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Preparation and Property Study of PTT/CAB Blend Fibers Liyan Wang 1,2,a, Guang Li* 1,b, Lijun Yang3,c 1 State Key Laboratory for Modification of Chemical Fibers and Polymer Materials, College of Material Science and Engineering, Donghua University, Shanghai 201620, P.R.
Experimental Materials.
Textile Research Journal,2009,79(12):1135–1141
Proceedings of 2007 International Conference on Advanced Fibers and Polymer Materials,2007,15-17:717-720
Journal of Applied Polymer Science, 2010, Vol. 116, 2487–2495.

Micro milling is suitable for plastic material, rather than brittle-rigid material micro components because of surface defects and burrs [2].
While micro grinding as one of the powerful methods to processing brittle-rigid material, shows a distinct advantage for machining 3D brittle-rigid material micro components.
Journal of Jilin University (Engineering and Technology Edition). 38 (2008) 1069-1075
The International Journal of Advanced Manufacturing Technology. 42 (2009) 883-891
World Academy of Science, Engineering and Technology. 41 (2008) 785-789 [7].

Materials and Methods Polyester knitted fabrics (PET, 160D/ 48F) were purchased from Dongguan Yunfan Textile Co.
Bioinspired Janus Textile with Conical Micropores for Human Body Moisture and Thermal Management, Advanced Materials. 31(2019): 1904113
Lin, Directional fluid transport in thin porous materials and its functional applications, Small. 13 (2017) 1601070
Hydrophilic property of polyester fabric coated with polyethylene glycolated bisphenol A, Journal of applied polymer science. 116 (2010) 473-478
Wu, Cationic organofluorosilicone as deepening agent in the application of dyed polyester fabric, Journal of Applied Polymer Science. 136(2019) 48208

Statistical process control in machining, a case study for machine tool capability and process capability, Materials and Design, 27 (5), pp. 364-372
Journal of Industrial Technology, 17(2), pp.1–8
Journal of Manufacturing Science and Engineering, 124 (2), pp.275–285
Drilling carbon fiber-reinforced composite material at high speed.
[14] Kivak, T., Habali, K., and Seker, U., 2012.The Effect of Cutting Paramaters on The Hole Quality and Tool Wear During The Drilling of Inconel 718, Gazi University Journal of Science 25(2), pp. 533-540.

China 3State Key Lab of Digital Manufacturing Equipment and Technology, Huazhong University of Science and Technology, Wuhan, 430074, P. 
The temperature and vibration have great influence on the properties and materials of LED luminaires.
The samples were encapsulated by SMD (surface mount device) and substrate material was aluminum.
Acknowledgments This work was funded by National Natural Science Foundation of China (50975106), the Project of Educational Commission of Hubei Province of China (Q20111405), open foundation of State Key Lab of Digital Manufacturing Equipment & Technology(DMETKF2014017) and the State Key Laboratory of Silicate Materials for Architectures (Wuhan University of Technology, No: SYSJJ2013-10) References [1] Krames, M.R., Philips Lumileds Lighting Co and San Jose, CA at al: Status and Future of High-Power Light-Emitting Diodes for Solid-State Lighting,Display Technology,Forum Vol. 3 (2007), p.165-175 [2] W.D. van Driel et al: Solid State Lighting Reliability: From Components to System, ChinaSSL(2010), p.202-206 [3] X.
[6] Yanchao Liu, Guicui Fu and Cheng Gao et al: Thermal analysis of illumination high-power LED, Chinese Journal of Electron Devices, vol.31（2008）, p. 1716-1719

In this study, PU solution containing different amounts of TiO2-Ag nanoparticles were successfully electrospun into non-woved nanofibers mats, and it may be used in antimicrobial filter application, bioprotective textile and wound dressing materials, etc.
Experimental 2.1 Materials.PU(1995EC,Mn=1160),obtained from Jiangyin Xilong plastic Co.Ltd, China.
-M.Huang,and C.L.He et al:Material Science and Engineer A.Vol. 435-436 (2006),p.309-317 3.
E.H.Jeong, J.Yang, and J.H.Youk: Materials Letters.
Chen Yao, Xinsong Li, and K.G.Neoh, et al:Journal of Membrane Science.

