A hard floor can be dangerous if it is wet. There are several ways that can reduce how slippery the floor is - adding Anti-Slip Matting to hard floors is the most common and accessible way. Let us list some benefits that show how floor matting is your best choice.
Anti-Slip Capability
As the name suggests, anti-slip matting reduces a person's tendency to slip or fall on a surface, such as a slippery hard surface. Anti-slip mats vary in surface designs, with some being plain and smooth while others are more textured. The surface design, as well as the floor pattern, allow for a better grip against wetness; this makes them an excellent choice for slippery floors.
Floor Protection
Adding quality anti-slip matting protects your hard floors better than other floor coverings because they are oil, chemical, and stain-resistant. They are also water-resistant and protect your floors from freeze-thaw damage if you live in a cold climate, or wash them frequently, such as near the entrances. The bottom line is that they protect your floors.
Preservation from Damage
Over time, hard floors are constantly stepped on, endure weights, have objects dropped upon them, and experience other activities that can slowly damage them. Anti-slip matting does a great job of preserving the part of the floor it is covering, since it provides padding and support, and has an anti-vibrate capability that protects against damage. Anti-slip mats provide extra support to hard floors besides reducing their slipperiness.
Easy to Install and East to Clean
Anti-slip matting comes in various sizes depending on your hard floor design; all of them are easy to use. All you have to do is to place it on the surface area you want, without nailing it in. Some mats are easy to use, very effective and simple to clean with a quick vacuum to get rid of the dust and dirt or by mopping them with a neutral detergent. Other mats can be resistant to oils and liquids, they can be wiped easily. or a quick vacuum get rid of the dust and dirt.
Most rubber products suffer alterations in their physical properties if stored for a certain period of time. Therefore, these items will not retain all their properties if stored for a long period of time before use (excessive hardness, softening of the rubber, or cracking of the exterior are some examples). These changes may be the result of a particular factor or a combination of circumstances, such as the effects caused by oxygen, ozone, sunlight, heat or humidity. The adverse effects of these factors can be reduced by careful storage conditions.
COOL
Optimum temperature is 10°C. The temperature should not be less than 0ºC and should not exceed +30ºC. In case the temperature is expected to be below 0º C, care should be taken to increase the temperature of the parts gradually in order to avoid damage.
DRY ENVIRONMENT
It is advisable to maintain an ambient humidity level between 45 and 70%, as an excessively dry environment is detrimental to the rubber. Small deviations during short periods are however admissible.
VENTILATION
Ventilation should be as gentle as possible and drafts should be avoided.
HEAT SPOTS
Rubber rolls should be stored as far away as possible from possible sources of heat or steam.
LIGHT
During storage, they should not be exposed to sunlight or any other light source with ultraviolet radiation.
CLEANING
It is advisable to clean the storage place. Oils, grease and chemicals should not be stored in the same room, or if this is not possible, at least they should be kept away. It is advisable to take measures against rodents and insects.
Rubber sheet (a certain thickness and a larger area of sheet products) is made from rubber as the main material by vulcanizing and a series of process. In recent years, with the rapid development of the construction industry and the continuous improvement of people's living standards, rubber products have revealed their strong vitality.
In daily life, we come into contact with sealing rubber rings, rubber pads, doors and Windows seals and rubber floors. With the innovation of social science and technology, rubber sheet as an emerging scientific and technological composition data has been selected by more and more industries, and the scope of application and use are very wide. In industrial and mining enterprises and construction houses, rubber sheets play a significant effect.
In the construction industry, cement prefabricated panels are often used in buildings, such as rubber panels on the floor, which can reduce the sound and help improve the life of the floor. The rubber sheet can also produce a variety of density plastic window strips, which can effectively prevent air leakage and rain leakage. With the development and change of production and living needs, rubber sheets can be produced with black, gray, green, blue and other different colors to meet the needs of different areas.
In the industrial occupation, rubber plate is mainly used to maintain and protect equipment by its advantages of anti-corrosion, wear resistance, shocking resistance.
In the mining industry, the rubber sheet is used to protect and maintain equipment and related pipeline equipment, which can extend the service life of equipment.
In addition, in the cultural and educational system, rubber sheets can also be used for printing.
In sum, with the continuous development of skills, the use and function of rubber sheets will be more and more extensive in the future, and rubber sheets will be more and more appliable.
Rock wool insulation board is made from various raw materials such as basalt and natural ore, which has high-quality thermal resistance, insulation, acoustic insulation performance, and advantages such as weather resistance, acid and alkali resistance, good elasticity, impact resistance, and flame resistance. Rock wool insulation board is mainly used in the industrial and construction fields, such as electricity, urban heating and exhaust pipelines, collectors, special pipelines, elevators, investment molds, HVAC, laundry rooms, central air conditioning systems, and thermal insulation and sound insulation of light buildings.
