In Ghana, Jinbiao Construction Materials was entrusted with the design and installation of a comprehensive wire mesh guardrail system for a major highway expansion project. This project aimed to enhance the safety of motorists and pedestrians, while also improving the overall aesthetics of the roadway.
The Nauru Aiwo Port Terminal Upgrade Project – Chain Link Fence Installation focuses on modernizing perimeter security to enhance operational safety and infrastructure resilience. By replacing outdated barriers with corrosion-resistant, high-durability chain link fencing, the project aims to safeguard port assets, comply with international maritime standards, and support Aiwo Port’s broader modernization goals for improved trade efficiency.
The Thailand Railway Fence Project is a critical infrastructure initiative aimed at enhancing rail safety and operational efficiency. It involves the installation of durable, high-quality fencing along key railway corridors to prevent unauthorized access, reduce accidents, and protect both passengers and wildlife. Constructed with corrosion-resistant materials, the fences integrate modern technology to ensure long-term durability. This project aligns with Thailand’s broader goals of modernizing its transportation network and promoting sustainable, accident-free rail operations.
358 Security Fence Installation in the United States (2018)
By Hebei Jinbiao Construction Materials Tech Corp., Ltd.
In 2023, Hebei Jinbiao Construction Materials Tech Corp., Ltd. supplied Security Boundary Fence systems for a critical infrastructure project in Guyana. Designed to meet international security standards, our galvanized steel fencing solutions prioritized anti-intrusion performance, durability, and adaptability to tropical climates. The project underscored our ability to deliver precision-engineered security materials tailored to regional requirements, with strict adherence to quality control and on-time delivery.
In 2015, Hebei Jinbiao designed and deployed large-scale windbreak fencing systems in Uzbekistan to mitigate sand encroachment threatening critical infrastructure in arid regions.
Combining aerodynamic engineering with corrosion-resistant materials, our solution effectively stabilized soil and reduced airborne particulates, supporting agricultural and transportation sustainability.
