@ARTICLE{Yang_Rongzhou_Experimental_2022,
 author={Yang, Rongzhou and Xu, Ying and Chen, Pei Yuan},
 volume={vol. 68},
 number={No 1},
 journal={Archives of Civil Engineering},
 pages={319-334},
 howpublished={online},
 year={2022},
 publisher={WARSAW UNIVERSITY OF TECHNOLOGY FACULTY OF CIVIL ENGINEERING and COMMITTEE FOR CIVIL ENGINEERING POLISH ACADEMY OF SCIENCES},
 abstract={Improper disposal of waste tires will not only bring environmental impact and safety risks but also cause a serious waste of resources. In the field of civil engineering materials, waste tire particles are used as a substitute for non-renewable aggregates to produce flexible rubber-cement composites (RCC). To explore the high-speed slicing stability of RCC, this test took normal cement mortar (NCM) and rubber cement mortar (RCM) as research objects. The SHPB tests with the same impact energy level and the high-speed slicing tests with a slice thickness range of about 1.4 mm ~ 4.4 mm were carried out. The results showed that NCM and RCM showed different stability differences in the process of high-speed slicing. In the case of ensuring the integrity of the slice, the minimum thickness of the slice can be better decreased with the increase of the rubber content. Finally, from the perspectives of split Hopkinson pressure bar (SHPB) test results and mesoscopic structure states, the essential reason for ensuring the stability of high-speed slicing lied in the improvement of rubber particles (dominant role) and pores on material deformation and flexible energy dissipation.},
 type={Article},
 title={Experimental study on dynamic stability of rubber-cement composites by SHPB and high-speed slicing},
 URL={http://journals.pan.pl/Content/122740/PDF-MASTER/art18_corr_int.pdf},
 doi={10.24425/ace.2022.140170},
 keywords={rubber-cement composites, split Hopkinson pressure bar (SHPB), high-speed slicing, deformationand fracture, slice thickness},
}