1.5 Ton 1500kg PP Woven FIBC Jumbo Bag with High Tensile and Wear Resistant performance is a professional flexible intermediate bulk container (FIBC) designed for handling bulk goods. Made of high-quality virgin polypropylene (PP) resin, it adopts advanced extrusion, filament drawing and high-density weaving technology, combined with precision double-needle sewing processes to strengthen the fabric’s toughness and structural firmness, ensuring it can stably bear 1500kg (1.5 Ton) weight without deformation, breakage or wear during loading, unloading and transportation.
Key product parameters include 1.5 Ton (1500kg) safe working load, high tensile strength PP woven fabric with 120-300 gsm thickness, wear-resistant surface texture, reinforced cross-corner lifting loops, and seamless sewing seams, complying with international safety standards with a 5:1 or 6:1 safety factor. Strict quality control is implemented throughout the entire production process: raw materials undergo tensile and wear resistance tests, fabric weaving is inspected for density and uniformity, and each finished bag passes load-bearing, wear and tensile tests to ensure long-term reliable use.
Its core functions focus on high tensile strength for heavy-duty bearing, wear resistance to avoid damage from friction during bulk goods handling, and convenient operation for easy lifting by forklifts or cranes. The collapsible design saves space when empty, reducing storage and logistics costs, while the PP fabric is moisture-proof and dust-proof, effectively protecting bulk goods from external environmental impact.
Widely applied in agriculture, construction, chemical, mining and logistics industries, it is ideal for storing and transporting all kinds of dry bulk goods such as grains, seeds, cement, sand, chemical powders and fertilizers. This 1.5 Ton PP woven FIBC jumbo bag integrates high tensile strength, wear resistance and practicality, providing a safe, efficient and cost-effective packaging solution for bulk goods handling, helping enterprises optimize logistics efficiency and reduce packaging costs.