Wear of cultivator coulters reinforced with cemented-carbide plates and hardfacing

Three constructional solutions of coulters used in cultivators were assessed with regard to their wear resistance in soil. The coulters were installed on a four-beam cultivator used for cultivation of loamy-sandy soils with humidity typical for the summer season. It was found that the amount of thic...

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Bibliographic Details
Published in:Wear 2019-11, Vol.438-439, p.203063, Article 203063
Main Authors: Kostencki, Piotr, Stawicki, Tomasz, Królicka, Aleksandra, Sędłak, Paweł
Format: Article
Language:English
Subjects:
Abrasive wear
Agriculture
Boron steels
Cement reinforcements
Cemented carbide
Cemented carbides
Cultivation
Cultivator coulters
Gardening
Hand tools
Hard surfacing
Hardfacing
Martensitic stainless steels
Martensitic steels
Plates
Sandy soils
Soil
Soil resistance
Wear mechanisms
Wear resistance
Welded joints
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Summary:Three constructional solutions of coulters used in cultivators were assessed with regard to their wear resistance in soil. The coulters were installed on a four-beam cultivator used for cultivation of loamy-sandy soils with humidity typical for the summer season. It was found that the amount of thickness reduction of the coulters in the areas with cemented-carbide plates and padding welds was lower than that in the base-material areas. It was also found that the amount of wear of the coulters installed on the first cultivator beam was the highest and decreased on the subsequent beams. The dominating mechanism of the wear of martensitic steel was microcutting and grooving. The pad-welded material was subjected to a complex wear mechanism (dominated by microcutting). The wear mechanism of the cemented-carbide plates included characteristic stages. •Wear mechanism of materials influenced wear intensity.•Cemented-carbide plates revealed the highest wear resistance.•Pad-welds effectively reduced the thickness loss.•Soil conditions influenced the wear intensity of coulters.
ISSN:0043-1648
1873-2577
DOI:10.1016/j.wear.2019.203063