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Acknowledgment The author gratefully acknowledges the Natural Science Foundation of Shandong Province(ZR2013A16002).
Linearised theory of plane strain of a mixture of two solids: International Journal of Engineering Science.
Diffusion in mixtures of elastic materials: International Journal of Engineering Science.
Some properties of media defined by constitutive equations in implicit form: International Journal of Engineering Science.
Second-order effects on the wave propagation in elastic, isotropic, incompressible, and homogeneous mediaWiese: International Journal of Engineering Science.

Although 4D printing technologies still remain intractable, some aspects of improvement through electrospinning are possible in terms of responsive materials and self-growth materials.
Prospects of 4D Nanomaterials 4D materials contain the traditional 3 spatial dimensions and time which is the fourth dimension that affects the materials in some ways.
With respect to biomedical applications, 4D printed materials typically are divided into two types, one of which is responsive materials, and the other of which is self-growth.
Prospects of 4D nanomaterial are foreseeable in terms of its types of responsive materials and self-growth materials.
[17] Yao, Tianyu, et al., Self-assembly of electrospun nanofibers into gradient honeycomb structures, Materials & Design, vol. 168, 2019, OhioLINK Electronic Journal Center, doi:10.1016/J.MATDES.2019.107614

Introduction Materials of an ultrafine-grained and nanometric structure exhibit mechanical properties that often surpass those of conventionally obtained materials having phases or grain structures on a micrometric scale.
The severe plastic deformation processes cause a significant impact on the structure and the properties of materials.
Misiołek: Modeling of Hot Rolling 6061 Aluminum Alloy-State Variables And Grain Size Predictions, Computer Methods in Materials Science, 2007, Vol. 7, Nr 1, p. 11–16
Apps: Ultra-fine grain structures in aluminum alloys by severe deformation processing, Materials Science and Engineering, 2004, A375-377, p. 178–185
Richert: Metal forming technology for producing bulk nanostructures metals, Journal of Steel and Related Materials, 2004, suppl.

The perspective of direct reuse of demolition materials in road construction has been studied for several years [1, 2, 3, 4, 5].
Indeed, the rehabilitation of the runway of the Treviso airport involved a huge amount of reclaimed materials, in detail: about 40,000 m3 of RA, 52,000 m3 of CCC and 13,600 m3 of granular material.
Graziani, A study on the mechanical behaviour of cement-bitumen treated materials, International Journal of Construction and Building Materials, Vol. 25, Issue 2, (2011), 773-778
Baglieri, Triaxial Testing for the Short Term Evaluation of Cold-Recycled Bituminous Mixtures, International Journal of Road Materials and Pavement Design, Vol. 11, Issue 1, (2010), 123-147
Bocci, Compactability and Thermal Sensitivity of Cement-Bitumen Treated Materials, International Journal of Road Materials and Pavement Design, Vol. 13, Issue 4, (2012), 599-617

Journal of Material Sciences:Materials in Electronics
Journal of Magnetism and Magnetic Materials. 371, 43-48 [8] Hutamanigtyas, E. (2016).
Journal of King Saud University – Science
Annealing time effect of magnetic mineral in the Bengawan Solo River Fine-Sediment. 4th International Conference on Functional Materials Science 2018 (ICFMS 2018) [11] Kumar, R., & Kar, M. (2016).
Journal of Magnetism and Magnetic Materials, 416, 335–341

