The MATEST Relative Density Cohesionless Soils, ASTM Spec, testing system is designed for determining the relative density of granular soils where impact compaction fails to produce a clear moisture/density relationship. Using vibratory compaction, this method achieves higher, more accurate maximum densities critical for quality control in road and foundation projects. The complete ASTM-compliant set includes vibrating table, moulds of different capacities, surcharge weights, and a relative density gauge, ensuring precise, repeatable results even for soils with challenging compaction characteristics.
Product Features
- S238-10 Vibrating electromagnetic table (762 × 762 mm) with vibration frequency of 3600 rpm and adjustable amplitude (0.05–0.64 mm)
- Built for durability and repeated use in lab or field conditions
Set Composition
- S238-11N Relative density mould with 0.5 cu. ft. capacity and accessories for larger sample testing
- S238-13N Relative density mould with 0.1 cu. ft. capacity and accessories for smaller sample testing
- S238-14N ASTM-compliant surcharge weight and base with handle for 0.5 cu. ft. mould
- S238-15N ASTM-compliant surcharge weight and base with handle for 0.1 cu. ft. mould
- S238-16 Relative density gauge measuring set for accurate verification
Benefits
- Precise compaction control – Ensures accurate maximum and minimum density measurements for cohesionless soils
- Flexible testing – Includes moulds and surcharge weights for multiple sample sizes
- ASTM-compliant – Meets standards required for quality assurance in critical projects
- Heavy-duty design – Withstands high loads and repeated vibrations for consistent performance
- Complete system – Supplied with gauge and all accessories for immediate field or lab use
Why Choose the MATEST Relative Density Cohesionless Soils System?
Trusted by engineers worldwide, the MATEST ASTM-compliant system offers comprehensive testing for cohesionless soils. Its robust build, dual mould capacities, and precise gauge set provide reliable measurements essential for foundation, road construction, and geotechnical applications where compaction quality directly affects performance and safety.
