Discover Element’s Leading Hydrostatic Pressure Test Service

ÌÇÐÄlogoÃ×·ÆÍÃprovides an extensive capacity for determining the long-term hydrostatic strength of plastic pipes, offering a comprehensive suite of services from initial testing to regression analysis. Our focus is on delivering reliable and reproducible test data for the classification of Minimum Required Strength (MRS) to ISO 9080 and Hydrostatic Design Basis (HDB) services to ASTM D2837 and ASTM D2992.

As part of Element's global Plastic Pipes & Fittings Testing program, our hydrostatic pressure testing services cater to resin manufacturers, pipe extruders, certification bodies, and utility companies worldwide. We understand the critical need for independent and accurate test data for product classification and lifetime evaluation in the industrial sector.

Testing to ISO 9080 (MRS) and ASTM D2837 (HDB) involves a comprehensive evaluation process. It includes hydrostatic pressure testing to generate test data, followed by regression analysis to determine long-term hydrostatic strength. The final step involves the classification of Hydrostatic Design Basis (HDB) or Minimum Required Strength (MRS).

Advanced Hydrostatic Pressure Testing Service

ISO 9080 (MRS) Testing

Objective: Determine Minimum Required Strength (MRS) based on long-term hydrostatic strength at 20°C and 50 years.
Process: Rigorous hydrostatic pressure testing and regression analysis for precise classification of plastic pipes to ISO 9080 standards.

A complete evaluation includes hydrostatic pressure testing for generation of test data followed by regression analysis for determination of the long term hydrostatic strength, and finally classification of HDB (Hydrostatic Design Basis) or MRS (Minimum Required Strength).

  • MRS classification to ISO 9080 is based on the long-term hydrostatic strength at 20°C and 50 years.
  • HDB classification to ASTM D2837 / PPI TR-3 is based on the long-term hydrostatic strength at 73°F (23°C) and 100,000 hours.

ASTM D2837 / PPI TR-3 (HDB) Testing

Objective: Classify based on Hydrostatic Design Basis (HDB) using long-term hydrostatic strength at 73°F (23°C) and 100,000 hours.

Process: Hydrostatic pressure testing and regression analysis for compliance with ASTM D2837 and PPI TR-3 standards.

Standard Test Conditions

Temperature Variation: Tests conducted at 20°C, 60°C, 80°C for cold water/gas, and 20°C, 70°C, 95°C, 110°C for hot water. Fahrenheit temperatures used for ASTM standards. Material Diversity: Expertise in testing PE, PP, PB, PEX, PE-RT, PVC, PSu, and PA for a comprehensive evaluation.

High-Precision Measurement

Methodology: Robot cell for high-precision measurements, identifying minimum wall thickness. Automation: Automated measuring with computed radiography ensures thorough coverage, streamlining repetitive tasks with precision.

Diverse Material Evaluation: Comprehensive Hydrostatic Pressure Testing 

We perform thorough hydrostatic pressure testing across a diverse range of polymer materials, ensuring a comprehensive evaluation of plastic pipes. Our expertise encompasses the testing of various materials, including but not limited to:

  • PE (Polyethylene): Known for its versatility and durability, PE is widely used in plastic pipes for its excellent chemical resistance and flexibility.
  • PP (Polypropylene): Recognized for its high thermal resistance and stiffness, PP is a popular choice in applications where these properties are crucial.
  • PB (Polybutene): Offering a balance of flexibility and strength, PB is utilized in plastic pipes for its resistance to impact and aging.
  • PEX (Cross-linked Polyethylene): Known for its exceptional temperature and chemical resistance, PEX is widely used in plumbing and heating systems. PE-RT (Polyethylene of Raised Temperature Resistance): Specially designed for elevated temperature applications, PE-RT ensures reliable performance under demanding conditions.
  • PVC (Polyvinyl Chloride): PVC is valued for its chemical resistance, durability, and affordability, making it a common choice for various piping applications.
  • PSu (Polysulfone): With high-temperature resistance and excellent mechanical properties, PSu is suitable for demanding industrial applications.
  • PA (Polyamide): Known for its strength and impact resistance, PA is used in plastic pipes where durability and toughness are critical.
This comprehensive testing approach allows ÌÇÐÄlogoÃ×·ÆÍÃto provide accurate and reliable data on the long-term hydrostatic strength of plastic pipes across different materials, enabling industries to make informed decisions about product performance and suitability for specific applications.