1.
Driver Strategy Research of Control System of Cultivation Unit Based on CAN_bus;
基于CAN总线的耕作机组驾驶策略控制系统研究
2.
Effects of Conservation Tillage on Soil Organic Carbon Fractions
保护性耕作对土壤有机碳组分的影响
3.
Designing of a Small Deep-Digging Rotary Tiller used in Plastic Shed;
蔬菜大棚用小型深耕旋耕机组的设计
4.
multirow-crop rotary cultivator
多行作物旋转中耕机
5.
tillage machine with power-driven working parts
驱动型土壤耕作机械
6.
Tractors have revolutionized farming.
拖拉机革新了耕作方法。
7.
The cultivator worked fourteen hours a day, laying by the corn.
中耕机每天工作14小时,给玉米作最后一次中耕。
8.
The Technology Study of Mechanical Conservation Tillage for the Red Hillside Fields in YUNNAN;
云南红壤旱耕地机械化保护性耕作技术研究
9.
This clearly shows the advantage of mechanized farming.
这清楚地说明了了机械化耕作的好处。
10.
Trunks and tractors have revolutionized farming.
卡车和拖拉机革新了农业耕作。
11.
Study on the 1GZL-140(2) Rototilling-Tillage Combine
1GZL-140(2)耕整联合作业机的研究
12.
The 2BQLM-3(4) Type Ridge-till and No-tillage Ferti-seeder Spreader
2BQLM-3(4)型垄作免耕播种施肥机
13.
Technial characteristics and operation points of Japanese rotavator
日本旋耕机技术特点及操作使用要点
14.
Development and measures Liaoyang mechanization conservation tillage
辽阳机械化保护性耕作的发展与对策
15.
complete cultivator
全面中耕机[耕耘机]
16.
row-crop attachment
中耕作物耕作附加装置
17.
Effects of Tillage Practices on Soil Organic Carbon Distribution and Mineralization in Different Depth of a Brookston Clay Loam Soil
耕作方式对Brookston粘壤土耕层不同深度有机碳分布及稳定性影响
18.
Effects of Conservation Tillage with Straw Cover or Straw Standing on the Soil Microbial Biomass Carbon and Organic Matter
留茬覆盖免耕保护性耕作对土壤微生物量碳和有机质含量的影响