PPH VS. PPR Pipe: Which One is Suitable for Your Project
PPH VS. PPR Pipe: Which One is Suitable for Your Project

PPH VS. PPR Pipe: Which One is Suitable for Your Project

In the construction industry, selecting the appropriate piping is critical to ensuring optimal performance and extending the service life of piping systems. Plastic pipes, with their advantages of lightweight, corrosion resistance, and long service life, have gradually replaced traditional metal pipes and become the mainstream in the market. PPH and PPR pipes are two widely used types of pipes in piping systems. In this article, we will thoroughly explore the differences between PPH and PPR pipes to help you select the most suitable pipe material based on your actual needs, ensuring the safety and cost-effectiveness of your project.

What is PPH Pipe?

PPH pipe, short for polypropylene homopolymer (PPH) pipe, is a high-performance thermoplastic pipe made from high-purity polypropylene through a special manufacturing process. Compared to ordinary PP pipe, PPH pipe has a more regular molecular structure and higher crystallinity, resulting in superior heat resistance, corrosion resistance, and chemical resistance. PPH pipes have a lower density but higher mechanical strength, with a service life of over 50 years.

In industries such as chemicals, metallurgy, electroplating, papermaking, and pharmaceuticals, PPH pipes are commonly used for transporting highly corrosive media such as acid, alkali, and salt solutions, without suffering from rusting or scaling like metal pipes. Their manufacturing adheres to international standards such as ISO 15874, employs water pressure design principles, and ensures consistency in pressure ratings through the SDR (Standard Dimension Ratio) and PN (Nominal Pressure, unit: bar/MPa) systems.

PPH Pipe Feature

  1. Chemical Resistance: Polypropylene homopolymer pipes have a stable molecular structure and are unlikely to react with chemicals. They can resist corrosion from most acids, alkalis, and salt solutions, and also exhibit good resistance to certain organic solvents.
  2. Abrasion Resistance: Due to its smooth inner wall and tightly packed molecular chain structure, it effectively reduces friction and wear caused by solid particles in the fluid. When transporting liquids containing suspended particles or solid substances over extended periods, it maintains long-term flow capacity and stable transportation performance.
  3. High-Temperature Resistance: PPH pipes exhibit excellent heat resistance, with a continuous operating temperature of approximately 100°C. They can withstand higher temperatures for short periods without deformation or softening, maintaining mechanical strength and structural stability.
  4. Aging Resistance: Polypropylene homopolymer material has strong adaptability to light exposure, thermal oxidation, and climate changes, exhibiting excellent aging resistance. By adding antioxidants and UV stabilizers, it can maintain a long service life even in outdoor environments.
  5. Insulation Performance: PPH is a non-conductive material with excellent electrical insulation properties. In applications requiring protection against electrical leakage, short circuits, or electrochemical corrosion, PPH pipes provide reliable insulation protection, ensuring system safety.
  6. Non-toxicity: PPH material is pure, free of plasticizers, heavy metals, or other harmful substances, and meets food-grade safety standards, ensuring the purity and contamination-free transportation of the medium.
  7. Lightweight: PPH pipes have a low density and are lightweight, making them easy to transport and install. During installation, this reduces logistics and construction difficulties, effectively lowering logistics costs and construction complexity while shortening the installation timeline.

Application of PPH Pipe

Due to the excellent properties of PPH pipes, they have been widely applied in various fields such as chemical industry, food processing, pharmaceuticals, and water supply and drainage.  

  • In chemical production, PPH pipes are commonly used for transporting corrosive liquids such as concentrated acids, concentrated alkalis, brine, and wastewater, and are suitable for applications such as acid washing systems, electroplating workshops, and connecting pipelines for acid-alkali storage tanks.
  • In the metallurgy industry, PPH plastic pipes can be used in metal surface treatment liquid circulation systems, such as in the piping systems of processes like galvanizing, nickel plating, and chrome plating.  
  • In the drainage industry, they are used in reverse osmosis systems, deionized water systems, and wastewater treatment discharge pipelines.
  • In the paper and textile industries, Polypropylene Homopolymer pipes can be used to transport bleaching solutions, dyes, and wastewater.

Additionally, due to their high-temperature resistance, Polypropylene Homopolymer pipes are also used in some food processing and pharmaceutical equipment to transport hot water or steam.

What is PPR Pipe?

PPR (Polypropylene Random Copolymer) pipe is a type of plastic piping specifically designed for hot and cold water supply systems and heating systems. Compared to ordinary PP pipes, PPR water pipes enhance the flexibility and impact resistance of the piping material by incorporating a certain proportion of random copolymer monomers into the polypropylene molecular chain. PPR cold wan hot water pipes are non-toxic, odorless, and corrosion-resistant, posing no risk of secondary water contamination, making them particularly suitable for drinking water transportation. They can operate continuously at temperatures below 70°C and withstand instantaneous temperatures up to 95°C, enabling them to safely transport both cold and hot water. The smooth inner walls of PPR pipes minimize flow resistance, prevent scale buildup, and inhibit bacterial growth, effectively ensuring the hygiene and safety of water quality within the pipes.

