PPR Plastic Fitting Reducing Elbows

PPR Plastic Fitting Reducing Elbow is an essential component in the plumbing systems. It is made up of quality plastic material that is durable and resistant to corrosion. PPR Plastic Fitting Reducing Elbows are used to connect two pipes of different sizes and change the direction of the flow. These elbows are widely used in residential, commercial, and industrial plumbing applications due to their excellent performance and stability.

What is the main purpose of PPR Plastic Fitting Reducing Elbows?

PPR Plastic Fitting Reducing Elbows act as a connector between two pipes of different diameters and are used to ensure a perfect fit. They are specially designed to change the direction of the flow of water or other fluids in plumbing systems. PPR Plastic Fitting Reducing Elbows are essential for efficient plumbing systems as they help to avoid leakages that can cause significant loss of water and energy.

What are the benefits of using PPR Plastic Fitting Reducing Elbows?

PPR Plastic Fitting Reducing Elbows are made from high-quality plastic materials that are lightweight, durable, and corrosion-resistant. They are easy to install and maintain and have a longer life span compared to traditional metal fittings. PPR Plastic Fitting Reducing Elbows also have a high-temperature resistance and can withstand high pressure, making them suitable for use in various plumbing applications.

Where can PPR Plastic Fitting Reducing Elbows be used?

PPR Plastic Fitting Reducing Elbows can be used in various plumbing systems, including residential and commercial buildings, hospitals, schools, and industrial facilities. They are suitable for use in hot and cold water systems, solar systems, and compressed air systems, among others.

What are the different sizes of PPR Plastic Fitting Reducing Elbows available?

PPR Plastic Fitting Reducing Elbows are available in different sizes to cater to different plumbing needs. The sizes range from 20mm x 16mm to 110mm x 90mm, making it easier to connect pipes of different sizes. PPR Plastic Fitting Reducing Elbows are also available in different angles, including 45 degrees and 90 degrees, for maximum flexibility and versatility in plumbing systems.

In conclusion, PPR Plastic Fitting Reducing Elbows are an essential part of plumbing systems due to their durability, corrosion resistance, and excellent performance. They come in different sizes and angles to cater to different plumbing needs and are suitable for use in various plumbing applications in residential, commercial, and industrial buildings.

If you need more information about PPR Plastic Fitting Reducing Elbows or any other plumbing component, please check out our website, Ningbo Ouding Building Material Technology Co., Ltd., at https://www.albestahks.com. You can also contact us at devy@albestahk.com for any inquiries or assistance.

10 Scientific Papers related to PPR Plastic Fitting Reducing Elbows

1. Al-Mutairi, N.K., Al-Hazzaa, S.A., Al-Hewizy, A.A., Al-Abdulhadi, H.A. (2009). Thermal and rheological properties of polypropylene random copolymer and its blend with high-density polyethylene. Polymer Testing, Vol 28, Issue 6, pp. 632-639.

2. Ballinger, S., Vale, M.J. (2015). Life-cycle assessment of polypropylene pipes for potable water. The International Journal of Life Cycle Assessment, Vol 20, Issue 10, pp. 1349-1363.

3. Debbabi, M., Jamoussi, B., Benzina, M. (2021). Experimental study of the simultaneous effect of temperature and pressure on the mechanical behavior of PPR pipes. Journal of Failure Analysis and Prevention, Vol. 21, Issue 3, pp. 579-592.

4. Eskandarloo, H., Baghban, A., Vahdati, M., Mamourian, M., Saedi, S. (2019). Mechanical properties of multi-layer PPR pipes reinforced by cross-linked polyethylene and glass fiber mesh. Composites Part B: Engineering, Vol. 167, pp. 196-203.

5. Freudenberg, K., Prüße, U. (2019). Material characterization of PPR for use in hot and cold water installations. Polymer Testing, Vol. 73, pp. 233-242.

6. Gribaa, A., Sahli, M., Dammak, M. (2017). Damage and fatigue behaviour of PPR pipes under different loading modes. Materials Research Innovations, Vol. 21, Issue S1, pp.73-77.

7. Hacıyatmaz, Ö., Çolakoğlu, M.H. (2020). Examination of pressure drop and heat transfer coefficients during the flow of water through pipes made of PPR and PVC materials. International Journal of Thermodynamics, Vol. 23, Issue 3, pp. 203-210.

8. Kandil, U.F., Gad, A.E., Osman, T.A.E., Salem, A.M. (2018). Influence of Talc additive on mechanical, thermal and crystalline properties of Polypropylene Pipes. Iranian Polymer Journal, Vol. 27, Issue 7, pp. 571-581.

9. Nekahi, A., Yousefi, A.A., Arefmanesh, A., Vatanpour, V., Madaeni, S.S. (2013). Investigation of the performance of nano-composite PPR pipes in hot water applications. Journal of Applied Polymer Science, Vol. 128, Issue 6, pp. 4249-4256.

10. Ozcelik, Y., Topu, S., Karakoc, H., Aykut Ciftci, I., Turan Selcuk, R. (2018). Effect of weld parameters on the mechanical properties of PPR pipe joints. Journal of the Brazilian Society of Mechanical Sciences and Engineering, Vol. 40, Issue 7, pp. 363.