[1] Leng Zhendong, Sun Jinshan, Lu Wenbo, Jia Yongsheng*, Xie xianqi. Mechanism of the in-hole detonation wave interactions in dual initiation with electronic detonators in bench blasting operation. Computers and Geotechnics. 2021, 129:1-13. (SCI源刊,IF:5.3,二区)

[2] Leng Zhendong(*), Fan Yong, Gao Qidong, et al. Evaluation and optimization of blasting approaches to reducing oversize boulders and toes in open-pit mine.International Journal of Mining Science and Technology, 2020, 30(3):373-380.(SCI源刊,IF:11.8,一区Top，中国科技期刊卓越行动计划)

[3] Leng Zhendong, Lu Wenbo, Chen Ming, et al. Explosion energy transmission under side initiation and its effect on rock fragmentation.International Journal of Rock Mechanics & Mining Sciences, 2016, 86: 245~254.（SCI源刊,IF:7.2,一区Top）

[4] Leng Zhendong, Lu Wenbo, Chen Ming, et al. A new theory of rock-explosive matching based on the reasonable control of crushed zone.Engineering, 2014, 12(6): 32~38.（中国科技期刊卓越行动计划）

[5] Lu Wenbo, Leng Zhendong(*) , Hu Haoran, et al. Experimental and numerical investigation of the effect of blast-generated free surfaces on blasting vibration.European Journal of Environmental and Civil Engineering, 2018, 22(11): 1374-1398.（SCI源刊,IF:2.1,通讯作者）

[6] Lu Wenbo, Leng Zhendong(*), Chen Ming, et al. A modified model to calculate the size of the crushed zone around a blast-hole.Journal of The Southern African Institute of Mining and Metallurgy, 2016, 116(5): 413~422.（SCI源刊,IF:0.9,通讯作者）

[7] Leng Zhendong, Gao Qidong, Lu Wenbo, et al. Experimental and numerical investigation on rock fragmentation under combined blastholes with different diameters. International Symposium on Rock Fragmentation by Blasting, 2018. LULE, Sweden. 509-525.

[8] Gao Qidong, Lu Wenbo, Leng Zhendong(*), et al. Effect of initiation location within blasthole on blast vibration field and its mechanism. Shock and Vibration. 2019,1-15. (SCI源刊,IF:1.628,通讯作者).

[9] Gao Qidong, Leng Zhendong (*), Chen Ming, et al. Mathematical and mechanical analysis of the effect of detonator location and its improvement in bench blasting. Mathematical Problems in Engineering. 2020(3):1-14. (SCI源刊,IF:1.009,通讯作者).

[10] Fan Yong, Zheng Junwei , Cui Xianzhe, Leng Zhendong(*), et al. Damage zones induced by in situ stress unloading during excavation of diversion tunnels for the Jinping II hydropower project. Bulletin of Engineering Geology and the Environment, 2021(8):1-27. (SCI源刊,IF:4.4,通讯作者).

[11] Leng Zhendong, Fan Yong, Zhou Guisong, et al. Failure reliability evaluation of electronic detonator subjected to shock loading in underground blasting. 13th International Symposium on Rock Fragmentation by Blasting, 2022. Hangzhou, China. 813-820.

[12] 范勇, 吴凡, 冷振东(*), 等. 径向不耦合装药爆压消峰作用及其对岩石破裂范围影响. 兵工学报, 2022,11:1-13. (EI源刊,中国科技期刊卓越行动计划)

[13] 冷振东，范勇，涂书芳，等. 电子雷管起爆技术研究进展与发展建议. 中国工程科学, 2023,25(1):142-154. (中国科技期刊卓越行动计划)

[14] 冷振东, 范勇, 卢文波, 等. 孔内双点起爆条件下的爆炸能量传输与破岩效果分析. 岩石力学与工程学报, 2019,38(12): 2451-2462. (EI源刊,中国科技期刊卓越行动计划)

[15] 冷振东, 卢文波, 胡浩然, 等. 爆生自由面对边坡微差爆破诱发振动峰值的影响. 岩石力学与工程学报, 2016,35(9):1815~1822.(EI源刊,中国科技期刊卓越行动计划)

[16] 冷振东, 卢文波, 范勇, 等. 侧向起爆条件下的爆炸能量分布及其对破岩效果的影响. 爆炸与冲击, 2017, 37(4): 661~669.(EI 源刊)

[17] 冷振东, 卢文波, 陈明, 等. 岩石钻孔爆破粉碎区计算模型的改进. 爆炸与冲击, 2015, 35(1): 101~107. (EI 源刊)

[18] 冷振东, 卢文波, 严鹏, 等. 基于粉碎区控制的钻孔爆破岩石-炸药匹配方法. 中国工程科学, 2014, 16(11): 28~35.（中国科技期刊卓越行动计划）

[19] 冷振东, 赵明生, 卢文波, 等. 基于非理想爆轰的炸药-岩石相互作用过程. 工程爆破, 2018, 24(06): 1-9+32. (中文核心)

[20] 冷振东, 刘亮, 周旺潇, 等. 起爆位置对台阶爆破爆堆形态影响的离散元分析. 爆破, 2018, 35(02): 50-55+100. (中文核心)

[21] 高启栋, 卢文波, 冷振东(*), 王亚琼, 等. 考虑爆源特征的岩石爆破诱发地震波的波型与组分分析.岩土力学,2021,42(10):2830-2844. (EI 源刊,中国科技期刊卓越行动计划)

[22] 冷振东，高启栋，卢文波，等. 岩石钻孔爆破能量调控理论与应用技术研究进展. 金属矿山, 2023(05):64-76. (中文核心)

[23] 冷振东.高原大断面隧道现场混装爆破关键技术研究. 全国岩石动力学大会, 重庆. 2023-09-22. (特邀报告、大会优秀学术报告)

[24] 冷振东. 基于现场混装炸药作业的高原隧道爆破优化设计方法研究. 第二届精细爆破东湖论坛暨第十二届中国爆破行业学术会议, 武汉. 2023-10-21. (特邀报告、大会优秀学术论文)