Test Equipment
22 standards-compliant test instruments for material, safety and stability testing — designed and manufactured in Germany.
BAM Fallhammer (Drop Hammer)
Impact sensitivity testing in accordance with international standards for explosives and energetic materials.
Friction Tester
Friction sensitivity testing of explosives and pyrotechnic substances.
Small Drop Hammer
Impact sensitivity testing of highly sensitive primary explosives — impact energies from 0.025 to 10 joules.
Köenen-Tester (Koenen Tube Test)
Steel sleeve test for the classification of explosives under confinement.
Noack VP250 (Oil Volatility Tester)
Evaporation loss testing of lubricating oils according to DIN and ASTM.
UN Gap Test
Gap test for determining the detonation transfer of explosives.
Oxistar
Aging test device for rubber and elastomers per DIN and IEC.
Vacuum Stability Test
Vacuum stability testing for propellant powders and explosives per MIL-STD-286C and STANAG 4556.
A.10 Brennbarkeit (Flammability Test)
Testing the burning time of powdery, granular or pasty substances according to UN Test N.1 and EEC directives.
A.21 O2-Tester (Oxygen Tester)
Testing of oxidizing liquids — measurement of the potential to increase the burning rate according to A.21 O.2 and C.1.
Niederländischer Druckbehälter (Dutch Pressure Vessel Test)
Testing the sensitivity of materials to intense heat exposure under defined confinement according to UN Test E.2/E.3.
Solidification Point Tester
Determination of the solidification temperature of explosive substances with 2 PT100 sensors — measurement resolution 0.01 K.
Abel-Test (Flash Point Tester)
Thermal stability testing of nitrocellulose powders and nitro-containing explosives according to the Abel test at 80 °C.
Methyl Violet Test
Thermal stability testing of nitrocellulose according to the Methyl Violet test at 120 °C and 134.5 °C in compliance with MIL-STD-286C.
Bergmann-STANAG Test
Thermal stability testing of nitrocellulose and propellants according to the Bergmann-Junk test at 132 °C in compliance with STANAG 4178 5A/B.
Bergmann-Junk Test
Quantitative determination of the thermal stability of nitrocellulose and propellants at 120 °C or 132 °C according to STANAG 4178 5C.
Deutsche Methode (German Method)
Thermal stability testing of nitrocellulose according to the German Method at 135 °C — 24 bores, PID-controlled.
Heat Storage Test
Thermal stability testing of nitrocellulose according to the heat storage test at 100 °C — 21 bores, PID-controlled.
Deflagrations-Tester DT400 (Deflagration Tester DT400)
Determination of the deflagration temperature of powders and explosives — available as DT400, DT400-6 and DT500-6.
Autoignition DT500 6W
Determination of the autoignition temperature — available as DT400, DT400-6 and DT500-6 with max. 500 °C.
Noack VP4000 (Automated Oil Volatility Tester)
Evaporation tester for engine oil and lubricants without Wood's metal — temperature-controlled heating block, 100–260 °C.
PVC Sensitivity Test
Heating block thermostat for determining the thermal stability of PVC compounds according to EN 60811-3-2.
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Precision testing equipment for regulated applications
Whether impact sensitivity, thermal stability or combustion behavior — R + P MESPRO delivers the instruments that are the worldwide standard in testing laboratories, research institutions and industry. Each instrument is engineered to international standards and manufactured in Germany.
Why R + P MESPRO
- Standards compliance UN-RTDG, STANAG, MIL-STD, DIN, ASTM
- Made in Germany Engineering & manufacturing
- Full service Consultation, installation, training
- 50+ countries International deliveries since 1994
Covered standards
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