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Foamed Glassy Phosphate Materials for Biosorbents K.G.
The paper considers the applications of foamed glassy phosphate materials as carriers of biologically active substances.
One of the advantages of phosphate materials is their ability to effectively support the life of microorganisms.
Rastvorova, Carbon materials for immobilization of biologically active substances, Key Engineering Materials 836 (2020) 52-57
Syrkov, On the priority of Saint-Petersburg Mining University in the field of nanotechnology science and nanomaterials, Journal of Mining Institute 221 (2016) 730-736.

At present, the most applications in surface modification of materials is type I collagen, future research will be a variety of surface modification of materials for composite materials, which will play complementary roles, as well as gene therapy and the development of nanometer materials, it will become a hot issue in the field of bone tissue engineering.
Therefore, selecting suitable materials for surface modification, targeted to the matrix scaffold materials for surface modification and surface modification of material surface, improve the cell adhesion and promotes cell proliferation is the scaffold materials for bone tissue engineering research important content.
The importance of bone tissue engineering materials for surface modification The bone tissue can be regarded as a cell of the multiphase composite material from the point of view of material science and engineering.
Ideal surface modification should take into consideration the surface topology, specific identification, hydrophilic and hydrophobic protein adsorption equilibrium, and other aspects of functional new tissues can be.Therefore, surface modification of biomaterials is a complex systems engineering, needs both material science and biological science needs, realize optimization.At present, most applications in surface modification of materials is of type I collagen, future research will be a variety of surface modification of materials for composite materials to play complementary roles, as well as gene therapy and the development of nanometer materials will become a hot issue in the field of bone tissue engineering.
Journal of Orthopaedic Research, Volume 20, Issue 5, September 2002, Pages 1009-1015.

Research on Carbon Calculation of Rural Roofing Materials Jun Liu1, a,Linwang Li1, b, Yanlei Sun1, c, Wei Qi1, d 1College of Materials Science and Engineering, Shenyang Jianzhu University, Shenyang 110168, China aliujun2699@126.com, b729202251@qq.com, c714427477@qq.com, d 493334996@qq.com Keyword: carbon emission; rural roofing building materials; calculation method; life cycle Abstract.
Journal of Tsinghua University: Natural Science, Vol.50 (2010) No. 3, 330-334.
Research of Environmental Sciences, Vol.20 (2007) No.6, 149-153.
Journal of Shenyang Jianzhu University: Natural Science, Vol.5 (2013) No. 29, 0876-0882.
Building science, Vol.27 (2011) No. 4, 1-7.

Preparation PET Hybrided Materials by In Situ Polymerization for Delustered Fibers Mahgoub Osman Montasera, Jialiang Zhoub, Mohamed Nourreinc, Chong Lid, Hengxue Xiange, Bin Sunf*, Meifang Zhug* State Key Laboratory for Modification of Chemical Fibers and Polymer Materials, College of Materials Science and Engineering, Donghua University, Shanghai 201620, China amontaserali1987@gmail.com, bzjl19871217@126.com, cnourrein2000@hotmail.com, d897837544@qq.com, ehengxyexiang@163.com, fsunbin@dhu.edu.cn, gzhumf@dhu.edu.cn Keywords: Hybrid materials, PET, TiO2, Dull fiber, In Situ polymerization.
Experimental Materials.
Synthesis and non-isothermal crystallization behavior of PET/surface-treated TiO2 nanocomposites, Journal of Macromolecular Science, Part B, 2008, 47(6): 1117
Nucleation effect of surface treated TiO2 on Poly (trimethylene terephthalate)(PTT) nanocomposites, Journal of applied polymer science, 2013, 127(3): 1909
Crystallization behavior and UV‐protection property of PET‐ZnO nanocomposites prepared by in situ polymerization, Journal of applied polymer science, 2009, 114(2): 1303.

