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Online since: December 2012
Authors: Xiakeer Saitaer
Brief Analysis of Traditional Uyghur Felt
Xiakeer Saitaer 1, 2, a
1 College of Textile and Fashion, Xinjiang University, Urumqi, 830046, China
2 College of Textiles, Donghua University, Shanghai,201620, China
Corresponding e-mail: axaker2@163.com
Keywords:Traditional felt materials,The classification of traditional Uyghur felt
Abstract.
This paper discusses the raw material in traditional Uyghur felt handicraft and the classification of traditional Uyghur felt.
Raw Material Used in Handicraft of Felt Making Among all livestock fur, sheep wool has a wide range of applications and is the only raw material used in felt making.
Moreover, all ethnic groups in Xinjiang also have traditions to use felt, a proof of abundant supply of raw material and big market.
Acknowledgements This work was financially supported by the Science and Research Division of Xinjiang University of China in 2009, Subject No.: XY080243 References [1] XU Hong, Senewer (SaiNaWaEr),Mahire (MaYiLa) Xinjiang Folk/Traditional Felt Making The Eighth Edition of the Wool Textile Journal 2005 [2] Memetimin Sabir (MaimaiTiMing ShaBiEr) Felt Making (Uyghur) Xinjiang People’s Press August 2007 [3] Memetimin Sabir (MaimaiTiMing ShaBiEr) Uyghur Handicrafts (Uyghur) Kashgar Uyghur Press September 2002
This paper discusses the raw material in traditional Uyghur felt handicraft and the classification of traditional Uyghur felt.
Raw Material Used in Handicraft of Felt Making Among all livestock fur, sheep wool has a wide range of applications and is the only raw material used in felt making.
Moreover, all ethnic groups in Xinjiang also have traditions to use felt, a proof of abundant supply of raw material and big market.
Acknowledgements This work was financially supported by the Science and Research Division of Xinjiang University of China in 2009, Subject No.: XY080243 References [1] XU Hong, Senewer (SaiNaWaEr),Mahire (MaYiLa) Xinjiang Folk/Traditional Felt Making The Eighth Edition of the Wool Textile Journal 2005 [2] Memetimin Sabir (MaimaiTiMing ShaBiEr) Felt Making (Uyghur) Xinjiang People’s Press August 2007 [3] Memetimin Sabir (MaimaiTiMing ShaBiEr) Uyghur Handicrafts (Uyghur) Kashgar Uyghur Press September 2002
Online since: October 2011
Authors: Wei Wang, Yong Xian Liu, Jerry Y.H. Fuh, Peng Jia Wang
The results allowed us to affirm that the characteristics of this glass, in comparison with the tooth hard substances and other commonly employed inorganic dental materials, recommend it for further utilization in the dental field.
Ceramics are generally defined as inorganic, non-metallic materials.
Stress increased mutation phase contribution to the toughness .The composite material similar to natural tooth volume density, strength and hardness of natural teeth and excellent fracture toughness of dental materials to meet the performance requirements and the use for the special environment.
Deng, D.J.Hu, Ceramic components manufacturing by selective laser sintering, Journal of Materials Processing Technonlogy 187-188(2007) 614-618
Surface Science 254.(2007),966-970
Ceramics are generally defined as inorganic, non-metallic materials.
Stress increased mutation phase contribution to the toughness .The composite material similar to natural tooth volume density, strength and hardness of natural teeth and excellent fracture toughness of dental materials to meet the performance requirements and the use for the special environment.
Deng, D.J.Hu, Ceramic components manufacturing by selective laser sintering, Journal of Materials Processing Technonlogy 187-188(2007) 614-618
Surface Science 254.(2007),966-970
Online since: June 2007
Authors: Robert J. McMurray, Alan G. Leacock, Desmond Brown
The
aforementioned analysis [6] may not be appropriate for such materials, since the weaker outer layer
will evidently reyield in compression when sheet tension is removed.
The analysis examined the behaviour of single and double sided clad materials, highlighting the unique springback characteristics of each.
The results presented here indicate that accurate models of springback for Alclad aluminium require information on the residual stresses and the strengths of the core and clad materials.
Yoshida, Springback of sheet metal laminates in draw-bending, Journal of Materials Processing Technology, Vol. 139, no. 1-3 (2003.8), pp. 341-347
On Springback of Double Curved Autobody Panels, International Journal of Mechanical Sciences, Vol. 43 (2001), pp. 5 - 37 [9] http://www.math.sunysb.edu/~scott/mat331.fall96/project2/ [10] J.
The analysis examined the behaviour of single and double sided clad materials, highlighting the unique springback characteristics of each.
The results presented here indicate that accurate models of springback for Alclad aluminium require information on the residual stresses and the strengths of the core and clad materials.
Yoshida, Springback of sheet metal laminates in draw-bending, Journal of Materials Processing Technology, Vol. 139, no. 1-3 (2003.8), pp. 341-347
On Springback of Double Curved Autobody Panels, International Journal of Mechanical Sciences, Vol. 43 (2001), pp. 5 - 37 [9] http://www.math.sunysb.edu/~scott/mat331.fall96/project2/ [10] J.