Material for components Different types of materials are used in making the machine.
Using different materials for the construction of the machine improves machine quality without sacrificing performance or durability.
Materials used in the machine are: Bakelit, POM, A6061, Brass, Carbon Steel.
These materials are assembled to create the product.
All materials are readily available in the market.

Gittings: Key Engineering Materials Vol. 284-286 (2005), p.349 [4] X.
Li: Key Engineering Materials Vol. 218-220 (2002), p.25 [6] J.
Tian :Key Engineering Materials Vol. 280-283(2005),p. 1541 [7] X.
Liu and A.P.Wong: Materials Letters Vol. 58 (2004), p. 397 [8] Z.Shen, E.Adolfsson, M.Nygren, L.Gao, H.
Niihara:Advanced Materials Vol.13 (2001) [9] R.Quan,D.Yang,X.Wu,H.Wang,and X.Miao: J.Materials.Science:Mater Med Vol.19 (2008),p.183 [10] V.

A Study on Mathematical Model of Deformation Force for Tube Nosing with Conical Die Liang CHU1,2,a,Qingwei WANG 4,Yan BI1,Dasen BI1,3,b 1School of Materials Science and Engineering, Tianjin University of Technology, Tianjin 300384, China 2Key Laboratory of Display Materials & Photoelectric Devices (Tianjin University of Technology), Ministry of Education, Tianjin 300384, China 3Tianjin Key Lab for Photoelectric Materials & Devices, Tianjin 300384, China 4460mm pipe plant of Tianjin Pipe (Group) Corporation, Tianjin 300301, China achuliangszhm@163.com（correspondence author）,btjbds@sina.com（correspondence author） Key words：tube nosing deformation force, slab method, work-hardening, mathematical model Abstract.
2） At conical die semi-angle ＞25° a）Eqn.（21）is the mathematical model of deformation force calculated for tube nosing with a conical die applied to the non-hardening materials or in hot working; b）Eqn.（22）is the mathematical model of deformation force calculated for tube nosing with a conical die applied to the linear strain-hardening materials; c）Eqn.（23）is the mathematical model of deformation force calculated for tube nosing with a conical die applied to the most power-exponent strain-hardening materials.
References [1] Lu xian-feng, Chu liang: Journal of plasticity engineering Vol.11,No.6（2004）, p.43-46 [2] Wang xiao-pei: Handbook of pressing（2nd edition）.
（Jiangxi Science & Technology Press,China 2003） [5] Yu han-qing, Chen jin-de: The principle of metal plastic forming.
（Machine Industry Press, China 1982） [10] Lu xian-feng: Journal of Nanchang University（Engineering & Technology）Vol.25,No.1（2003）, p.90-100

On the basis of optimized experimental conditions, intermittent current flow method of electro-enhanced technique was adopted in a view to further enhancing Cd removal rate and reducing energy consumption, thus providing technical support for the optimization of cadmium-contaminated soil remediation conditions. 1 Materials and Methods 1.1 Experimental soil The experimental soil was taken from the rice farmland near Science and Education City of Changzhou University.
The reaction apparatus was a cylinder having a depth of 14 cm, an inner diameter of 15 cm and a height of 13 cm, which was made of plexiglass material.
[10] Cao Y, Zhang S, Wang G, Li T, Xu X, Deng O, Enhancing the soil heavy metals removal efficiency by adding HPMA and PBTCA along with plant washing agents, Journal of Hazardous Materials. 339(2017)33-42
[12] Giannis A, Gidarakos E,Washing enhanced electrokinetic remediation for removal cadmium from real contaminated soil,Journal of Hazardous Materials. 123(2005)165-175
[16] Lixun Z, Guangyu Z, Xin G, Gang X, Yuntao G,Novel insights into heavy metal pollution of farmland based on reactive heavy metals (RHMs): pollution characteristics, predictive models, and quantitative source apportionment, Journal of Hazardous Materials.360(2018)32-42