Parameter determination of a visco-elastic-plastic contact model for potatoes during transient collisions, Biosystems Engineering 234 (2023) 156-171. (SCI, 1区, IF=5.1)
Development of cleaning systems for combine harvesters: A review, Biosystems Engineering, 236 (2023) 79–102. (SCI, 1区, IF=5.1)
Selecting the proper material for a grain loss sensor and structure optimization to improve its monitoring ability, Precision Agriculture,2021,22(4):1120- 1133. (SCI, 1区, IF=6.2)
Optimisation of a multi-duct cleaning device for rice combine harvesters utilising CFD and experiments. Biosystems Engineering, 2020,190:25-40 (SCI, 1区, IF=5.1)(国际合作)
Development and testing of a multi-duct cleaning device for tangential- longitudinal flow rice combine harvesters, Biosystems Engineering , 2019,182:95-106 (SCI, 1区, IF=5.1)(国际合作)
Development of rapeseed cleaning loss monitoring system and experiments in a combine harvester[J], Biosystems Engineering , 2019, 178:118-130. (SCI, 1区, IF=5.1)
Optimum design of an array structure for the grain loss sensor to upgrade its resolution for harvesting rice in a combine harvester. Biosystems Engineering, 2017,157c, 24-34.(SCI, 1区, IF=5.1)
Sensor for monitoring rice grain sieve losses in combine harvesters, Biosystems Engineering,2016,147(1),51-66. (SCI, 1区, IF=5.1)
Optimum design of grain sieve losses monitoring sensor utilizing partial constrained viscoelastic layer damping (PCLD) treatment, Sensors and Actuators A- Physical, 2015, 233, 71-82.(SCI, 1区,IF=4.6)
Effects of fan volute structure on airflow characteristics in rice combine harvesters, Spanish journal of agriculture research, 2020,18(4):1-16. (SCI, 4区, IF=1.238)
