Xuzhou RAYLANDER International Trade Co., Ltd.

Xuzhou RAYLANDER International Trade Co., Ltd.

All-terrain performance, 15-ton fully functional amphibious excavator expands the boundaries of engineering operations

2026 02/25

Recently, the 15-ton fully functional amphibious excavator, with its stable and reliable amphibious capabilities, has become an important equipment for complex construction scenarios. This device combines the efficiency of land operations with the ability to operate on water, featuring sealed floating boxes and specialized walking structures. It can operate stably in shallow water areas, wetlands, and tidal flats, moving autonomously without the need for additional auxiliary equipment, significantly enhancing the flexibility of construction in the wild and on water bodies.

On the construction site, it often collaborates with various machinery. The Truck crane can quickly complete on-site material hoisting and equipment transportation, providing support for the amphibious excavator; the Truck-mounted crane, with its flexible transfer advantages, is suitable for multi-location and short-cycle lifting needs, making on-site scheduling more efficient; the Mixer truck is responsible for concrete transportation, ensuring continuous construction in water conservancy, shoreline restoration, and other projects, forming a complete operation chain.

This model is suitable for various tasks such as dredging, dredging, slope restoration, and ecological restoration. By replacing attachments, it can expand its functions, effectively addressing the pain points of traditional equipment in difficult operations in water areas and soft terrain. The overall design takes into account durability and ease of operation, enabling it to adapt to long-term high-intensity construction, providing stable support for water conservancy construction, environmental governance, emergency rescue and other fields, further enriching the operation scenarios of engineering equipment and promoting the steady improvement of construction efficiency in complex terrains.