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Materials and Methods Experimental site.
Journal of nuclear agricultural sciences, 2010, 24(3): 618-622
Journal of Yunnan Agricultural University, 2003, 18(1): 1-4
Southwest China Journal ofAgricultural Sciences, 2007, 20(4): 752-757
Chinese Journal of Soil Science, 2010, 41(2): 390-393.

After pouring, the temperatures of the outer and inner wall of the mold materials is recorded until the temperature reach the steady state condition.
The mechanical properties of the casting materials are investigated by observing the microstructure and performed Vickers Hardness Test on the casting specimens.
In the findings, the thermal conductivity k, of the mold materials is almost the same.
REFERENCES [1] John, Olinger and Hines (1990), Computer-aided development of an investment casting process, Jounrals of Material Science, Vol. 45, pp. 29-32
[3] Hung, Hou, Tsai and Huang (2003), Effect of Zirconia-Modified Magnesia Investment on the Casting of Pure Titanium, The Kaohsiung Journal of Medical Sciences, Vol. 19, 3, pp. 121-125

The properties and charecteristic of durian skin fibers are within the propertise of lignocellulosic fiber which is suitable for development of biocomposite materials.
Materials and Method Materials preparation Durian skins were obtained from local market.
Moisture content was determined according to ASTM D4442-92 for direct moisture content measurement of wood and wood based materials.
According to Roncero [11], the intensity peak at the maximum at 2θ angle, between 22o and 23o for the crystalline materials, while for amorphous materials is between 18o and 19o.
[10] Dasong, D., Mizi, F., Characteristic and Performance of Elementary Hemp fibre, Materials Sciences and Applications (2010) 336-345

Organization of the Text Materials.
Dielectric properties of EP/PS/CB composite materials.
Li: Materials Letters Vol. 64(2010), p.2226
Zhang: Journal of Applied Polymer Science Vol. 98(2005), p.1142
Zhang: Journal of Applied Polymer Science Vol. 99(2006), p.461

Poor toughness in thermosetting matrix composites often leads to the premature failure of the materials under Mode I (interlaminar tension or peel) or Mode II (interlaminar shear) loading.
However, in the composites, this increase reduces to about 2-fold and 3-fold, respectively, showing that toughness of the matrices do not completely transfer to improvement of fracture toughness of the composite materials.
Egan: Journal of Materials Science, Vol. 43(3) (2008), p. 1151 [2] A.J.
Egan: Journal of Materials Science, Vol. 43(3) (2006), p. 5043 [3] D.L.
Bradley, in: Application of Fracture Mechanics to Composite Materials, edited by K.

One is a joint project with DuPont Company of America, using DuPont bio-based Sorona polymer as raw materials.
Thanks to the new energy-saving raw materials, carbon dioxide emissions per cloth ton is reduced by 4.42 tons to 3.69 tons.
This indicates that the technical innovation from the choice of raw materials has a greater effect on energy-saving and emission reduction,compared to the improvement of printing and dyeing technology.
[3]Zhe Sun: Journal of University of Science and Technology Liaoning.Vol. 34 (2011) p. 424-427.In Chinese
[4]Deyong Song, ZhongbaoLu: Journal of Huazhong University of Science and Technology(Social Science Edition).

Stress Induced Martensitic Transformation in Ti-1023 Alloys Lili Chang1a and Jiapeng Liu2 1School of Materials Science and Engineering, Shandong University, Jinan 250061 China 2School of Materials Science and Engineering, Beijing Institute of Technology, Beijing 100081, China alilichang@sdu.edu.cn Keywords: Titanium alloy, Stress induced martensite transformation, Mechanical properties.
Taylor equation is widely used as a basis for work hardening theory in metallic materials: , where is the friction stress and M (~3.06) is the Taylor orientation factor, is a constant with a value between 0.3 and 0.6.
BS2013CL034) and Independent Innovation Foundation of Shandong University (GN2003001).The authors would like to thank supply of materials and fruitful discussion from Dr.
Lee, Constitutive analysis of the high-temperature deformation mechanisms of Ti-6Al-4V and Ti-6.85Al-1.6V alloys, Materials Science and Engineering A, 394 (2005) 366-375
Wang, Microstructural evolution during aging of Ti-10V-2Fe-3Al titanium alloy, Journal of University of Science and Technology Beijing, Mineral, Metallurgy, Material, 14 (2007) 335-340

SMA materials or structures have the abilities of perception, judgment, implementation and adaptation under different ambient temperatures.
The force that a spring of any material produces at a given deflection depends linearly on the shear modulus of the material.
References [1] X W Du, G Sun, S S Sun: Composites Science and Technology Vol. 64 (2004), p.1375-1381 [2] E.T.F.Chau, C.M.Friend, D.M.Allen, et al: Materials Science and Engineering 2006, p. 438-440, 589-592 [3] J M He, J Huang, and C Liu: Advanced Materials Research Vols. 97-101 (2010) pp 875-879 [4] J.
Zhan et al.: Journal of Materials Processing Technology Vol.129(2002),p.552-562
[5] Dazhi Yang.Tianjin: Intelligent Materials and System (Tianjin University Press, China 2000) [6] Chuncai Zhang, Jiacan Su: Shape Memory Materials (The Second military Medical University Press, China 2003)

However, the enzymatic stability must be considered when physically entrapped into pH-sensitive materials.
When PBA or its derivatives are immobilized in the PBA functionalized materials, the presence of glucose bearing cis-diol groups can induce the swelling of the materials and subsequent release of the payload via formation of hydrophilic glucose-PBA complex [15].
As purely synthetic components, PBA functionalized materials must be lowered its pKa value for practical application for diabetes treatment.
Journal of Pharmacology and Experimental Therapeutics 266 (1993) 1643-1648
Journal of Microencapsulation 30 (2013) 780-786

Heat transfer in walls, as affected by climatic conditions such as fluctuations in outside air temperature, solar radiation intensity and wind speed as well as wall structures and heat transfer coefficients of materials, becomes a complex and non-steady state.
The aim of this paper is to examine the relationship between total whole-day solar radiation and heat absorbed by and released from materials.
An reduced scale of experiment was conducted using reduced scale precast concrete slabs and focusing on the effect of heat transfer involving solar radiation, building materials and shading rate.
In this study, modes of heat transfer in building exteriors are simplified and divided into the following three parts for investigation, which are validated by a 24-hour experiment.[2, 3] Building exteriors receive most of the heat from external sources that either enters indoors or escape outdoors.[4, 5] As indicated in the equation for surface heat balance, besides increased temperatures of solar radiation and fluctuations in surface energy transfer that affect exteriors, it is important to consider total heat transfer between air and surfaces of exterior walls as well as the reflection by and longwave emissivity of materials themselves.[6] The heat balance is shown as Fig. 1 and its equation for building exteriors is as Equation (1).
Al-Sanea, Thermal performance of building roof elements, Building and Environment.37(2002)665-675 [6] Liu Wenyan, Gengyao Ming,Concrete surface solar radiation absorption rate Experimental Research, China concrete and cement products,4(2004) [7] Giuseppe Oliveti, Natale Arcuri, Marilena De Simone, Experimental evaluations of the building shell radiant exchange in clear sky conditions, Solar Energy,86(2012)1785-1795 [8] Jian Yao, Chengwen Yan, Effects of Solar Absorption Coefficient of External Wall on Building Energy Consumption, World Academy of Science, Engineering and Technology,52(2011)