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Online since: March 2017
Authors: Mohd Zharif Ahmad Thirmizir, Mohamad Najmi Masri, Muhammad Azwadi Sulaiman, Mohamad Bashree Abu Bakar, Nurul Wahida Rusli
The utilization of kenaf in manufacturing industry because it consists of bast, core and seeds as useful materials.
Kenaf bast fibre has strong mechanical properties that can be used in polymer composites by replacing the glass fibre as reinforcing materials.
Hence, it is also suitable for high priced materials with least expensive tooling, less waste material tolerance for most part sizes.
Materials and Method Materials used for this work included kenaf fibre (Kenaf Agro Vet Sdn.
Islam, Natural fiber as a substitute to synthetic fiber in polymer composites: A review, Research Journal of Engineering Sciences, 2(3) (2013) 46-53 [7] S.Y.
Kenaf bast fibre has strong mechanical properties that can be used in polymer composites by replacing the glass fibre as reinforcing materials.
Hence, it is also suitable for high priced materials with least expensive tooling, less waste material tolerance for most part sizes.
Materials and Method Materials used for this work included kenaf fibre (Kenaf Agro Vet Sdn.
Islam, Natural fiber as a substitute to synthetic fiber in polymer composites: A review, Research Journal of Engineering Sciences, 2(3) (2013) 46-53 [7] S.Y.
Online since: August 2015
Authors: Ekaterina Yakovleva, Ekaterina Mironova, Larisa Stepanova
The creep crack problem in damaged materials under mixed mode loading under creep-damage coupled formulation is considered.
Nowadays the analysis of mixed-mode loading of cracked structures in nonlinear materials is of particular interest.
Integration of Mechanics, Materials Science and Chemistry, Cambridge University Press, Cambridge, 2014
International Journal of Fatigue. 62 (2014) 93 – 103
Sadowski, Failure and Damage Analyses of Advanced Materials, Springer, Berlin, 2015.
Nowadays the analysis of mixed-mode loading of cracked structures in nonlinear materials is of particular interest.
Integration of Mechanics, Materials Science and Chemistry, Cambridge University Press, Cambridge, 2014
International Journal of Fatigue. 62 (2014) 93 – 103
Sadowski, Failure and Damage Analyses of Advanced Materials, Springer, Berlin, 2015.
Online since: January 2013
Authors: Osamu Hanaizumi, Mayank Kumar Singh, Kazusa Kano, Kenta Miura, Genjoh Fusegi
Such light-emitting sputtered films can be useful as high-index materials of photonic crystals that can be applied to novel active devices.
Such sputtered Ta2O5:Er films can be used as high-refractive-index materials for multilayered [10, 11] or air-hole [12] photonic crystals.
Kojima: Journal of Materials Research Vol. 19 (2004) p. 667
Hanaizumi: Key Engineering Materials Vol. 459 (2011) p. 32
Hsieh: Journal of Vacuum Science and Technology A Vol. 23 (2005) p. 768.
Such sputtered Ta2O5:Er films can be used as high-refractive-index materials for multilayered [10, 11] or air-hole [12] photonic crystals.
Kojima: Journal of Materials Research Vol. 19 (2004) p. 667
Hanaizumi: Key Engineering Materials Vol. 459 (2011) p. 32
Hsieh: Journal of Vacuum Science and Technology A Vol. 23 (2005) p. 768.
Carbon and Nitrogen Concentration Profiles of Cassava-Pack Carbonitrided Steel: Model and Experiment
Online since: December 2015
Authors: O.O. Adewoye, A.R. Adetunji, Winston O. Soboyejo, E.K. Arthur, E. Ampaw, K.J. Akinluwade
Soboyejoa,c,d,*
aDepartment of Materials Science and Engineering, African University of Science and Technology (AUST), Federal Capital Territory (FCT), Abuja, Nigeria.
dPrinceton Institute of Science and Technology of Materials (PRISM), Bowen Hall, 70 Prospect Street.
The authors are also grateful to the Engineering Materials and Development Institute (EMDI), Akure, Nigeria, for assistance with materials and materials characterization techniques.
Xing, “A Novel Method of Surface Modification for Steel by Plasma Electrolysis Carbonitriding”, Materials Science and Engineering A, Vol. 458, pp. 240–243, 2007
Callister, Materials Science and Engineering, John Wiley & Sons Inc., USA, 2007
dPrinceton Institute of Science and Technology of Materials (PRISM), Bowen Hall, 70 Prospect Street.
The authors are also grateful to the Engineering Materials and Development Institute (EMDI), Akure, Nigeria, for assistance with materials and materials characterization techniques.