A Mixed-mode Fracture Criterion for Brittle Materials LI Mingtian1, a, HE Junlian1, b 1Department of Civil Engineering, Shandong Jiaotong University, Jinan, China almt21st@163.com, bhejunlian@hotmail.com Keywords: Fracture criterion, mixed mode, surface crack, direct tension experiments, brittle materials Abstract.
Direct tension experiments of brittle materials with surface crack have been carried out.
But surface and internal cracks were confronted in most cases their fracture criterion ere studied few and most pointed at metal materials.
Therefore based on experimental results and numerical simulation, surface crack growth was studied and a revised fracture criterion fit for brittle materials was presented.
Zhu: International Journal of Rock Mechanics and Mining Science, Vol.41(2004),41 [7] M.L.

The Study of the Architectural Beam Construction Cracks’ Condition on the Features of the Force-Electricity Functional Conversion Composite Materials Xiaoyun Gao 1,a, Xu Ma 2,b，and Qingsuo Liu 3,c, 1 Tianjin Chengjian University, Tianjin 300384, PRC 2School of materials science and engineering, Tianjin University of Technology, Tianjin 300384, PRC agaoxiaoy_610@163.com, bmaxumax@163.com, cqingsuoliu@eyou.com, Keywords: Smart material, Sensing, engineering structure, safety monitoring Abstract.
A solution to monitor the construction engineering structure operation state with the features of composite materials is tried in this paper.
Experiment The Preparation of the Composite Material Ferroelectric ceramics as force - electricity conversion function materials with a high performance, possess the characteristics of fast stress response and wide frequency response range, are considered as one of the most promising engineering sensing materials [8].
ACI Materials Journal. 1991, 88(3): 257-264
JOURNAL OF CHONGQING INSTITUTE OF TECHNOLOGY(NATURAL SCIENCE EDITION). 2007, 21(5): 11-14.

It is used to improve properties of different materials and constructions or to produce advanced properties of these materials.
Hollow aluminum and silica microsphere is non-reactive microaddition that determine its advantages in producing ecologically friendly materials and in providing materials with additional properties without changing the basic.
Modulus of viscosity is one of the main dynamic characteristics of fill finely divided materials that determine materials and constructions strength properties including the capability to form a rigid frame.
Mun, Studying physico-mechanical properties of cement pastes in presences of blend polymer as chemical admixtures, International Journal of Basic and Applied science 4(3) (2015) 297-302
Kaddo, Building materials and products, Moscow, High education, 2001

This collection includes research results reflecting the solution on the main task of material science - research of the structure of materials.
The presented articles devoted to the study of the structure of the materials at the nanoscale using real experiment and computer modeling.
We hope this collection will be useful and interesting for many researchers and engineers from the area of the modern materials science.

Green material includes cycle materials, scavenging materials, green polymer materials, green biological materials, green nanometer materials and so on.
Journal of Shandong University of Technology (Natural Science Edition), 24(2009)107-110
Science and Technology Management Research, 19( 2010)156-157
Journal of Central South University (Social Science),4( 2009)523-532
Journal of Shanghai Lixin University of Commerce, 5(2008)39-46

Chigrin1,c 1FSBES Institute of materials technology of Khabarovsk centre of FEC the Russian Academy of Sciences, Khabarovsk, 153 Tikhookeanskya street, Russia akonevts@narod.ru; bnikola1960@mail.ru; cpal_chig@mail.ru Keywords: Electrospark alloy building, gradient electrode materials, roughness.
Yamamoto, High resolution microscopy study in Cr3C2-doped WC-Co, Journal of material science. 36 (2001) 3885 – 3890
Spriggs, A History of Fine Grained Hardmetal, International Journal of Refractory Metals & Hard Materials. 13 (1995) 241-255
Wahnstrom, Strength and reinforcement of interfaces in cemented carbides, International Journal of Refractory Metals & Hard Materials. 24 (2006) 80–88
Journal of Refractory Metals & Hard Materials. 27 (2009) 817–822