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Misák, Experimental Analysis on Shrinkage and Swelling in Ordinary Concrete, Advances in Materials Science and Engineering. 2017(2017) 11p
Sun, W Qu, A fundamental study on compressive strength, static and dynamic elastic moduli of young concrete, Construction and Building Materials. 98 (2015) 137-145
Abbas, Effect of GGBFS on age dependent static modulus of elasticity of concrete, Construction and Building Materials. 41 (2013) 411-418
Sengul, Modulus of elasticity of substandard and normal concretes, Construction and Building Materials. 25 (2011) 1645-1652
Kockal, Validity and reliability of estimated modulus of elasticity of cementitious materials, OP Conf.

Some cylindrical steel samples with about 35mm diameter and 300mm length were prepared as the basic materials.
These raw materials were divided into six parts which were gradually added into the furnace during smelting.
The every additive quantity of the raw materials are shown in Table 1.
Table 1 Mass of additive materials Materials Each mass (g) Sum (g) 1 2 3 4 5 6 Cr-Fe 154 166 100 100 100 100 720 Ni 92 100 100 100 100 100 592 Si-Fe 48 40 40 40 40 40 248 Mn-Fe 100 75 50 50 50 50 375 Sum 394 381 290 290 290 290 1935 Results and Discussion Selection of analytical lines.
During smelting process, because the additive materials were added into the furnace six times the concentration of some elements were adjusted six times. we just made the semi-quantitative analysis according to the elemental concentration estimated by using the possible contents of the additive materials and the initial steel materials.

The real test Medicines and raw materials Isotactic polypropylene ( PP ): the brand is TPH-XB-075, China Petroleum Jilin Petrochemical Company; nucleating agent ( LCP-A ): polypropylene acid ester liquid crystal polymer, preparation,4- ethics benzoic acid -4 min. - propylene acyloxy ethoxy benzoic acid and hydroquinone ester liquid crystal monomer in azoth two different nitride as initiator, through free radical polymerization, the polymer glass transition temperature of 53 DEG C, the liquid crystal clear point of 275 DEG C, presents the nomadic phase. [1-5] Blend sample preparation Will be dry after the PP and LCP-A mixed in different proportions fully, into the mixer mold, in180 DEG C mixer15speed60 R / min, min, obtained a series of blend samples.
And when with different mass fraction of LCP-A nucleating agent, blending samples at 16 degrees at a diffraction peaks, corresponding to the (300) plane diffraction peak, indicating that the accession to the LCP-A promoted beta crystal formation, formed the alpha and beta two polymorphs of the coexistence of PP material.
Therefore, we can see, the LCP-A can induce beta crystal formation, formation of alpha and beta crystal crystal coexistence of PP material, in improving its good transparency at the same time, also increase the toughness of the material. [13-20] Crystallization temperature on PP blend sample crystal structure effect To induce the formation of beta crystal the highest LCP-A content of 0.8% PP blend samples as the research object, discusses the different crystallization temperature on PP crystal structure, the WAXD curve as shown in Figure 2.
Composite Materials: Engineering and Science.
Journal of Reinforced Plastics and Composites, Vol 11, April 1992 [29] Vares T, Reiska R.

Fig.1 Cooperation between rod plug and inner-outer cladding Perfomance analysis of mechanism 2.1 Material properties This mechanism is applied to one kind of non-standard welding machine which works in hot chamber with bad environment and it requires good anti-irradiation ability with preferable mechanical properties.Irradiation damage causes series of changes in microstructure and mechanical properties of reacter structural material,which deteriorates the material properties including irradiation hardening and embrittlement[5].
Based on the experiments and investigations of revelent departments,it finally decided to give priorty to the following three kinds of materials:aluminiumalloy, stainless steel and brass.The three kinds of materials could be used in hot chamber without big metallographic changes and variant under a certain temperature and irradiation.
Fig.14 Section of the weld line Fig.15 Melting zone and matrix organization The selected material of the parts can work safely and stably in the hot chamber.
References [1] LiangZhenqiang.Development of CN-10160Co radioactive source.Atomic Energy Science and Technology,2012,9(46) In Chinese [2] XueFulian.
Manufacturing technology and Machine tool .2014(2)In Chinese [4] ChenJianzhong.Convenient collet with high precision.Machine Engineer. 1989,10 In Chinese [5] LvZheng.Development of radiation-resistant alloys and radiation rolerance of nano-structureed ODS steels.Journal of Material and Metallurgy. 2012,3 In Chinese