Xing, “A Novel Method of Surface Modification for Steel by Plasma Electrolysis Carbonitriding”, Materials Science and Engineering A, Vol. 458, pp. 240–243, 2007
Callister, Materials Science and Engineering, John Wiley & Sons Inc., USA, 2007
Online since: March 2014
Authors: Srimala Sreekantan, Abdul Rahman Mohamed, Razali Mohd Hasmizam, M.N. Ahmad-Fauzi
Schmuki: Current Opinion in Solid State and Materials Science, Vol. 11 (2007), p. 3
Xu: Journal of Hazardous Materials,Vol. 252– 253 (2013), p. 115
Peng: Journal of Hazardous Materials B., Vol. 139 (2007), p. 310
Sreekantan: Advanced Materials Research Vol. 772 (2013), p 365
Kumar: Materials Science and Engineering B, Vol. 166 (2010), p. 1.
Xu: Journal of Hazardous Materials,Vol. 252– 253 (2013), p. 115
Peng: Journal of Hazardous Materials B., Vol. 139 (2007), p. 310
Sreekantan: Advanced Materials Research Vol. 772 (2013), p 365
Kumar: Materials Science and Engineering B, Vol. 166 (2010), p. 1.
Online since: May 2026
Authors: Konapalli Saraswathamma, Atul Ramesh Bhagat, Guruswamy Ramaguru
Materials Science and Engineering 23, no.1(1976):55- 68
Journal of Materials Engineering and Performance 25 (2016): 3904-3911
Journal of Materials Engineering and Performance 29, no. 1 (2020): 365-376
"On short-beam shear tests for composite materials."
Defence Science Journal 43, no. 4 (1993): 369.
Journal of Materials Engineering and Performance 25 (2016): 3904-3911
Journal of Materials Engineering and Performance 29, no. 1 (2020): 365-376
"On short-beam shear tests for composite materials."
Defence Science Journal 43, no. 4 (1993): 369.
Online since: August 2022
Authors: Pawarut Jongchansitto, Itthichai Preechawuttipong, Jerachard Kaima, Robert Peyroux, Cecile Sillard, Jeramie Viguie, Evelyne Mauret
Materials Science and Engineering C. 2009; 29: 1375-1379
[4] Haiyang Zhang, Jin Liu, Zhiqiang Wang, Xiaoning Lu.
Fibrous Materials. 2016 [12] Diana P.
Materials Science and Engineering. 2020; 886: 012061 [14] Eylem D.
Materials and Design. 2012; 42: 353-368 [16] Parnia Zakikhani, R.
Materials and Design. 2014; 63: 820-828 [17] Kazuya Okubo, Toru Fujii, and Yuzo Yamamoto.
Fibrous Materials. 2016 [12] Diana P.
Materials Science and Engineering. 2020; 886: 012061 [14] Eylem D.
Materials and Design. 2012; 42: 353-368 [16] Parnia Zakikhani, R.
Materials and Design. 2014; 63: 820-828 [17] Kazuya Okubo, Toru Fujii, and Yuzo Yamamoto.
Online since: February 2008
Authors: Yong Sheng Wang, Da Wei He, Xin Li, Peng Zhi Lu
Introduction
As we know, borate and phosphate are very important optic function materials, such as LuBO3:Ce
3+,
Pb3Lu (PO4)2:Ce
3+ for flash material; LaPO4:Ce
3+, Tb3+, (Y,Gd)BO3:Eu
3+ for fluorescence material;
and YAl3(BO3)4,LnP2O14 for laser material.
These materials were mixed thoroughly.
As the picture, the blue emission in 454nm is good for blue materials because of the narrow and acuity peak.
Bizarri , et al.: Optical Materials Vol.28(2006), p.58
Hao, et al.: Materials Letters Vol.60 (2006), p.639
These materials were mixed thoroughly.
As the picture, the blue emission in 454nm is good for blue materials because of the narrow and acuity peak.
Bizarri , et al.: Optical Materials Vol.28(2006), p.58
Hao, et al.: Materials Letters Vol.60 (2006), p.639
Online since: April 2012
Authors: Robert Molloy, Winita Punyodom, Krisda Suchiva, A. Sirikulsathean, S. Rassameemasmaung, P. Piyakunakorn, S. Phunturug
Piyakunakorn1,g
1 Department of Oral Medicine, Faculty of Dentistry, Mahidol University, Thailand
2 Department of Chemistry and Center of Excellence for Innovation in Chemistry, Faculty of
Science, Chiang Mai University, Chiang Mai, Thailand 50200
3 Materials Science Research Center, Faculty of Science, Chiang Mai University, Chiang Mai, Thailand 50200
6 Department of Chemistry, Faculty of Science, Mahidol University, Thailand
aaoo250@yahoo.com, bdtsrs@mahidol.ac.th,cwinita@chiangmai.ac.th,drobert@chiangmai.ac.th, edtasr@mahidol.ac.th, fkrisdasc@mtec.or.th,gsend2gift@yahoo.com
Keywords: Periodontal regeneration; Electrospun; Resorbable membrane
Abstract. 75:25 poly(DL-lactide-co-ε-caprolactone) electrospun resorbable membranes were prepared by electrospinning and film casting techniques.
