Journal Publication

J26: Rawat P., Liu S., Kumar R., Singh N (2023). Numerical Investigation on the High-Velocity Impact Resistance of Textile Reinforced Composite Mesh Designs Inspired by Spider Web. The Journal of the Textile Institute (Accepted).

J25: Wang, F., Li, Z., Guo, W., Rawat, P., Liu, S. (2023). Mechanical Properties of Precast Concrete Pipe (PCP) Sheet Under Different Curing Conditions and Ages. International Journal of Civil Engineering, 1-11.

J24: Singh, R.K., Shindhe, M., Rawat, P., Srivastava, A.K., Singh, G.K., Verma, R., Bhutto, J.K. and Hussein, H.S., (2023). The Effect of Various Contaminants on the Surface Tribological Properties of Rail and Wheel Materials: An Experimental Approach. Coatings, 13(3), p.560.

J23: Shindhe, M., Rawat, P., & Singh, N. K. (2023). A finite element analysis on the ballistic impact performance of two-layered laminate design inspired by teleost fish scales. International Journal on Interactive Design and Manufacturing (IJIDeM), 1-10.

J22: Liu, S., Chen, Z., Wang, X., Guo, S., Rawat, P., Yao, Y., Bai, X. and Zhu, D., (2023). Experimental study on flexural behavior of BTRM reinforced with hybrid combinations of short fibers and pre-stressing. Structures (Vol. 49, pp. 1016-1027). Elsevier.

J21: Mahesh, Rawat, P., Sai, L., Behera, R. P., Singh, K. K., & Zhu, D. (2022). Shear performance of MWCNTs modified single-lap joints of glass/epoxy laminates. Journal of Adhesion Science and Technology, 36(22), 2418-2437.

J20: Liu, S., Rawat, P., Wang, X. and Zhu, D., (2022). Flexural response of TRM subjected to low-velocity impact loads: Experimental and analytical study. Materials Today Communications, 33, p.104458.

J19: Rawat, P., Liu, S., Guo, S., Rahman, M.Z., Yang, T., Bai, X., Yao, Y., Mobasher, B. and Zhu, D., (2022). A state-of-the-art review on mechanical performance characterization and modelling of high-performance textile reinforced concretes. Construction and Building Materials, 347, p.128521.

J18: Liu, S., Rawat, P., Chen, Z. and Zhu, D., (2022). Low-velocity impact behavior of carbon woven laminates after exposure to varying temperatures. Thin-Walled Structures, 179, p.109636.

J17: Liu, S., Rawat, P., & Zhu, D. (2022). Understanding the effects of altering impact velocities and temperatures on basalt textile: an experiment approach. International Journal of Impact Engineering, 167, 104267.

J16: Rawat, P., Liu, P., Zhang, C., Guo, S., Jawad, L. A., Sadighzadeh, Z., & Zhu, D. (2022). Hierarchical structure and mechanical properties of fish scales from Lutjanidae with different habitat depths. Journal of Fish Biology, 100(1), 242-252.

J15: Rawat, P., Zhu, D., Rahman, M. Z., & Barthelat, F. (2021). Structural and mechanical properties of fish scales for the bio-inspired design of flexible body armors: A review. Acta Biomaterialia, 121, 41-67.

J14: Liu, S., Wang, X., Rawat, P., Chen, Z., Shi, C., & Zhu, D. (2021). Experimental study and analytical modeling on tensile performance of basalt textile reinforced concrete. Construction and Building Materials, 267, 120972.

J13: Rawat, P., Singh, K. K., & Behera, R. P. (2019). Enhancement of impact properties by using multiwall carbon nanotubes as secondary reinforcement in glass/epoxy laminates. Journal of Testing and Evaluation, 48(2), 1055-1070.

J12: Liu, S., Rawat, P., Chen, Z., Guo, S., Shi, C., & Zhu, D. (2020). Pullout behaviors of single yarn and textile in cement matrix at elevated temperatures with varying loading speeds. Composites Part B: Engineering, 199, 108251.

J11: Zhang, C., Rawat, P., Liu, P., & Zhu, D. (2020). A new design and performance optimization of bio-inspired flexible protective equipment. Bioinspiration & Biomimetics, 15(6), 066003.

J10: Rawat, P., Singh, K. K., Singh, N. K., Tiwari, S. K., & Sharma, A. (2019). Optimizing weight percentage of MWCNTs for enhancing LVI resistance of Quasi-Isotropic symmetric laminate of carbon woven fabric/epoxy embedded with MWCNTs. Experimental Techniques, 43, 719-728.

J9: Xu, X., Rawat, P., Shi, Y., & Zhu, D. (2019). Tensile mechanical properties of basalt fiber reinforced polymer tendons at low to intermediate strain rates. Composites Part B: Engineering, 177, 107442.

J8: Liu, S., Rawat, P., Wang, X., & Zhu, D. (2019). Low velocity impact behavior of AR-glass textile reinforced mortar under varying range of loading and temperatures. Construction and Building Materials, 228, 116773.

J7: Behera, R. P., Rawat, P., Singh, K. K., Ha, S. K., Gaurav, A., & Tiwari, S. K. (2019). Fracture analysis and mechanical properties of three phased glass/epoxy laminates reinforced with multiwalled carbon nanotubes. Journal of Science: Advanced Materials and Devices, 4(2), 299-309.

J6: Rawat, P., Singh, N. K., Singh, K. K., & Kumar, A. (2018). Experimental and Numerical Approach to Investigate Damage Tolerance in FRP Composites Subjected to Transverse Low-Velocity Impact. Research & Development in Material Science, 8, 1-10.

J5: Singh, K. K., & Rawat, P. (2018). Mechanical behavior of glass/epoxy composite laminate with varying amount of MWCNTs under different loadings. Materials Research Express, 5(5), 055012.

J4: Rawat, P., Singh, K. K., & Tripathi, B. N. (2018). Short beam strength and flexural behavior of GFRP laminates embedded with short carbon fibers having notch. Materials Science: Advanced Composite Materials, 2(2), 1-5.

J3: Singh, N. K., Singh, K. K., Rawat, P., & Sharma, A. Drop Weight Impact Behaviour of Quasi-Isotropic CFRP Composite Embedded with MWCNTs Synthesized by Arc Discharge Method" Research & Development in Material Science, 6(5), 1-8.

J2: Rawat, P., & Singh, K. K. (2017). An impact behavior analysis of CNT‐based fiber reinforced composites validated by LS‐DYNA: A review. Polymer Composites, 38(1), 175-184.

J1: Singh, N. K., Rawat, P., & Singh, K. K. (2016). Impact response of quasi-isotropic asymmetric carbon fabric/epoxy laminate infused with MWCNTs. Advances in Materials Science and Engineering, 2016.