Open AccessDESIGN OPTIMISATION OF ROTARY TILLER BLADE TOWARDS SERVICE LIFE ENHANCEMENT
Author(s) -
Subrata Kumar Mandal,
Budhaditya Bhattacharyya,
Somenath Mukherjee,
S. Karmakar
Publication year - 2022
Publication title -
journal of manufacturing engineering
Language(s) - English
Resource type - Journals
ISSN - 0973-6867
DOI - 10.37255/jme.v16i4pp115-123
Subject(s) - seedbed , tiller (botany) , tillage , service life , agricultural machinery , agricultural engineering , blade (archaeology) , engineering , sowing , agronomy , environmental science , agriculture , mechanical engineering , ecology , biology
A rotary tiller or rotavator is active tillage equipment used to prepare farmland for sowing seeds, weeding, mixing manure and fertiliser into the soil, crushing soil blocks, etc. Compared with conventional farming, the advantages of this equipment are rapid seedbed preparation and reduced draught. Nowadays, the utilisation rate of rotary tillers has increased. However, the blades are the key component that engages with the soil in the rotary tiller. These blades interact with the soil differently from ordinary ploughs and bear impact loads and high frictional forces, which eventually generate unbalanced and uneven forces on the entire rotary tiller. As a result, the blade faces significant wear. Therefore, it is necessary to optimise the design of the blades to minimise wear and enhance the service life. In this research work, design optimisation was carried out towards improving service life.