We consider the size of the Ondulin sheet: length, width, height

Crucial to roofing solutions, ondulin sheets are available in a range of sizes that are essential to both their installation and functionality. Gaining an understanding of these three measurements—height, width, and length—ensures efficiency and compatibility in roofing projects.

First off, the horizontal measurement of an Ondulin sheet when it is laid across the roof is referred to as its length. These sheets are usually offered in standard lengths that are designed to match typical roofing measurements; these lengths range from small sizes for sheds to larger panels for homes and businesses.

The horizontal distance between two edges of an Ondulin sheet is indicated by its width. This dimension is crucial because it establishes the coverage area per sheet, which affects the total structural and aesthetic integrity of the roof as well as the quantity of sheets needed.

The height of Ondulin sheets, which indicates their vertical thickness or depth, is equally important. This dimension affects the roofing material’s resilience to weather and insulation qualities, which in turn affects the material’s capacity to offer sufficient protection from the elements.

Understanding these three basic measurements—length, width, and height—allows homeowners and roofing professionals to choose and install Ondulin sheets with confidence, guaranteeing long-term durability and peak performance.

What is Ondulin made of

Ondulin is produced using only pure cellulose. Etheric resins and oil bitumen are used for its impregnation. The production process is basically as follows:

• The first stage – cleansing cellulose. Garbage and various impurities are removed from it, after which they soak in water with divorced pigments and modifiers. The result is a raw material for ondulin. Called this raw material pulp.
• The second stage – manufacturers process pulp on the conveyor, pressing it up to three mi -milemma thickness. After drying and hardening, wavy material is obtained.
• The third stage – the resulting basis with an obligatory area of ​​1.9 m2 is impregnated with bitumen.
• Finally, the fourth stage is the stacking of the resulting material, which is packaged in the heat -shaped film.

Ondulin is able to bend because of the materials used in its manufacture. Of course, bending it into the tube will not work, but it is quite feasible to bend it evenly by a significant portion of the roof’s radius.

The sheets bear the name of the French company "ONDULINE," which possesses a product patent. This type of building material is used to arrange roofs on a variety of structures, including social facilities and residential buildings.

The dimensions of Ondulin for the roof

Ondulin is produced with a tiny tolerance in standard sizes. Calculating the amount of coating needed for your roof is simple if you know the working size of the sheet. Take into consideration the Ondulin sheet’s standard dimensions.

• Ondulin length is 2000 mm.
• Ondulin"s working width – 950 mm. This is enough to decorate the roof of small and medium area.
• Ondulin sheet thickness is 3 mm, but minor deviations are possible for this indicator.
• The height of the Ondulin leaf wave – 36 mm.
• Compared to the slate, the weight of Ondulin is not so large: one sheet weighs 6 kg.

Once again, these are ondulin’s standard dimensions. The image below shows the acceptable choices.

It is composed of Ondulin sheets overlapping horizontally over one wave. When it comes to vertical, it is between 10 and 15 cm (if the slope is more than 15 degrees). In these situations, the Ondulin leaf’s useful area is roughly 1.6 m2.

The advantages and disadvantages of Ondulin

Ondulin comes with benefits and drawbacks. We will elaborate on them for you.

Advantages

• As we have already mentioned in the article, the weight of Ondulin is 6 kilograms per sheet. This is more metal tiles (from 3.5 to 5.5 kilograms), but much less than the slate. For comparison – the standard eight -wave sheet of slate weighs 20 kilos more. The relatively low weight of Ondulin creates not the largest load on the entire roof system, which makes it possible to save on the rafters.
• Strength. Approximate bearing capacity of the material is 650 kg/m2. This is enough to withstand a large snow load.
• Ability not to let water. Thanks to the special fibers of the material and the presence of bitumen impregnation, the water does not get into the undercarbon space. An advantage as hydrophobicity will protect the rafter structure from water.
• Sound absorption. In a house with a roof of such material, there is practically no wind and rain.
• Ability to withstand temperature differences. The range in which you can use ondulin: from – 40 to +80 degrees.
• Relatively inexpensive price. In fact, it may be lower than many other building materials.
• Ecological material. Safe, made of natural components.
• Chemical stability. Ondulin is quite acceptable to use in areas where enterprises with the chemical industry are concentrated. He is not afraid exposure of alkalis, acids, fungi and other harmful substances.
• Flexibility. Excellent quality for transporting material, especially taking into account the size of Ondulin for the roof.
• Large range of colors. This is easy to verify by typing the word "order ondulin of different colors" in the search engine.

Flaws

Regretfully, Ondulin has drawbacks as well.

• Gently with fire. Ondulin, although not afraid of fire, is still considered a combustible material. Therefore, sheets can be deformed at a temperature of more than 100 degrees. For such a reason, it should not be used on the roofs of baths, houses where there are fireplaces and stoves, as well as in arbors with barbecue. It is also not the best option for the roof of social institutions and objects with increased fire safety requirements.
• Loss of color. Ondulin can change color under the influence of ultraviolet radiation. Simply put, over time he is able to fade.
• The flexibility of the material. Yes, one of the advantages of Ondulin can turn into a disadvantage, which leads to its relatively low strength. Therefore, when choosing the material, take care of the arrangement of the crate and the quality of fasteners.

In conclusion, anyone wishing to use Ondulin roofing sheets for building or remodeling projects must be aware of their dimensions. These sheets’ dimensions—length, width, and height—affect how well they fit together, how much area they cover, and how well they function in various climates.

Estimating the number of sheets required for a project and their installation method is made easier by being aware of the standard sizes. This information also helps with effective budgeting and planning, which lowers the possibility of material waste or delays brought on by inaccurate measurements.

In addition, taking into account the dimensions of Ondulin sheets guarantees compatibility with other roofing materials and building structural components. Over time, this compatibility is crucial to preserving the roof’s durability and integrity.

In general, builders and homeowners can enhance the lifespan, effectiveness, and visual appeal of their roofing projects by carefully evaluating the dimensions of Ondulin sheets.

We explore the length, width, and height of Ondulin sheets and uncover useful information that is essential for roofing projects. Comprehending these dimensions facilitates informed decision-making for both professionals and homeowners, guaranteeing optimal coverage and effective installation. This article explains how these measurements affect roofing strategies and provides practical advice on how to choose and use Ondulin sheets.

Video on the topic

Ondulin. From the series "How many times have they insisted to the world".