Online since: January 2014
Authors: Shen Zhang, Jian Jun Wu, Rui Chao Guo, Hao Li
Experiments
Materials and processing technology.
Journal of Chongqing University: Natural Science Edition. 2000, 23(4):99-102
Journal of Air Force Engineering University :Natural Science Edition; 2004, 5(3)18-21
JOURNAL OF AERONAUTICAL MATERIALS,2009,29(2):29-33
RARE METAL MATERIALS AND ENGINEERING, 2010,39(1):138-141
Journal of Chongqing University: Natural Science Edition. 2000, 23(4):99-102
Journal of Air Force Engineering University :Natural Science Edition; 2004, 5(3)18-21
JOURNAL OF AERONAUTICAL MATERIALS,2009,29(2):29-33
RARE METAL MATERIALS AND ENGINEERING, 2010,39(1):138-141
Online since: May 2011
Authors: Wen Xue Chen, Chang Ge, Hai Gang Dou, Cong Fa Li
Materials and methods
Samples and Preparation
The commercial samples of white and black pepper were purchased from a local supermarket in Haikou, Hainan.
Journal of Food Engineering, 92(1), 44-49
Journal of Food Engineering, 71(4), 386-393
Journal of the Science of Food and Agriculture, 82(14), 1652-1660
Journal of Chromatography A, 947(1), 23-29
Journal of Food Engineering, 92(1), 44-49
Journal of Food Engineering, 71(4), 386-393
Journal of the Science of Food and Agriculture, 82(14), 1652-1660
Journal of Chromatography A, 947(1), 23-29
Online since: June 2025
Authors: Mikko Hietala, Antti Järvenpää, Matias Jaskari, Timo Rautio
Journal of Materials Engineering and Performance,
30(7):4768-4791, June 2021
Materials & Design, 202:109471, April 2021
Journal of Manufacturing and Materials Processing, 7(3):97, May 2023
Materials, 12(7):1121, April 2019
Journal of Materials Research and Technology, 30:2478-2499, May 2024
Materials & Design, 202:109471, April 2021
Journal of Manufacturing and Materials Processing, 7(3):97, May 2023
Materials, 12(7):1121, April 2019
Journal of Materials Research and Technology, 30:2478-2499, May 2024
Online since: July 2015
Authors: Dong Ping Duan, Hong Liang Han, Peng Yuan
Materials and Methods
Materials.
The procedure of this experiment is setting 0.7 as the C/O, mixing hematite with reducing agents, respectively, then adding moderate amount of water, and pelletizing this mixed materials into φ22mm×10mm.
Development and practice of on the rotary hearth furnace ironmaking process, Journal of University of Science and Technology Beijing. 29(2007) 171-173
Effects of reductants on iron reduction in the direct reduction process of high-phosphorus oolitic hematite, Journal of University of Science and Technology Beijing. 33(2011) 905-910
Reduction behavior and temperature rising characteristics of iron oxide pellets at different reduction degree in microwave field, Journal of Central South University(Science and Technology). 43(2012) 789-796.
The procedure of this experiment is setting 0.7 as the C/O, mixing hematite with reducing agents, respectively, then adding moderate amount of water, and pelletizing this mixed materials into φ22mm×10mm.
Development and practice of on the rotary hearth furnace ironmaking process, Journal of University of Science and Technology Beijing. 29(2007) 171-173
Effects of reductants on iron reduction in the direct reduction process of high-phosphorus oolitic hematite, Journal of University of Science and Technology Beijing. 33(2011) 905-910
Reduction behavior and temperature rising characteristics of iron oxide pellets at different reduction degree in microwave field, Journal of Central South University(Science and Technology). 43(2012) 789-796.
Online since: February 2009
Authors: O.D. Osahon, O.D. Nworgu
These materials have also been reported to undergo certain changes in their physical
properties when exposed to gamma radiation [6].
Compton scattering occurs at intermediate energies and with materials of low atomic number while and pair production takes place at high energies.
Thus hydrogenous materials have a higher probability of Compton scattering than a non hydrogenous material of equal mass [9].
Nigerian Journal of Applied Science (njas) Vol.24 (2006) pp128-132
Dielectric and Electronic properties of Biological Materials.
Compton scattering occurs at intermediate energies and with materials of low atomic number while and pair production takes place at high energies.
Thus hydrogenous materials have a higher probability of Compton scattering than a non hydrogenous material of equal mass [9].
Nigerian Journal of Applied Science (njas) Vol.24 (2006) pp128-132
Dielectric and Electronic properties of Biological Materials.
Online since: December 2013
Authors: Rong Wang, Ming Sheng Li, De Qiang Wei
A series of mechanical, physical and chemical properties of materials such as corrosion resistance, abrasion resistance, heat resistance, can be significantly improved after treated by electron beam [12].
