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Journal of Materials Science & Technology, 2014. 30(6): p. 566-575
Journal of Materials Science, 1991. 26(3): p. 588-592
Journal of Materials Science Letters, 1982. 1(5): p. 211-213
Journal of Materials Science & Technology, 2013. 29(8): p. 685-701
Journal of Materials Science, 2012. 47(1): p. 55-67

Based on the test data of twelve push-out specimens with different holes filling different materials, the paper compared and analyzed the capacity and the corresponding slip value of the stud shear connector.
Based on twelve push-out specimens with different holes(square hole and round hole ) filling different materials, the paper introduced the push-out specimen test and analysis the performance of stud in the paper.
Because the size of the shear connection degree is the important parameters of the strength and stiffness to achieve the two materials combination between steel beams and the precast panels [9,12]. 1 。
Parameters and material properties of test results are shown in Table 1.
Sichuan Building Science Journal,2007, 33(4): 55-58.

Firat, U-channel forming analysis with an emphasis on springback deformation, Journal of Material and Design, Elsevier. 28 (2007) 147-154
Robert, Microstructure Effects on the Springback of Advanced High-Strength Steel, Journal Of Metallurgical and Materials Transactions A, Volume 37, Number 11/November, (2006) [10] S.
CIRP Journal of Manufacturing Science and Technology 1 (2008) 2–17
International Journal of Mechanical Science, (2002), 44(1):103-122
ASME Journal of Engineering Materials and Technology (2004) Volume 123,  Issue 4, 456 [21] Z.

The full potential of these materials can be achieved when properties are directed over specified application.
The type of heat exchanger which supports the silicon carbide materials has also to be reviewed.
Zhou and Y.Yoshizawa, Journal of Member of Science. 339 (2009) 78–84.
Sato, Journal of Science. 369 (2011) 112-118
Thevenot, Journal of Material Science. 19 (2000) 871–874

Materials and Experimental Materials and Microstructures.
Suresh: Fatigue of Materials, (Cambridge University Press, 1998) [2] S.T.
Zhang: Reference Module in Materials Science and Materials Engineering, (2016) [3] H.
Mughrabi: Metallurgical and Materials Transactions A,Vol. 40 (2009), P. 1257
Xuan: Mechanics of Materials, Vol. 100 (2016), p. 198 [9] M.

The numerical methods of peridynamics theory used in failure analysis of materials Lin Fan1,a* Song-rong Qian1,b Teng-fei Ma1,c 1.
If a material point through a close curve around point ,and their net work is zero.We called this material as a microelastic material
From the derivation process of the peridynamics force function,We can see that the peridynamics force function include the constitutive information of the material,also it description the damage and crack in the material.
Acknowledgements The corresponding author of this paper is Lin Fan.This paper is supported by Projects of Guizohu International Science and Technology Cooperation(Department of Science & Technology of Guizhou province International Cooperation Projects G[2013]7006.Use peridynamics theory to research the reliability of material).
Reformulation of elasticity theory for discontinuities and long-range forces[J].Journal of the Mechanics and Physics of Solids 48(2000)175-209 [2] S.A.Silling.A meshfree method based on the peridynamic model of solid mechanics[J].

There is a recent trend to enhance the soil with natural material; because they are environmentally friend, cheap and available materials.
Materials and Methods The soil.
Zara, Strength and ductility of randomly distributed palm fiber reinforced silty-sand soils, American Journal of Applied Science, 5(3) 2008 209-220
Yang, Experimental study on unconfined compressive strength of basalt fiber reinforced clay soil, Advances in Materials Science and Engineering, (2015)
Soundara, Effect of fibers on properties of clay, International Journal of Engineering and Applied Sciences, 2(5) 2015

Journal of Materials Processing Technology, 2008. 203(1-3): p. 1-12
Journal of Materials Processing Technology 2002. 130-131: p. 54-59
Journal of Materials Processing Technology, 2004. 151: p. 183-191
Computational Materials Science, 2004. 29: p. 1-11
Journal of Materials Processing Technology 2010. 210: p. 474-486.

Fujita, "Fracture Toughness and Microfractures of a Sheet Molding Compound Composite", Journal of the Society of Materials Science, Japan, Vol.35, No.396, (1986), 1016-1022. 49.
Kamiya, "Fiber Bridging Effect on Opening-Mode Crack Extension Resistance of Unidirectional Fiber-Reinforced Composites", Journal of the Society of Materials Science, Japan, Vol.37, No.416, (1988), 505-510. 63.
Sekine, "Probabilistic Study of Debond Length and Pull-Out Length of Fibers in Unidirectional Fiber Reinforced Composites", Journal of the Society of Materials Science, Japan, Vol.38, No.425, (1989), 106-110. 65.
Sekine, "Micromechanics Study of Crack Propagation Rate in Glass Fiber Reinforced Plastics under Acid Environments", Journal of the Society of Materials Science, Japan, Vol.39, No.441, (1990), 737-741. 71.
Beaumont, "Micro-Mechanical Theory of Macroscopic Stress-Corrosion Cracking in Unidirectional GFRP", Journal of Materials Science, Vol.41, No.14, (2006), 4604-4610. 204.

It allows reducing the materials consumption and gain the required reliability.
Measurement science and technology, 6 (2014) [8] Characterization of viscoelastic materials by quasi-static and dynamic indentation Wang L., Liu X.
Technol. 70 (2010) 54-60 [11] Stability of composite materials nial-refractory metal with cellular structure.
Metallurgist, 9-10 (2003) 401-404 [18] Theoretical density of refractory and ceramic materials.
Russian journal of non-ferrous metals, 1(2011) 103-108