Advantages of rock wool board
Durability
Thermal insulation rock wool board is made of basalt and dolomite as the main raw materials, made of high temperature melting, it is not surprising that it has a long service life. In addition, the material does not easily flow and settle, which means that its R-value remains constant over time.
Fire safety
Because of the way it is manufactured, thermal insulation rockwool boards have incredible heat resistance. It is non-combustible, the maximum use temperature ≥700 ℃, melting point ≥1000 ℃. Not only will it not catch fire, the thermal insulation rock wool board will not release a lot of smoke or toxic gases when in contact with flames and high temperatures.
Sound insulation
Insulated rock wool boards are perfect for bedrooms, media rooms, and any other place in the house that needs noise reduction. This insulation slows down (and captures) sound waves as they pass through. As such, it is a popular insulation and sound absorbing material for multifamily and single family homes located in noisy areas. The high density of the thermal insulation rock wool board makes it very effective in noise reduction.
Easy to install
As an insulation material, insulation rockwool board is particularly dense and hard, making it easier to install than many other types of insulation material. The higher rigidity of this material ensures that it can be cut more precisely, making it possible to trim around electrical outlets and other obstructions with great precision.
Rockwool material also offers great flexibility in terms of use and installation. For example, it can be purchased in the form of rock wool roll felt, rock wool tube shell and rock wool board, and can be cut into various shapes and sizes according to needs.
Ceramic fiber blanket is an efficient insulation material widely used in industrial kilns, thermal equipment, high-temperature pipelines and other fields for insulation and heat preservation. The insulation principle is mainly based on the principles of fiber scattering and heat conduction control. The fibers in ceramic fiber blankets have a large number of micropores, which can scatter heat energy, slow down the speed of heat transfer, and achieve insulation effect. Meanwhile, the fiber structure of ceramic fiber blankets can effectively prevent heat conduction, further enhancing insulation performance.
The insulation effect of ceramic fiber blankets is also related to factors such as raw materials and manufacturing processes. In order to achieve better insulation effect, ceramic fiber blankets are usually made from high-quality raw materials such as kaolin, quartz, feldspar, etc., and processed through high-temperature melting, spinning, centrifugation, and other processes. These raw materials have a lower thermal conductivity coefficient, which can effectively prevent the conduction of heat energy. Meanwhile, the fiber diameter and length of ceramic fiber blankets also affect their insulation performance. The smaller the fiber diameter and the longer the length, the better the insulation effect.
In addition, the installation method of ceramic fiber blankets can also affect their insulation effect. During the installation process, it should be ensured that the ceramic fiber blanket is tightly adhered to the surface of the equipment without leaving any gaps to reduce the loss of heat energy. Meanwhile, for different equipment and requirements, ceramic fiber blankets with different thicknesses and specifications can be selected to achieve better insulation effects.
Overall, ceramic fiber blankets achieve insulation effects through multiple mechanisms working together. The principle of fiber scattering and heat conduction control can effectively slow down the speed of heat transfer, while factors such as raw materials and manufacturing processes can also affect its insulation performance. During the installation process, a suitable installation method should be selected to ensure the optimal insulation effect of the ceramic fiber blanket.
With the continuous progress of technology, rubber foam pipes have been increasingly widely used in various fields. This article will start from two aspects: the advantages and application of rubber foam pipes, to help everyone have a deeper understanding of this material.
The advantages of rubber foam pipes
1. Good insulation performance: Rubber pipes have excellent insulation performance, which can effectively prevent condensation caused by internal and external temperature differences, and reduce energy waste.
2. Strong corrosion resistance: Rubber pipes have strong corrosion resistance, which can effectively resist the erosion of various chemicals and extend the service life of pipelines.
3. Easy construction: Rubber pipes are lightweight, easy to install, and can reduce construction time and costs.
4. Environmental protection: Rubber tubes are non-toxic and odorless, and have no pollution to the environment. They are a green and environmentally friendly material.
Application field
1. Construction field: In the construction field, rubber pipes are widely used in cold and hot water pipelines, heating systems, central air conditioning pipelines, and other aspects. Meanwhile, due to its excellent insulation performance, it is also commonly used for external wall insulation in buildings.
2. Industrial sector: In the industrial sector, rubber pipes are widely used for fluid transportation in industries such as petroleum, chemical, and power. Due to its strong corrosion resistance, it can effectively reduce equipment maintenance costs.
3. Other fields: In addition to the construction and industrial fields, rubber pipes are also widely used in many fields such as agricultural irrigation, shipbuilding, medicine, etc