Experimental materials and methods 2.1 Experimental materials 6061 aluminum alloy was used as the experimental substrate material and its chemical composition (in wt.%) is: Si, 0.4–0.8; Fe, 0.7; Cu, 0.2–0.4; Mn, 0.15; Mg, 0.8–1.2; Cr, 0.04–0.35; Zn, 0.25; Ti,0.15; and Al, balance..
Journal of Materials Science,1994, 29:728-735
Materials Science & Technology, 2003, 11 (2):220-224
Journal of Northeastern University(Natural Science), 2011,32 (7):952-955
Experimental materials and methods 2.1 Experimental materials 6061 aluminum alloy was used as the experimental substrate material and its chemical composition (in wt.%) is: Si, 0.4–0.8; Fe, 0.7; Cu, 0.2–0.4; Mn, 0.15; Mg, 0.8–1.2; Cr, 0.04–0.35; Zn, 0.25; Ti,0.15; and Al, balance..
Journal of Materials Science,1994, 29:728-735
Materials Science & Technology, 2003, 11 (2):220-224
Journal of Northeastern University(Natural Science), 2011,32 (7):952-955
Online since: November 2012
Authors: Wahab Saidin, Noraniah Kassim, Yusri Yusof, Zainul Ahmad Rajion
Integrated System for Denture Design and Manufacturing
Md Saidin Wahab1a, Noraniah Kassim1b, Yusri Yusof1c, Zainul Ahmad Rajion2d
1Faculty of Mechanical and Manufacturing Engineering, Universiti Tun Hussein Onn Malaysia, 86400 Parit Raja, Batu Pahat, Johor, Malaysia
2School of Dental Sciences, Universiti Sains Malaysia, Health campus, 16150 Kubang Kerian, Kelantan, Malaysia
asaidin@uthm.edu.my, bnoraniahkassim@gmail.com, cyusri@uthm.edu.my, dzainul@kck.usm.my
Keywords: Computer Aided Design (CAD), Rapid Prototyping (RP), Rapid Manufacturing (RM),
Rapid Tooling (RT)
Abstract.
The basic system has been developed at the Faculty of Mechanical and Manufacturing Engineering, UTHM with the cooperation of the School of Dental Sciences, USM and Klinik Pergigian Batu Pahat, Johor.
The physical model of the denture assembly was produced on acrylic material by using Rapid Pro Jet SD3000 machine.
References [1] A.Azari,S.Nikzad,(2009), The evolution of rapid prototyping in dentistry : a review, Rapid Prototyping Journal, Vol.15 Iss:3 pp.216-225
[2] M.Y.Lee,C.C.Chang,C.H.Kuo & Y.C.Ku (2002), Custom denture fabrication with new abrasive computer tomography and rapid prototyping technologies, International Journal of advanced manufacturing technology, Vol.31, pp. 41-9 [3] Y.Guo-dong & Z.Shen-yang (2009), The computer-aided design and rapid prototyping fabrication of removable partial denture framework, IEEE Engineering in Medicine and Biology.vol 6 No. 2, pp.136-45 [4] M.Y.Lee,C.C.Chang,C.H.Kuo & Y.C.Ku (2008), A new layer – based imaging and rapid prototyping techniques for computer-aided design and manufacture of custom dental restoration, IEEE Engineering in Medicine and Biology.Vol.21, No.2,pp.38-44,2002 [5] R.Bibb,D.Eggbeer & R.Williams(2006),Rapid Manufacture of Removable Partial denture frameworks.Rapid Prototyping Journal, Vol. 12 Iss:2 pp.95-99
The basic system has been developed at the Faculty of Mechanical and Manufacturing Engineering, UTHM with the cooperation of the School of Dental Sciences, USM and Klinik Pergigian Batu Pahat, Johor.
The physical model of the denture assembly was produced on acrylic material by using Rapid Pro Jet SD3000 machine.
References [1] A.Azari,S.Nikzad,(2009), The evolution of rapid prototyping in dentistry : a review, Rapid Prototyping Journal, Vol.15 Iss:3 pp.216-225
[2] M.Y.Lee,C.C.Chang,C.H.Kuo & Y.C.Ku (2002), Custom denture fabrication with new abrasive computer tomography and rapid prototyping technologies, International Journal of advanced manufacturing technology, Vol.31, pp. 41-9 [3] Y.Guo-dong & Z.Shen-yang (2009), The computer-aided design and rapid prototyping fabrication of removable partial denture framework, IEEE Engineering in Medicine and Biology.vol 6 No. 2, pp.136-45 [4] M.Y.Lee,C.C.Chang,C.H.Kuo & Y.C.Ku (2008), A new layer – based imaging and rapid prototyping techniques for computer-aided design and manufacture of custom dental restoration, IEEE Engineering in Medicine and Biology.Vol.21, No.2,pp.38-44,2002 [5] R.Bibb,D.Eggbeer & R.Williams(2006),Rapid Manufacture of Removable Partial denture frameworks.Rapid Prototyping Journal, Vol. 12 Iss:2 pp.95-99