References [1] Anton Sculean, Dimitris Nikolidakis, Frank Schwarz, Regeneration of periodontal tissues: combinations of barrier membranes and grafting materials – biological foundation and preclinical evidence: A systematic review, Journal of Clinical Periodontology,2008, 35(8 Suppl):106-116; [2] Mark P.
A new paradigm for periodontal regeneration based on molecular and cell biology, Periodontology 2000, 2000,24: 253-269; [3] Jae-Jun Lee, Hye-Sun Yu, Seok-Jung Hong, et al, Nanofibrous membrane of collagen-polycaprolactone for cell growth and tissue regeneration, Journal of Materials Science: Materials in Medicine,2009, 20(9): 1927-1935; [4] Yanzhong Zhang, Bo Su, Jayarama Reddy Venugopal, et al., Biomimetic and bioactive nanofibrous scaffolds from electrospun composite nanofibers, International Journal of Nanomedicine, 2007,2(4), 623-638; [5] Panat Piyakunakorn, Synthesis, Processing and Testing of A Poly(DL-Lactide-co-Caprolactone) Resorbable Electrospun Membrane for Guided Tissue Regeneration, MSc Thesis, Mahidol University ,2010; [6] Takashi Takata, Hom-Lay Wang, Mutsumi Miyauchi , Attachment, proliferation and differentiation of periodontal ligament cells on various guided tissue regeneration membranes, Journal of Periodontal Research, 2001, 36: 322-327; [7] Yufeng Zhang, Xiangrong
Planell;et al., Surface characterization and cell response of a PLA/CaP glass biodegradable composite material, Journal of Biomedical Materials Research Part A, 2008, 85(2):477-486;
References [1] Anton Sculean, Dimitris Nikolidakis, Frank Schwarz, Regeneration of periodontal tissues: combinations of barrier membranes and grafting materials – biological foundation and preclinical evidence: A systematic review, Journal of Clinical Periodontology,2008, 35(8 Suppl):106-116; [2] Mark P.
A new paradigm for periodontal regeneration based on molecular and cell biology, Periodontology 2000, 2000,24: 253-269; [3] Jae-Jun Lee, Hye-Sun Yu, Seok-Jung Hong, et al, Nanofibrous membrane of collagen-polycaprolactone for cell growth and tissue regeneration, Journal of Materials Science: Materials in Medicine,2009, 20(9): 1927-1935; [4] Yanzhong Zhang, Bo Su, Jayarama Reddy Venugopal, et al., Biomimetic and bioactive nanofibrous scaffolds from electrospun composite nanofibers, International Journal of Nanomedicine, 2007,2(4), 623-638; [5] Panat Piyakunakorn, Synthesis, Processing and Testing of A Poly(DL-Lactide-co-Caprolactone) Resorbable Electrospun Membrane for Guided Tissue Regeneration, MSc Thesis, Mahidol University ,2010; [6] Takashi Takata, Hom-Lay Wang, Mutsumi Miyauchi , Attachment, proliferation and differentiation of periodontal ligament cells on various guided tissue regeneration membranes, Journal of Periodontal Research, 2001, 36: 322-327; [7] Yufeng Zhang, Xiangrong
Planell;et al., Surface characterization and cell response of a PLA/CaP glass biodegradable composite material, Journal of Biomedical Materials Research Part A, 2008, 85(2):477-486;
Online since: May 2016
Authors: Wu Zhao, Rui Wang, Chun Jing Luo, Zhi Yong Wang, Tao Luo
Over the last few decades, the range of engineering materials encountered in machine shops has increased greatly, as has the variety of cutting tools that are capable of machining these materials.
However, this working pattern is no longer fit for development of modern enterprise [2].Over the last few decades, the range of engineering materials encountered in machine shops has increased greatly, as has the variety of cutting tools that are capable of machining these materials [3].
Acknowledgments This work was supported in part by NSFC (National Natural Science Foundation of China) under Grant No.51175357, MOST (Ministry of Science and Technology) Works Special of Innovative Approaches under Grant No.2013IM030500 and Sichuan Province Science and technology support program under Grant No. 2014GZ0114.
Journal of materials processing technology, 61(1), 225-230
Materials & Design, 36, 372-378.
However, this working pattern is no longer fit for development of modern enterprise [2].Over the last few decades, the range of engineering materials encountered in machine shops has increased greatly, as has the variety of cutting tools that are capable of machining these materials [3].
Acknowledgments This work was supported in part by NSFC (National Natural Science Foundation of China) under Grant No.51175357, MOST (Ministry of Science and Technology) Works Special of Innovative Approaches under Grant No.2013IM030500 and Sichuan Province Science and technology support program under Grant No. 2014GZ0114.
Journal of materials processing technology, 61(1), 225-230
Materials & Design, 36, 372-378.