PPR Water Pipe

PPR Pipe Feature

  1. Corrosion Resistance: PP-R pipes exhibit excellent corrosion resistance, effectively withstanding the corrosive effects of dissolved oxygen, ions, and acidic/alkaline substances in water on the pipe walls. During transportation, they do not form scale deposits or harbor bacteria, ensuring water quality remains clean and safe over the long term.  
  2. High-Temperature Resistance: PP-R pipes have a softening temperature of 131.5°C and can safely transport hot water up to 95°C under continuous operating pressure. PPR pipes have excellent thermal insulation properties, with a thermal conductivity coefficient approximately 1/200 that of metal pipes, reducing heat loss during hot water transportation.  
  3. High Mechanical Strength: PPR water pipes maintain excellent mechanical strength even at high temperatures, exhibiting strong impact resistance and pressure-bearing capacity, capable of withstanding significant water pressure and impacts. They also have good flexibility and are unlikely to become brittle or crack even at low temperatures.
  4. Long service life: Under normal conditions, PPR hot and cold water pipes have a service life of over 50 years. Their molecular structure is stable, making them resistant to aging, brittleness, or deformation, and they maintain excellent physical properties over the long term, reducing the need for replacement.
  5. Lightweight and Easy to Install: PPR pipes have low density and are lightweight, making them easy to transport and install. They are typically connected using heat fusion welding or threaded connections, ensuring a secure connection and high installation reliability, thereby shortening the construction period.
PPR Pipe

PPR pipes are renowned for their exceptional performance, are widely used in various fields such as home renovation, industrial applications, and agricultural irrigation.  

  • In residential and commercial buildings, PPR pipes, with their excellent high-temperature resistance and thermal insulation properties, minimize heat loss and are extensively used in kitchens, bathrooms, water heaters, central hot water systems, and heating networks.
  • In industrial applications, Pipe PPR offer superior corrosion resistance, making them suitable for transporting cooling water, compressed air, and certain chemical liquids.  
  • In agricultural irrigation, PPR water pipes are used for greenhouse irrigation, sprinkler systems, and water supply systems.  

Additionally, due to their non-toxic, odorless nature and excellent hygiene properties, PPR pipes are also suitable for use in environments with high water quality requirements, ensuring the purity of the water.

Main Difference Between PPR and PPH Pipe

Although PPR pipes and PPH pipes are both made of polypropylene material, they differ significantly in terms of performance and application. PPR pipes are primarily composed of a random copolymer structure, offering excellent flexibility and high impact resistance. They are suitable for hot and cold water transportation and domestic water systems, emphasizing safety, hygiene, and comfort. In contrast, PPH pipes feature a homopolymer structure with high crystallinity, superior corrosion resistance, and enhanced high-temperature performance. They are primarily designed for applications in the chemical industry and industrial fluid transportation sectors.

Comparison ItemPPH PipePPR Pipe
MaterialPolypropylene HomopolymerPolypropylene Random Copolymer
Temperature ResistanceLong-term 60-80°C, short-term 90°CLong-term 70°C, short-term 95°C
Pressure ResistanceHighMedium
ToughnessBrittle, easy to crack at low temperatureExcellent, maintains toughness in low temperature environment
Corrosion ResistanceExcellent, resistant to acid, alkali and chemical mediaGood, but weaker than PPH pipe
Welding PerformanceHigh temperature welding, easy to deformButt fusion connection, good sealing performance
Mechanical PerformanceHigh rigidity, low toughnessGood impact resistance

Conclusion

Through comparative analysis, it can be seen that PPH pipes and PPR pipes each have their own advantages in terms of structure, performance, and application areas. PPH pipes exhibit exceptional resistance to acids and alkalis, making them particularly suitable for corrosive environments such as chemical and pharmaceutical industries; PPR pipes, on the other hand, offer superior flexibility and robust connections, making them an ideal choice for building hot and cold water systems and heating systems.

JINQUAN consistently uses high-quality materials and advanced production processes to provide PPH and PPR pipe solutions globally, as well as PPH fittings, PPR fittings, DWC pipe, MPP pipe, HDPE pipe and fittings, PE-RT pipe and fittings, and others. We always provide plastic pipes that meet international standards, offering customers safe, reliable, and cost-effective pipe system solutions. Please contact us if you have any needs.

Send Inquiry Quickly!

Fill out the form and our team will contact you shortly.