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Patel, Flexural Toughness of Steel Fiber Reinforced Concrete, ACI Materials Journal. 89 (1992) 541-546
Banthia, Polymer and Steel Fiber-Reinforced Cementitious Composites under Impact Loading – Part 2: Flexural Toughness, ACI Materials Journal. 98 (2001) 17-24
Najm, High-Performance Fiber-Reinforced Concrete Mixture Proportions with High Fiber Volume Fractions, ACI Materials Journal. 101 (2004) 281-286
Soleimani, Flexural Response of Hybrid Fiber-Reinforced Cementitious Composites, ACI Materials Journal. 102 (2005) 382-389
Zhang, Investigation of Complete Stress-Deformation Curves for Concrete in Tension, ACI Materials Journal. 84-M29, (1987) 278-285

State Key Laboratory for Modification of Chemical Fibers and Polymer Materials, Donghua University, Shanghai, 201620, China 2.
College of material science and engineering, Donghua University, Shanghai, 201620, China 3.
Experiment Materials.
All of the materials were used without further purification.
Proceedings of 2005 International Conference on Advanced Fibers and Polymer Materials (Icafpm 2005), Vol 1 and 2 2005:708-712

Nickel/iron-based materials, i.e., NiFe2O4/NiFe layer double hydroxides (LDHs), are regarded as one of the most excellent OER catalysts in alkaline electrolytes, making them attractive low-cost materials for OER catalysts.
Nickel/iron-based materials are regarded as one of the most excellent OER catalysts in alkaline electrolytes, making them one of the attractive low-cost materials as catalysts [13, 14].
Experimental Section Materials.
Chen, Magnesium–air batteries: from principle to application, Materials Horizons. 1(2) (2014) 196-206
Wang, Transition‐metal (Co, Ni, and Fe)‐based electrocatalysts for the water oxidation reaction, Advanced materials. 28(42) (2016) 9266-9291

Semmelroth et al., Materials Science Forum, 457-460, 151 (2004) [22] L.
Polychroniadis et al., Materials Science Forum, 483-485, 319 (2005) [24] D.
Wellmann, Materials Science Forum, 821-823, 77 (2015) [28] V.
Wellmann, Materials, 12, 13, 2179 (2019) [32] P.
La Via, Materials Science Forum, 1004, 113 (2020) [34] M.

Sujitno, Predicting Surface Hardness of Commercially Pure Titanium under Ion Implantation Process, Materials Science Forum 961 (2019) 97–106
Barão, Sputtered crystalline TiO2 film drives improved surface properties of titanium-based biomedical implants, Materials Science and Engineering: C 119 (2021) 111638
Yu, Fatigue properties of friction stir welded joint of titanium alloy, Materials Science and Engineering: A, 793 (2020) 139819
Lin, Experimental investigations on hot forming of AA6082 using advanced plasma nitrocarburised and CAPVD WC: C coated tools, Journal of Materials Processing Technology 240 (2017) 190–199
Kwon, CRC Materials Science and Engineering Handbook, fourth ed., Taylor & Francis Group, Boca Raton, 2016.

Box 77, D/A Pejabat Pos Besar, 01000 Kangar, Perlis, Malaysia 2Faculty of Engineering Technology, Uniciti Alam Campus, Universiti Malaysia Perlis (UniMAP),02100, Sungai Chuchuh, Padang Besar, Perlis, Malaysia 3Gheorghe Asachi Technical University of lasi, Faculty of Materials Science and Engineering, Blvd.
Introduction Currently, geopolymer based on analogous and aluminosilicates materials is used to replace the Ordinary Portland Cement (OPC) as binders for concretes in building materials.
In concrete materials, the corrosion process will be slow if its high electrical resistivity is compared to concrete which has low resistivity.
[3] Ha-Won Song and Velu Saraswathy (2007), “Corrosion Monitoring of Reinforced Concrete Structures – A Review”, International Journal of Electrochemical Science, vol 2, pp 1-28
ACI Materials Journal 101: 467-472

Many scientific research and practice experiences[2] indicate that the strength evolution and attenuation characteristics of the rock materials are the major factors influencing the stability and safety of roadway, underground chambers, and side slope structures and so on, and also the keys to study the post-peak mechanical behavior of rock.
Journal of Mining & Safety Engineering, 2012,29（2）: 185-190.
International journal of mining science and technology, 2012, 22: 213-221
Mining science and technology,2011, 21:445-450.
Chinese Journal of Rock Mechanics and Engineering, 2012,31（3）: 543-549.

The elastic modulus and hardness of the oxides were significantly lower than the matrix materials.
Li, M .He, et al: Journal of Materials Processing Technology, Vol. 129 (2002), p.127 [2] N.
M, et al: Materials & Design, Vol. 28 (2007), p.2518 [6] Y.S.
Shiue: Wear Vol.193 (1996), p. 16 [7] Y.C Chen, Y.S Liao: Journal of Materials Processing Technology Vol. 140(2003), p. 269 [8] J.P.
Schneider, et al：Wear Vol. 262(2007), p. 931 [10] Jawaid, A., Sharif, S., et al, Journal of Materials Processing Technology, Vol. 99 (2000), p. 266 [11] L.

Performance of Chloride Binding by Aluminate Hydrates in Cement-based Composite Materials Mifeng Gou, Xuemao Guan School of Materials Science & Engineering, Henan Polytechnic University, Jiaozuo 454003, China goumf@163.com, guanxuemao@126.com Keywords: cement; monosulfate; ettringite; chloride; binding Abstract.
The chloride binding capacity of aluminate hydrates in cement-based composite materials is investigated.
The aim of this paper is to investigate the effect of aluminate hydrates in cement on chloride binding, to explain the mechanism leading to the formation of Friedel’s salt during external chloride penetrate into cement-based materials.
Experimental procedures Materials.
Cement and Concrete Research Vol.42(2012), p. 1 [2] T.Cheewaket, C.Jaturapitakkul, W.Chalee: Construction and Building Materials Vol.24(2010), p.1352 [3] H.Hirao, K.Yamada, H.Takahashi, et al: Journal of Advanced Concrete Technology Vol.3 (2005), p.77 [4] S.O.Ekolu, M.D.A.Thomas, R.D.Hooton: Cement and Concrete Research Vol.36(2006), p.688 [5] H.Zibara: University of Toronto, Canada, 2001.

Introduction Nowadays, fumed silica is used natural rubber, especially for medical applications and insulating materials in wires and cables because of its high purity and low moisture [1-3].
Materials and Design 41 (2012) 74-82
(2002) “Use of rice husk ash as filler in natural rubber vulcanizates : in comparison with other commercial fillers,” Journal of Applied Polymer Science 83, 2485-2493
L. (2005) “Application of rice husk ash as fillers in the natural rubber industry,” Journal of Applied Polymer Science 9834-41
Effects of silica content and Si69-treatment in natural rubber/styrene-butadiene rubber vulcanizates,” Journal of Applied Polymer Science 104, 3396-3405.