BR180 Breather layer Cloth (1520mm)

In stock
Regular price £15.00 GBP inc. VAT
length

https://www.ebay.co.uk/itm/314715573867

SPECIFICATION

Product Data
Colour White
Chemistry / Material Polyester
Format Non Woven Fabric
Type Breather / Soaker
Weight and Dimensions
Width 1520 mm
Areal Weight 140 g/m²
Thickness 1.8 mm
Cured Mechanical Properties
Max Service Temp 180 °C
General Properties
Gross Weight 23 kg

BR180  Breather layer Cloth with a width of 1520mm is a crucial component in composite manufacturing, specifically designed to facilitate the curing process of composite materials. As a heavyweight breather layer, this cloth serves as a reliable absorbent material, helping to remove excess resin and air during the vacuum bagging process. The substantial width of 1520mm ensures comprehensive coverage for a variety of molds and composite layups, making it an ideal choice for industries such as aerospace, automotive, and marine, where large and intricate composite structures are common.

The BR180 Breather layer Cloth's exceptional absorption properties play a pivotal role in ensuring the success of the vacuum bagging process. By efficiently absorbing excess resin and air, it helps prevent voids and irregularities in the composite structure, contributing to the overall quality and integrity of the finished product. The 1520mm width enhances its versatility, allowing manufacturers to handle a range of projects with varying sizes and complexities. This heavy-duty breather layer cloth is an essential tool for achieving consistent and high-quality composite components across diverse applications.

Manufacturers in the composite industry appreciate the reliability and efficiency of BR180  Breather layer Cloth (1520mm). Its wide coverage, absorbent properties, and heavy-duty construction make it a go-to choice for professionals seeking optimal results in the vacuum bagging process. From large aerospace components to intricate automotive parts, this breather layer cloth plays a crucial role in ensuring that composite materials cure uniformly and without defects, contributing to the production of durable and high-performance composite structures