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Fig. 8 Number of drops to cause failure for the slabs (modified) after reduction Fig. 9 Amount of energy in joules to cause failure for the slabs (modified) Fig. 10 Percentage energy absorbed relative to the control specimen Conclusions There are tremendous challenges for structural engineers to repair existing concrete structures especially with the increase in threats that could cause unexpected dynamic loads.
Engineering Failure Analysis (56)
Proceedings of the Second International Conference on Performance-based and Life-cycle Structural Engineering (PLSE 2015).
School of Civil Engineering, The University of Queensland, pp 1373-1381
Kuei Suan Jen Hsueh Pao/Journal of the Chinese Ceramic Society (38) pp. 1173- 1178.

Print Parameters Influence on Parts' Quality and Calibration with 3DP- Part I: Print Parameters Influence on Parts’ Surface Topography Shujuan Li1, a, Shan Cao2,b 1,2School of mechanical and precision instrument engineering, Xi’an University of Technology, Xi’an 710048, China ashujuanli@xaut.edu.cn, byetikss@qq.com Keywords: 3DP; Surface topography; Print parameters Abstract.
Using 3DP, C.X.F Lam [3] print different pore structure prints of the stent for tissue engineering with starch-based polymers.
Materials Science and Engineering, 2002, C20: 49– 56
Polymer International, 2006, 55:57-62
Journal of Manufacturing Processes, 2008, 10: 96–104

TEH1,d School of Materials Engineering, Universiti Malaysia Perlis, 02600 Jejawi, Perlis, Malaysia aleechyeheng@hotmail.com, bckyeoh@unimap.edu.my, camalyhamzah@gmail.com, dplteh@unimap.edu.my Keywords: 3D printing, ABS polymer composite, Mechanical properties Abstract.
However, the mechanical properties of the fabricated component might not be sufficient for robust engineering applications.
In addition, Datta et al. [15] stated that contribution of high hardness of ceramic filler increased the microhardness of epoxy polymer composite.
Harikrishna, A new nano-ceria reinforced epoxy polymer composite with improved mechanical properties, International Journal of Advanced Research In Engineering and Technology (IJARET), 3 (2012) 248-256.

Materials Engineering 2002:3
Ordnance Material Science and Engineering 2009:67
Materials Science & Engineering A 2008; 480:117
Composites Part B: Engineering 2015; 79:83
Mining and Metallurgical Engineering 2016; 36:113

Tsai c Department of Materials Science and Engineering, National Taiwan University 1, Sec. 4, Roosevelt Rd., Taipei, 106, Taiwan, R.O.C.
Alzati: Fatigue and Fracture of Engineering Materials and Structures Vol. 28 (2005), p. 229 [3] S.
Fougeres: Materials Science and Engineering A Vol. 257A (1998), p. 225 [4] S.
Fougeres: Materials Science and Engineering A Vol. 232A (1997), p. 80 [5] S.
Chawla: The International Journal of Powder Metallurgy Vol. 37 No. 3 (2001), p. 49 [7] M.

Acknowledgments Special thanks for Institute of Nano-science and engineering.
Naseem Hameed (Department of Mechanical engineering), and Prof.
Mourad Benamara (Institute of Nano-science and engineering, University of Arkansas, Fayetteville, USA) for his assist with DLC-film characterizations.
[17] J.Robertson, "Diamond-like amorphous carbon," Materials Science and Engineering: R: Reports, vol. 37, no. 4-6, pp. 129-281, 2002
Tribology International, 63, 141-150.

Effect of shot peening on the long life fatigue properties of Ti6Al4V with different heat treatment Xiaojian Cao1,2,a, Luopeng Xu3,4, Chong Wang1, Jiang Jin2, Qingyuan Wang1,4,b 1Department of Mechanics and Engineering Science, Sichuan University, Chengdu 610065, China; 2College of Civil Engineering, Nantong University, Nantong 226019, China; 3Department of Physics, Civil Aviation Flight University of China, Guanghan 618307, China; 4School of Aeronautics and Astronautics, Sichuan University, Chengdu 610064, China ajohnson234@126.com, bwangqy@scu.edu.cn (Corresponding author) Keywords: Ti6Al4V; High cycle fatigue; Shot peening; Crack initiation.
Bell, ASM Handbook, vol. 5, ASM International, Materials Park, OH, 1994
Journal of Sichuan University (Engineering Science Edition), 46(2) (2014): 192-197
Tian, et al., Effect of wet shot peening on Ti−6Al−4V alloy treated by ceramic beads.
Procedia Engineering, 74 ( 2014 ): 273 – 278 [15] A.L.

The Effect of Particle Size of Recovered Carbon Black (rCB) on the Properties of Epoxy Conductive Material Sri Shalni Palaniandy1,a, Pei Leng Teh1,b*, Wern Ming Che1,c, Cheow Keat Yeoh1,d, Wee Chun Wong2,e 1School of Chemical Engineering & Technology, Kompleks Pusat Pengajian Jejawi 2, Universiti Malaysia Perlis, Taman Muhibbah, 02600, Jejawi, Arau, Perlis, Malaysia 2Ecopower Synergy Sdn.
“Enhancing Compatibility in Epoxy/Vulcanized Natural Rubber (VNR)/Graphene Nano-Platelets (GNP) System Using Epoxidized Natural Rubber (ENR-50), Composites Part B: Engineering, 1741(2019) 107058
Ceramics International, 42(2016) 12064 – 12073
Journal of Polymer Research, 31(2024) 117.

Properties and Microstructure of The New Phosphate Bonded Magnesia Cement Zhu Ding 1,a , Zong-Jin LI 2,b and Feng Xing 1,c 1 Shenzhen Municipal Key Laboratory of Durability for Civil Engineering structure, Shenzhen University, 518060, PR China 2 Department of Civil Engineering, The Hong Kong University of Science and Technology, Clear Water Bay, Kowloon, Hong Kong, PRC a zdingcn@sina.com, bzongjin@ust.hk, cxingf@szu.edu.cn Keywords: phosphate cement; magnesia; fly ash; microstructure; physical property; mechanical property; sorptivity Abstract.
Stevens: Effect of water content on the structure and mechanical properties of magnesia¯phosphate cement mortar, Journal of American Ceramics Society, V.81, No. 6 (1998), pp.1550¯1556
Singh: High strength phosphate cement using industrial byproduct ashes, Proceedings of First international conference, ed A.

Knoedler, Materials for Advanced Power Engineering 2002, Part II (2002) p. 1149 [4] J.H DeVan and P.F.
Ilievski, Chemical Engineering Journal, 98 (2004) p. 89 [22] H. de Souza Santos, T.
Kiyohara, Ceramics International, 31 (2005) p. 1077 [23] P.