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Zhao [18] gives the test results that loading frequencies do have effect on fatigue strength of materials, but for materials with some specific microstructure the resultant of the effect may defer.
Materials Science & Engineering A, 497 (2008) 408-415
Materials Science & Engineering A, 527 (2010) 559-564
Materials Science & Engineering A, 427 (2006) 167-174
Materials Science & Engineering A, 558 (2012) 234–241.

In China there are also many enterprises engaged in antibacterial materials and products, such as Zibo Bona Science and Technology Development Co., Ltd, Huaguang Ceramics Marketing Co., Ltd and Shandong Guiyuan Science & Technology Shareholding Co., Ltd.
The second antibacterial materials were titanium dioxide photocatalysis materials and products.
For some shortcomings of the former two antibacterial materials, the Institute of Power Source and Ecomaterials Science of Hebei University of Technology and Zibo Bona Technology Co., Ltd have began to research the third antibacterial materials who can be usd into healty-care antibacterial and air purification building materials and domestic ceramic.
l healthy ceramic materials.
Wang: Journal of Hebei University of Technology.

Analog material Duralcan W6D22A One of the advantages such as the reduction in the cost of initial materials results from the disuse of powder components.
Kablov, Strategic directions of development of materials and technologies of their processing for the period up to 2030, Aviation materials and technologies, M.
Havila, Production of Al-Al2O3 MMC by P/M Route and to Study the Feasibility of Fusion Welding, American Journal of Materials Science. 6(4A) (2016) 99-101.
Chernyshov, Arc welding of discretely reinforced composite material of the AL_SiC system, Physics and chemistry of processing of materials. 4 (1999) 57 – 62
Chernyshev, Argonodukovaya build-up of dispersed-strengthened aluminium composite materials, Physics and chemistry of materials processing. 4 (2005) 67-71.

So, Ag+ is the most usually used ion in antibacterial materials [1,2,3].
Journal of Molecular Structure.
Diamond and Related Materials.
Journal of Colloid and Interface Science.
Journal of Non-Crystalline Solids.

The Influences of Material and Structure on the UV Protection of Summer Fabrics Li Dai a, Yi Zhang b School of Textiles Tianjin Polytechnic University Tianjin, China adaili1020@163.com, btianjinzhangyi@126.com Keywords: Fabric structure, Fiber material, Anti-UV properties Abstract.
The measured performance parameters were normalized, to make UV protection properties of different thickness, tightness, fabric structures and fiber materials are comparable.
The anti-UV performance from strong to weak is satin, twill and plain weave in terms of fabric structure; and polyester, silk, hemp and cotton in terms of fiber material.
Ding, Research of Factors which Affect UV-protective Properties of Textiles [Papers] – Journal of Donghua University (Natural Science) 2004 (03)
Lu, Study of Affecting Factors on the Performance of UV Protection of Textiles[Papers] –Journal of Zhong Yuan Institute of Technology, 2004 (03) [5] P.

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, 2012. 47(1): p. 55-67
Journal of Materials Science, 1975. 10(10): p. 1802-1825
Journal of Materials Science, 2016. 51(14): p. 6735-6749

It should be understood that in view of the variety of structures of composite materials, the mechanisms of their destruction must be investigated separately for layered [1-4, 10], 2-D and 3-D woven [5-8, 12-14] materials, as well as for materials reinforced with short randomly directed fiber [17-20].
[3] Comprehensive Composite Materials Volume 2, 2000, Pages 529-552
Journal of Composite Materials, 47(25), 3195–3209
Journal of Composite Materials. 50. 1921-1935
Acceleration of fatigue tests of polymer composite materials by using high-frequency loadings, Mechanics of Composite Materials. - 2004. - Vol. 40, № 2. - P. 107-118

Both of them show that fiber materials have high value of the promotion and application in engineering.
This paper focuses on fiber materials of polyethylene improving expansive soil.
[3] Rong MZ, Wu SP, Zhang MQ : Journal of Advanced Materials Research .
[4] Prabakar, J., Sridhar, R.S.: Construction and Building Materials .
Journal of Chang'an University(Natural Science Edition).Vol . 25(1)(2005),p.20－24

Experimental Material.
Table 5 Compressive strength comparison of different cementing materials net paste Cementing material compressive strength [MPa] R1 R3 R7 SL 0.98 10.65 17.10 SLC 2.08 10.72 18.32 OPC 1.09 9.85 15.89 Table 6 Compressive strength comparison of mortar with SL, SLC and OPC Cementing material compressive strength [MPa] R1 R3 R7 SL 0.22 1.30 3.13 SLC 0.36 1.54 3.43 OPC 0.24 0.76 1.53 Compressive strength of paste with SL is higher than OPC except R1, and compressive strength of paste with SLC is all higher than OPC showed in table 5.
Acknowledgements Financial support for this work was provided by Chinese National Natural Science Foundation (50974082) and by National Science and Technology Support Programme (2008BAB32B14).
Zhou: The Chinese Journal of Nonferrous Metals, Vol.12(1998), p.739-744
Wang: Journal of University of Jinan (Science and Technology), Vol.13(1999),p.6-8.

The results of the investigations answered questions regarding material science and technical processes.
Experimental Materials.
In: Journal of Applied Polymer Science.
In: Progress in Polymer Science.
Journal of Thermoplastic Composite Materials, 26 (2013), Nr. 1, S. 74-90.