With the acceleration of the world economy recovery, the needs for the global energy and important raw materials grow rapidly, as well as the influence of political element and capital exchange speculation, which bring the substantial rising of the price of energy and raw materials.
The strategic material reserve system formulated in 1939 had stipulated that resources like petroleum, coal and tombarthite could be explored but not mined in USA.
Before the first world oil crisis, the mineral raw material in the world was very cheap.
The tombarthite reserve, of which 70 percent is for the state reserve and the rest 30 percent is for non-governmental reserve, can be available for 20 years. (3) Import preliminary resource products and raw materials.
Journal of China University of Geosciences ( Social Sciences Edition ), (2011), 11(2):23.

Mousavi Abarghouie1 Department of Material Science and Engineering, Sharif University of Technology, Azadi Avenue, Tehran, P.O.Box 11155-9466 , Iran.
Materials and Experimental procedures 1.1.
Materials In the present work, 6061 aluminum alloy powder with average particle size of 85µm and commercial SiC particles with average size of 20µm and density of 3.2gr/cm3 were used.
[7] Y.M.Pan, M.E.Fine and H.S.Cheng, in “Wear Mechanism of Al-Based Metal Matrix Composites under Rolling and Sliding Contact”, in Tribology of Composite Materials, P.K.Rohatgi, B.G.Blau and C.S.
Fang : Journal of CIT Vol. 27(2003), p. 1-9

An example for an ancient brake material with such properties is wood (e.g. used to slow down windmills at forthcoming storms).
Modern brake materials in automotive engineering consist of a soft polymeric matrix with embedded SiO2particles, iron swarfs or similar materials.
By pressing the brake pad material onto the brake disk, wear debris is produced.
The boundary layer on the brake material is characterized by the growth and the destruction of contact zones of type II on the surface of the soft polymeric matrix.
References [ERI.00] Eriksson, M "Friction and contact phenomena of disc brakes related to squeal", Comprehensive summaries of Uppsala dissertations from the faculty of science and technology, Uppsala 2000 [KRO.03] Kröger,M., Lindner M., Popp K.: "Modellierung instationärer Reibkräfte", Proc.

Usually, the roughness parameter values will mainly depend on the manufacturing conditions, such as: the cutting parameters, the rigidity of technological system, the dynamic phenomena, the use of cutting fluids, the geometrical conditions of machined surface, the material processed, microgeometry and wear of the cutting edge and the material of the tool.
Materials and experimental procedure The sample material was E355 alloy steel (EN 10305 - 1: 2010   Steel tubes for precision applications), hardened and tempered (60 - 65HRC), having the following chemical composition: max 0.22 % C; max 1.6 % Mn; Max.0.55 % Si; Max 0.045 % S; Max 0.045 % P.
Ducoli, Surface roughness of intraocular lenses with different dioptric powers assessed by atomic force microscopy, Journal of Cataract & Refractive Surgery, 36, 9 (2010) 1573 -1578
Ţălu, Characterization of surface roughness of unworn hydrogel contact lenses at a nanometric scale using methods of modern metrology, Polymer Engineering and Science, 53,10 (2013) 2141-2150
Marin, Dynamic stresses occurring at haversin impulse shock loading of an elastic system, The Scientific Bulletin of Valahia University Materials and Mechanics, 4(2009) 217-220

Hardness testing has been used previously in the analysis of engineering materials to aid in the understanding of wear processes of machinery.
The hardness of a material is defined as its resistance to indentation [8, 9].
Materials with high hardness generally have good scratching and wear resistance while those with low hardness deform quite easily.
Very little research has been carried out with regards to the hardness testing of wear particles however techniques have been developed in order to test the properties of very small materials.
Oyen, Journal of Biomechanics, 2006. 39: p. 2699-2702

The starting material was 5 mm thick SP7475 Al processed to a fine grain size by conventional grain refinement.
However, due to limited material, the remaining trials were performed with the same forming cycle.
Thomas, Welding Journal, 75, (1996): p. 41
Bingel, Metallurgical and Materials Transactions A, vol. 29A (1998): p. 1955
Mahoney, Materials Science Forum, Volume 357-359, (2001) 507-514