100gr/m2 alkali-resistant fiberglass mesh
| Type |
Weight(g/m2) |
Glue content |
Tensile strength(N/50mm) |
Fixation(N) |
Weave |
| Warp(N) |
Weft(N) |
| 4*4 |
160±4 |
14% |
≥1400 |
≥1800 |
≥3 |
Leno |
| 4*4 |
145±3 |
14% |
≥1400 |
≥1500 |
≥3 |
Leno |
| 4*4 |
75±3 |
14% |
≥800 |
≥800 |
≥3 |
Leno |
| 5*5 |
160±4 |
14% |
≥1200 |
≥2000 |
≥3 |
Leno |
| 5*5 |
140±3 |
14% |
≥1200 |
≥1700 |
≥3 |
Leno |
| 5*5 |
130±3 |
14% |
≥1000 |
≥1200 |
≥3 |
Leno |
| 5*5 |
125±3 |
14% |
≥1200 |
≥1400 |
≥2.5 |
Leno |
| 5*5 |
110±3 |
14% |
≥1000 |
≥1000 |
≥2 |
Leno |
| 10*10 |
110±3 |
16% |
≥1200 |
≥900 |
≥2 |
Leno |
Fiberglass mesh is a woven or non-woven fabric made from fiberglass strands. It is used for various construction and reinforcement applications. Here are some key aspects of fiberglass mesh:
Composition:
Material: Fiberglass mesh is made from strands of glass fiber. The glass used is often alkali-resistant, ensuring that the mesh remains stable when exposed to alkaline substances, such as those found in cement.
Types of Fiberglass Mesh:
Woven Fiberglass Mesh: This type of mesh is made by weaving individual fiberglass strands together in a pattern similar to traditional fabrics. It is available in different mesh sizes and is commonly used for applications such as reinforcing plaster or stucco.
Non-Woven Fiberglass Mesh: This type is made by bonding or stitching the fiberglass strands together without a traditional weaving process. Non-woven meshes are often used in applications like roofing or wall reinforcement.
Applications:
Construction: Fiberglass mesh is widely used in the construction industry for reinforcing various building materials. It is commonly applied to surfaces such as drywall, concrete, and stucco to improve strength and prevent cracking.
EIFS (Exterior Insulation and Finish System): Fiberglass mesh is an integral part of EIFS, where it is used to reinforce the base coat and provide additional strength to the system.
Masonry: In masonry applications, fiberglass mesh can be embedded in mortar or concrete to enhance the tensile strength of the structure.
Roofing: Fiberglass mesh is sometimes used in roofing materials to add strength and durability.
Features:
Alkali-Resistant: Fiberglass mesh is often designed to resist damage from alkaline substances present in cement and other construction materials.
Lightweight: The material is lightweight, making it easy to handle and apply to various surfaces.
Flexibility: Fiberglass mesh is flexible and can conform to irregular surfaces.
Installation:
Application Methods: Fiberglass mesh can be applied using various methods, such as embedding it in wet mortar or adhesive, depending on the specific application.
Cutting and Handling: Fiberglass mesh is typically easy to cut with scissors or a utility knife, making it adaptable to different project requirements.
Benefits:
Crack Prevention: One of the primary benefits of using fiberglass mesh is its ability to prevent or minimize cracking in surfaces like plaster, stucco, or concrete.
Durability: Fiberglass mesh enhances the durability and longevity of construction materials by providing additional reinforcement.
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