Rjasanow, Analysis of the deep rolling process on turbine blades using the FEM/BEM-coupling, in: Proceedings of IOP Conference Series: Materials Science and Engineering, 10, 2010, pp. 1-10
Ishikawa, Analysis of the elastic characteristics at forging die for the cold forged dimensional accuracy, Journal of Materials Processing Technology 130-131 (2002) 532-539
Ishikawa, Experimental and analytical evaluation for elastic deformation behaviors of cold forging tool, Journal of Materials Processing Technology 127 (2002) 73-82
Bettess, The coupling of the finite element method and boundary solution procedures, International Journal for Numerical Methods in Engineering 11 (1977), 355–375
Rjasanow, Analysis of the deep rolling process on turbine blades using the FEM/BEM-coupling, in: Proceedings of IOP Conference Series: Materials Science and Engineering, 10, 2010, pp. 1-10
Online since: July 2011
Authors: Yuan Ming Song, Bo Wang
Coal ashes are wildly used in building materials for their high pozzolanic activity from the amorphous substances.
Experimental Materials.
Acknowledgements This work was financially supported by the National Natural Science Foundation of China (Grant No.50802082), the Programs for Science and Technology Development of Shandong Province, China (Grant No.2010GCG20319) and the Natural Science Foundation of Shandong Province, China (Grant No.ZR2010EM058).
[7] Dongxu Li: Materials Review (in Chinese) Vol. 15(2001), p.68
[8] Jueshi Qian, Hongwei Zheng and Zhi Wang: Journal of China Coal Society (in Chinese) Vol. 31(2006), p.506.
Experimental Materials.
Acknowledgements This work was financially supported by the National Natural Science Foundation of China (Grant No.50802082), the Programs for Science and Technology Development of Shandong Province, China (Grant No.2010GCG20319) and the Natural Science Foundation of Shandong Province, China (Grant No.ZR2010EM058).
[7] Dongxu Li: Materials Review (in Chinese) Vol. 15(2001), p.68
[8] Jueshi Qian, Hongwei Zheng and Zhi Wang: Journal of China Coal Society (in Chinese) Vol. 31(2006), p.506.
Online since: March 2012
Authors: Michele Conconi, Vincenzo Parenti Castelli
Biological tissues tend to achieve the necessary mechanical resistance with the smallest amount of material (functional adaptation).
Conversely, adapted tissues employ their material optimally, maximizing their mechanical resistance.
Defining by the six dimensional vector of the coordinates representing the configuration of the tibio-talar joint, it is possible to write the following function f for CM: (3) Materials and Methods On the adapted trajectory and the passive motion.
Mow, “Biomechanics of articular cartilage and determination of material properties,” Med Sci Sports Exerc, vol. 40, pp. 193–199, Feb 2008
O’Connor, “The components of passive knee move-ment are coupled to flexion angle,” Journal of Biomechanics, vol. 33, no. 4, pp. 465 – 473, 2000
Conversely, adapted tissues employ their material optimally, maximizing their mechanical resistance.
Defining by the six dimensional vector of the coordinates representing the configuration of the tibio-talar joint, it is possible to write the following function f for CM: (3) Materials and Methods On the adapted trajectory and the passive motion.
Mow, “Biomechanics of articular cartilage and determination of material properties,” Med Sci Sports Exerc, vol. 40, pp. 193–199, Feb 2008
O’Connor, “The components of passive knee move-ment are coupled to flexion angle,” Journal of Biomechanics, vol. 33, no. 4, pp. 465 – 473, 2000
Online since: April 2020
Authors: Chanchana Thanachayanont, Adisorn Tuantranont, Thapanee Sarakonsri, Thammanoon Kapanya
Application of Microwave Radiation in Modified Polyol Process for Synthesis Pure, Te-Doped, and Sn-Doped CoSb3 Thermoelectric Materials
Thammanoon Kapanya1,2, Chanchana Thanachayanont3, Adisorn Tuantranont2,4, Thapanee Sarakonsri1,2*
1Department of Chemistry, Faculty of Science, Chiang Mai University, Chiang Mai, 50200, Thailand
2Center of Advanced Materials for Printed Electronics and Sensors, Materials Science Research Center, Faculty of Science, Chiang Mai University, Chiang Mai 50200, Thailand
3National Metal and Materials Technology Center, National Science and Technology Development Agency, Klong Luang, Pathumthani 12120, Thailand
4National Security and Dual-Use Technology Center, National Science and Technology Development Agency, Pathumthani 12120, Thailand
Presenter e-mail address: arm_tmn_kpy@hotmail.co.th
*thapanee.s@cmu.ac.th
Keywords: Modified polyol process; Microwave radiation; Doped CoSb3; Short
They can be produced easily, fast from relatively cheap and abundant starting materials when compared to the other thermoelectric (TE) materials.
Acknowledgements This work is financially supported by Center of Excellence in Advanced Materials for Printed Electronics and Sensors (CMU-NECTEC), Center of Excellence in Materials Science and Technology.
-D., Zhou, M., High-performance nanostructured thermoelectric materials.
[28] Ji, X., Tritt, T.M., Zhao, X., Kolis, J.W., Solution chemical synthesis of nanostructured thermoelectric materials, Journal of the South Carolina Academy of Science. 6 (2007) 1-9
They can be produced easily, fast from relatively cheap and abundant starting materials when compared to the other thermoelectric (TE) materials.
Acknowledgements This work is financially supported by Center of Excellence in Advanced Materials for Printed Electronics and Sensors (CMU-NECTEC), Center of Excellence in Materials Science and Technology.
-D., Zhou, M., High-performance nanostructured thermoelectric materials.
[28] Ji, X., Tritt, T.M., Zhao, X., Kolis, J.W., Solution chemical synthesis of nanostructured thermoelectric materials, Journal of the South Carolina Academy of Science. 6 (2007) 1-9