A newly designed near-β type biomedical Ti alloy Ti-5Zr-3Sn-5Mo-15Nb (TLM) were introduced which are much more suitable for surgical implant and orthopedic materials.
The better workability of TLM alloy results from the stress-induced martensite transform. 1 Introduction Ti and Ti alloys are becoming more promising biomedical materials compared with other metal materials.
Ti require that, Apart from lower E and σs/E values, the alloy also should possess enough strength and toughness to ensure the safety and quality of implanting materials.
Singh: Journal of Alloys and Compounds Vol.329 (2001), p.264 [3] Steinemann S.G, Mausli P A, Semlitsch: Titanium'92 science and Technology[C] (TMS, Warrendale, Pennsylvania: 1993, p.2689)
[4] Yu zhentao, Zhou Lian, Wang keguang: Rare Metals Letters Vol.23(1)(2004), p.5 [5] Y.Song, D.S.Xu, R.Yang etc: Material Science and engineering Vol.A260 (1999)，p.269 [6] Fros F.H, Bomberger H, B: J.Metals Vol.37 (7), (1985), p.28 [7] Long M, Rack H J: Biomaterials Vol.19 (1998), p.1621 [8] Mitsuo Niinomi: Material Science and engineering Vol.A243 (1998), p.231

However, the magnitudes of the forces are different for different materials.
Jahanmir: Microstructure and Material Removal in Scratching of Alumina, Journal of Materials Science, Vol.30 (1995), pp.2335-2247
Scattergood: Ductile-regime: a New Technology for Machining Brittle Materials, Transaction of ASME: Journal of Engineering for Industry, Vol.113 (1991), pp.184-189
Zhou: High Speed Grinding of Silicon Nitride with Resin Bond Diamond Wheels, Journal of Materials Processing Technology, Vol.141 (2003), pp.329-336
Huang, Machining Characteristics and Surface Integrity of Yttria Stabilized Tetragonal Zirconia in High Speed Deep Grinding, Materials Science and Engineering A, Vol.345 (2003), pp.155-163

Synthesis of Porous MoSi2 Material Fabricated by SHS (Self-Propagating High Temperature Synthesis) Process In-Hyuck Song a, Do-Wan Kim b, Jung-Yeul Yun c, Hai-Doo Kim d Department of Materials Engineering, Korea Institute of Machinery & Materials (KIMM), 66 Sangnam-dong, Changwon, 641-010, Korea a sih1654@kmail.kimm.re.kr, bbaecal@korea.com, c yjy1706@kmail.kimm.re.kr, dkhd1555@kmail.kimm.re.kr Keywords: SHS, MoSi2, Heating Element, Porous Materials Abstract.
By orienting the porous molybdenum disilicide-based material in the form of pore size gradient, porous materials used for filters with improved dirt-holding capacity can be manufactured.
The photograph of synthesized porous MoSi2 materials with variations in the composition and the preheating.
Acknowledgment This work was supported by the Center for Advanced Materials Processing (21C Frontier R&D Program of Korea Ministry of Science and Technology) under Grant No.
Feng, " Combustion Synthesis of Advanced Materials: Part I.

Thermal parameters of these materials are given in Tab.1.
Apparently, indoor thermal performance concern to outside wall materials and location of rooms.
Analysis Wall materials.
Journal of Xi an University of Architecture & Technology(Natural Science Edition), 2004，36(1):51~54.
[6] YAN Zeng-feng, Experimantal study of moisture absorption isotherms of adobe building materials [J]，JOURNAL OF XI'AN UNIVERSITY OF ARCHITECTURE & TECHNOLOGY，2003,35(4)

The 3Cr-1Mo-1/4V steel is the material of the canister of the heat-wall-hydrogen-reactor, it is the anti-heat and anti-desquamation steel, and is a special difficult-to-machine material whose adhering is serious.
Acknowledgements The research were supported by National Natural Science Foundation (51075108), China Postdoctoral Science Foundation (20090451013), Natural Science Foundation of Heilongjiang Province (E200919), Key Project of Chinese Ministry of Education (209034), Support Program for Key Youth (1154G39), Foundation of Heilongjiang Educational Committee (11551079) and Youth Foundation of Harbin University of Science and Technology (2009YF005).
Tao, Chinese Journal of Mechanical Engineering 36, (2000) 10-15
Nee, International Journal of Advanced Manufacturing Technology, 24 (2004) 9-14 [3] Y.
Wang, Key Engineering Materials, 329 (2007) 669-667.