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It is widely used in military science field, and it is manufactured the penetrators as the main materials at home and abroad because of a series of excellent mechanical properties, corrosion resistance and absorption ability of radioactivity substance. the research of temperature effects on the mechanical properties of tungsten alloy were less reported.
Ultimate Strength reflects the limit strength of the materials which has a direct relationship with the initiation, expansion and fracture of the main crack.
It has the important theoretical significance for the design of materials and analysis of failure.
Experiment The experimental material was 93WNiFe alloy of vacuum annealing state.
There are still several small peaks between 600℃ and 700℃, there is no materials about (Ni,Fe) W due to the fact that the card is not complete.

Introduction Titanium alloys are attractive materials for many engineering applications, which require excellent combination of mechanical properties and corrosion resistance along with a low weight.
Materials properties hand- book: titanium alloys.
Materials Park, OH: ASM International; 1994
Materials Park, OH: ASM International; 1989 [4] A.
Kayali, Materials Science and Engineering, 56 (2006) 1367 [11].

Application of the KH560 on improving the interface fastness of composites of starch and cotton fiber Jinfa Liu1, Haona Wang1 and Genyang Cao2,3, a 1 Textile Clothing College, Wuhan Institute of Technology, Wuhan, 430074, China 2 Education Key Laboratory of New Textile Materials Green Processing and Functioning, Wuhan Textile University, Wuhan, Hubei, 430073, China 3 Textile Materials and Technology Lab, Donghua University, Shanghai, 201620, China Ministry of a corresponding author e-mail address: genyang.cao@wtu.edu.cn Keywords: interface fastness, KH560, composites, starch, cotton fiber Abstract.
Cellulose material is one of the most widely used materials nowadays, such as cotton, ramie, and jute.
Starch is one kind of cheap natural material, it exists in corn, wheat, and potato etc..
Ma reported that the composites of cellulose fibers and starch can use as packaging materials [2].
S.: Journal of applied polymer science.

Abstract: It is of extreme importance in present time of worldwide international competition in industry and production engineering to safe time on the one hand and on the other keep an eye on increasingly higher costs of energy and raw materials.
Comprehensive knowledge in the areas of market requirements, product and process development and design, intelligent metrology and end of life management are important presuppositions to achieve rapid, agile, waste free and cost-effective production of innovative, customized complex products using next-generation materials as well as to protect the environment by making zero emissions and improve environmental sustainability and reduce the use of energy by using intelligent manufacturing systems.
This can be a difficult concept to realise and to do so may mean that there is considerable expense in functional testing to realise the parameters necessary to ensure that the design and its manifestation through manufacture, taking into account the materials selected and its fabrication yields the desired conditions.
Generally, one can assume, according to the current state of development of science that practically almost everything can be measured, which is used in product development and in the production of different products, but also for almost any other task.
Bas: "Innovation In Production Metrology For Precision Engineering And To Support Sustainability and Improvement Of Process And Product Quality In Modern Manufacturing Industry"; MSD Journal, Volume 4 (2012), 1; S. 5 - 11

Materials and Design 31 (2010) 1284–1292 [2] YONGSHENG LIAN.
Journal of Experiments in Fluid M echanics.
Non-linear constitutive relations for piezoceramic materials.
Smart Materials and Structure 1992:80–3
A one-dimensional model for non-linear behavior of piezoelectric composite materials.

Methods and Materials Two different matrix alloys were used in this research, aluminum casting alloy A356 and zinc die casting alloy AC43A.
Gupta: Materials Science and Engineering A Vol. 392 (2005), p.163-168
Li: Materials Science and Engineering A Vol. 380 (2004), p.378-383
Hunt: Journal of Crystal Growth Vol. 191 (1998), p.558-62
Quested: Materials Science and Technology Vol. 20 (2004), p.1357-69

De Cooman, Structure-properties relationship in TRIP steels containing carbide-free bainite, Current Opinion in Solid State and Materials Science. 8 (2004) 285–303
[2] E.V Pereloma, I.B Timokhina, P.D Hodgson, Transformation Behaviour in Thermomechanically Processed C–Mn–Si TRIP Steels with and without Nb, Materials Science and Engineering.
[5] L Li et al., Effect of Aluminum and Silicon on Transformation Induced Plasticity of the TRIP Steel, Journal of Materials Science & Technology. 20, 2 (2004) 135–38
[6] Tanmay Bhattacharyya et al., Development and Characterisation of C-Mn-Al-Si-Nb TRIP Aided Steel, Materials Science and Engineering A. 528, 6 (2011) 2394–2400
Mašek, Continuous Cooling of CMnSi TRIP Steel, Materials Today: Proceedings. 2 (2015) S677–80.

Nowadays, synthetic materials have been fabricated from polymers to solve disadvantages which are provided by autograft, allograft and xenograft. 
The usage of natural materials or synthetic materials to replace part of a blood vessel in patient's recovery efforts has become very necessary [1].
Materials and method Materials The materials used in this study were PLGA (Mw 100.000), DMF as solvent, bovine bone collagen, chitosan, acetic acid as solvent of chitosan, spinneret, and dip coating properties.
An in vitro study of blood compatibility of vascular grafts made of bacterial cellulose in comparison with conventionally-used graft materials.
Journal of Biomedical Materials Research Part A, 97A, 52-58.

Acknowledgements Funding for this research project was sponsored by the National Natural Sciences foundation (Project No. 50878087), the Guangdong Province Natural Sciences foundation (Project No. 8151009101000010), the Fundamental Research Funds for the Central Universities (Project No.20092M0230), State Key Laboratory of Subtropical Building Science Project (Project No.X2TJ-C709025z) and the Ministry of Construction (Project No. 2009-k2-36) of China.
Journal of Structural Engineering, 2000, 126(5):605-611 [4] Dooley K.L., Joseph M.
ACI Structural Journal, 2001, 98(6):843-851 [5] Yuan Xianxun, Yi Weijian.
Journal of Chongqing Jianzhu University, 2000, 22(3):64-68(in Chinese) [6] Yang Hong, Wei Feng, Bai Shaoliang, Wang Zhen.
Journal of Building Structures, 2001, 22(6):81-86(in Chinese) [10] Elnashai A, Borzi B, Vlachos S.

Acknowledgements The work was supported by the National Natural Science Foundation of China (Grant No. 51108347, 51108348, 51308080), the Natural Science Foundation of Zhejiang Province (Grant No.
International Journal of Solids and Structures， 30(21)：3025-3035(1993)
International Journal of Solids Structures, 22(4): 409-428(1986)
Journal of Building Structures, 25(6), 9-14 (2004)
International Journal of Solids and Structures. 44（9）：2773-2782(2007)