Navigating through the complexities of agricultural machinery, one component that stands out for its specific application is the 13.6 38 rice field tire. This tire category is designed to meet the unique demands of rice field farming, providing the necessary traction and support for machinery used in wet and muddy conditions.
The design of 13.6 38 rice field tires is tailored to optimize performance in paddy fields. These tires feature deep treads and a wide footprint, which help in distributing the weight of the machinery evenly, reducing soil compaction and enhancing mobility. The robust construction of these tires ensures durability, even under the stress of wet field operations.
Within the category of 13.6 38 rice field tires, there are variations to suit different types of agricultural machinery. Each variant is crafted to provide stability and efficiency for the equipment it is paired with, whether it's a tractor or a specialized rice harvester. The selection includes different tread patterns and ply ratings to accommodate various farming needs and machinery specifications.
The primary application of 13.6 38 rice field tires is for vehicles operating in rice paddies. The unique challenges presented by wet and uneven terrain require a tire that can perform consistently. These tires are not limited to rice cultivation; they are also suitable for other types of wetland farming where similar conditions prevail.
The features of 13.6 38 rice field tires include their reinforced sidewalls and specially formulated rubber compounds, which provide resistance to punctures and cuts. The advantage of using these tires is their ability to maintain traction in slippery conditions, reducing the risk of machinery getting stuck and ensuring that farm operations can proceed without unnecessary interruptions.
Manufacturers of 13.6 38 rice field tires often utilize advanced materials that offer longevity and environmental sustainability. The materials are selected to minimize the environmental impact while ensuring that the tires can withstand the harsh conditions of rice farming. This focus on sustainability is crucial in today's agricultural practices.