Pro-Railing offers a versatile and stylish range of Balustrade Infills designed to complement any architectural project. These infills are available in a variety of materials including architectural woven mesh, welded wire mesh, perforated and expanded metal in stainless steel types 304 and 316, aluminium, or mild steel. They are designed for ease of installation with fixing brackets available in stainless steel or galvanised options, ensuring durability and aesthetic appeal. The infills not only enhance the structural integrity of balustrades but also contribute to the overall visual impact of the space.

Whether for commercial or residential settings, Pro-Railing’s Balustrade Infills offer a perfect mix of functionality and style, making them an ideal choice for any construction or renovation project seeking to strike a balance between safety and design.

Balustrade infills from Pro-Railing are an excellent choice for those looking to enhance both the function and aesthetics of railing systems. Available in various materials such as architectural woven mesh, welded wire mesh, perforated and expanded metal, these infills cater to diverse design preferences. They come in stainless steel (Type 304 and 316), aluminium, or mild steel, providing durable and stylish options for any setting.

Key Features

  • Diverse Materials: Choose from stainless steel, aluminium, or mild steel to match any design requirement.
  • Versatile Applications: Perfect for both residential and commercial properties, these infills can be integrated into various architectural styles.
  • Ease of Installation: Pro-Railing provides fixing brackets to secure the infills to posts, available in stainless steel Type 316 and galvanised options.

Balustrade infills not only improve the safety of railing systems by filling gaps but also offer a chance to incorporate design elements that complement the surrounding environment. For anyone looking to update their balustrades, Pro-Railing offers a range of options that combine quality with aesthetic flexibility.