References
- Al-Janobi, A.A.; Wahby, M.F.; Aboukarima, A.M.; Al-Hamed, S.A. (2002). Influence of chisel plow shank shape on horizontal and vertical force requirements, Agricultural Sciences, 7(1), 13-19.
- Al-Kheer, A.A.; Kharmanda, M.G.; El Hami, A.; Mouazen, A.M. (2011). Estimating the variability of tillage forces on a chisel plough shank by modeling the variability of tillage system parameters. Computers and Electronics in Agriculture, 78, 61-70.
- Askari, M.; Shahgholi, G.; Abbaspour-Gilandeh, Y.; Tash-Shamsabadi, H. (2016). The effect of new wings on subsoiler performance. Applied Engineering in Agriculture, 32(3), 353-362.
- Berntsen, R.; Berre, B.; Torp, T.; Aasen, H. (2006). Tine forces established by a two-level model and the draught requirement of rigid and flexible tines. Soil & Tillage Research, 90, 230-241.
- Chen, Y.; Cavers, C.; Tessier, S.; Monero, F.; Lobb, D. (2005). Short-term tillage effects on soil cone index and plant development in a poorly drained, heavy clay soil. Soil & Tillage Research, 82, 161-171.
- Davoudi, S.; Alimardani, R.; Keyhani, A.; Atarnejad, R. (2008). A Two Dimensional Finite Element Analysis of a Plane Tillage Tool in Soil Using a Non-linear Elasto-Plastic Model. American-Eurasian Journal of Agricultural & Environmental Sciences, 3(3), 498-505.
- Fenyvesi, L.; Hudoba, Z. (2010). Vibrating Tillage Tools. Soil Engineering. Springer, Berlin Heidelberg, 31-49.
- Godwin, R.J. (2007). A review of the effect of implement geometry on soil failure and implement forces. Soil & Tillage Research, 97, 331-340.
- Ibrahmi, A.; Bentaher, H.; Hamza, E.; Maalej, A.; Mouazen, A.M. (2015). Study the effect of tool geometry and operational conditions on mouldboard plough forces and energy requirement: Part 2. Experimental validation with soil bin test. Computers and Electronics in Agriculture, 117, 268-275.
- Jafari, R.; Karparvarfard, S.H.; Hosseini, S.A. (2011). The effect of geometry and motion characteristics of narrow tillage tool on soil disturbance efficiency. Journal of Agricultural Machinery Science, 7(3), 253-258.
- Lejman, K.; Owsiak, Z.; Pieczarka, K.; Molendowski, F. (2015). Metodyczne aspekty wyznaczania parametrów przebiegu siły wypadkowej działającej na sprężynowe zęby kultywatora. Inżynieria Rolnicza, 4(156), 69-78.
- Lisowski, A.; Klonowski, J.; Green, O.; Świętochowski, A.; Sypuła, M.; Strużyk, A.; Nowakowski, T.; Chlebowski, J.; Kamiński, J.; Kostyra, K.; Mieszkalski, L.; Lauryna, D.; Margielski, J. (2016). Duckfoot tools connected with flexible and stiff tines: Three components of resistances and soil disturbance. Soil & Tillage Research, 158, 76-90.
- Przybył, J.; Kowalik, I.; Dach, J.; Zbytek, Z. (2009). Analiza jakości pracy agregatów do uprawy przedsiewnej. Journal of Research and Application in Agriculture Engineering, 4(54), 62-68.
- Rouw, A.; Huon, S.; Soulileuth, B.; Jouquet, P.; Pierret, A.; Ribolzi, O.; Valentin, C.; Bourdon, E.; Chantharath, B. (2010). Possibilities of carbon and nitrogen sequestration under conventional tillage and no-till cover crop farming (Mekong valley, Laos). Agriculture, Ecosystems and Environment, 136, 148-161.
- Sánchez-Girón, V.; Ramırez, J.J.; Litago, J.J.; Hernanz, J.L. (2005). Effect of soil compaction and water content on the resulting forces acting on three seed drill furrow openers. Soil & Tillage Research, 81, 25–37.
- Shmulevich, I.; Asaf, Z.; Rubinstein, D. (2007). Interaction between soil and a wide cutting blade using the discrete element method. Soil & Tillage Research, 97, 37–50.
- Ucgul, M.; Fielke, J.M.; Saunders, C. (2015). Defining the effect of sweep tillage tool cutting edge geometry on tillage forces using 3D discrete element modeling. Information Processing in Agriculture, 2, 130–141.
- Zhang, X.; Chen,Y. (2017). Soil disturbance and cutting forces of four different sweeps for mechanical weeding. Soil & Tillage Research, 168, 167–175.