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OSB types: Composition, structure and production

8 April
OSB types: Composition, structure and production

Oriented strand board (OSB) is a multilayer sheet consisting of wood shavings (thin chips) glued with various resins with the addition of synthetic wax and boric acid. The wood shavings in the board layers have different orientation: longitudinal in the outer layers and transverse in the inner layers.

The first step in producing OSB is sorting the raw materials. The raw materials used are aspen, spruce, pine, and poplar.

After sorting, the logs are mechanically cleaned of bark. The cleaned logs are sawn into pieces and then the chips are cut, and at the end of the process, the chips are dried using a conveyor.

The binder used in OSB boards is wax and glue based on paraffin, formaldehyde oil, or boric acid. The binder is mixed with the chips. The resulting mass is poured as an even mat and directed to the pressing equipment.

The board pressing equipment operates at a pressure of 5 N/mm2 and a temperature of 170-200 °C, which is required for the glue to set (glue curing). Temperature and pressure are continuously monitored in the pressure zone. After pressing, the edges are removed. The thickness, density and other technical parameters of the material are checked.

After checking the material quality, the OSB is cut into standard-sized pieces. If necessary, the edges are profiled. The finished boards are fed into the labeling and packaging machines.

 

Types of OSB:

- OSP1 - intended for use in conditions of reduced humidity (furniture, paneling, packaging).

- OSP2 - used in the manufacture of load-bearing structures in dry rooms.

- OSP3 - used in the manufacture of supporting structures in conditions of high humidity.

- OSP4 - used in the manufacture of structures bearing significant mechanical load in conditions of high humidity.

* OSB3 and OSB4 are not waterproof. Only the adhesive, which does not lose its properties when in contact with water, is water-resistant. The board must therefore be protected against direct contact with water; otherwise, it will become saturated with water.

 

Vapor permeability of OSB boards:

Vapor permeability, m (dry/wet) - the value of which can be written as 200/150. It is the relative conductivity coefficient between dry and wet. It only indicates how poorly the OSB board conducts vapor compared to air, as it is not only wood chips, but also a combination of wood and oils, which results in low vapor permeability.

 

OSB processing:

Due to the composition and structure of the board, various types of processing are possible (it can be handled in many different ways). Cutting, chamfering, drilling, jointing, sawing and milling are possible with stationary and small electric and mechanical tools.

One of the main factors when working with OSB is the safety of life and health. The use of personal protective equipment is therefore recommended. Ventilation of the building is necessary.

 

The ability of OSB boards to hold the fasteners in place:

The high density and the presence of fibers in the board ensure a firm hold. All types of fasteners and screws such as self-tapping screws, nails, dowels, etc. can be used. The fasteners can be fixed at a distance of 10 mm from the edges. As a last resort, you can nail at a distance of 6 mm from the edges.

A good quality paint can be used on oriented strand boards.

The following must be taken into consideration when treating the board

- The surface must be primed before painting. If the surface is rough, at least two coats of primer must be applied, as treated OSB increases its absorption capacity.

- For OSB, it is recommended to use a primer that contains anti-mold additives.

- A light sanding of each coat with primer and/or paint is recommended. This method ensures an even distribution of paint over the entire surface.

- Moisture-resistant paints are recommended; an acrylic-based varnish or paint is best.

 

*OSB boards can be glued with any joinery glue. Sanding the glue surface will make the glue joints much stronger.

 

Environmental friendliness of the material:

One of the most controversial issues regarding OSB is the material's toxicity and health hazards. The binder used in the manufacturing process contains melamine-formaldehyde and phenol-formaldehyde oils, which release formaldehyde when exposed to high temperatures. This is why it has been suggested that this material is more dangerous than particleboard and plywood.

However, oriented strand board has a 3% adhesive and oil content while particleboard has a 12-14% adhesive and oil content.

OSB is classified into three groups according to its formaldehyde content in Europe:

- E1 - up to 0.1 ppm, 0.125 mg/m3;

- E2 - 0.1 - 1.0 ppm, 0.125 - 1.25 mg/m³;

- E3 - 1.0 - 2.3 ppm, 1.25 - 2.87 mg/m³;

Material with formaldehyde emission E1-E2 is approved for use in construction, while material with formaldehyde emission E3 is prohibited.

 

OSB Applications:

As a building material, OSB competes with MDF, fibreboard, and plywood in terms of its application area.

 

Wall cladding and wrapping: The material is resistant to warping and is compatible with all types of wall cladding material.

Rough flooring: OSB is used for flooring on seamless concrete subfloors and wooden beams. Compatible with any type of sound and thermal insulation material. In lightweight structures, the material is used as a floor first layer of covering.

Creating full coverage under the roof: due to the high strength of OSB, it withstands high wind loads; therefore, it can be used under any type of roofing.

Bearing structures: any type of structure is possible thanks to the strength of OSB.

Furniture manufacture: functional and decorative board elements in various thicknesses can be produced.

 

Please note!

If OSB is used in building structures, additional ventilation measures must be taken.