The materials characterizations group provides test data to measure the mechanical integrity of molded resin castings and composites as well as offering sophisticated thermal analysis and rheological testing.
The group performs many ASTM test procedures applied to analyses of plastics, coatings and composite materials. The data are used to qualify materials for customer specifications, to help design materials for optimum end-use performance, or to evaluate the effects of exposure environments on mechanical integrity.
Differential scanning calorimetry
Differential scanning calorimetry (DSC) measures the heat flow into and out of a material as a function of time or temperature. This technique can be used to characterize thermal transitions and chemical reactions.
Dynamic mechanical analysis
Dynamic mechanical analysis (DMA) is a non-destructive mechanical test that measures the stiffness modulus (elastic nature) and energy damping (viscous nature) properties of materials as the materials are deformed under periodic strain or stress.
Mechanical testing using a video extensometer
The use of a video extensometer avoids materials prematurely failing during mechanical testing due to induced stresses or micro-cracks. Analyses can be directed to specific regions of the digitized stress-strain curve for detailed and accurate characterization of the material’s mechanical performance.
Rheological capabilities include both dynamic and constant shear. A wide range of transducers allows the rheological measurements of highly filled viscous pastes and polymer melts, as well as low-viscosity fluids and emulsions.
Thermogravimetric analysis measures weight changes with temperature and time, and provides information about composition analysis and thermal stability. A complete picture of the amount, rates and composition of volatiles and decomposition products can be ascertained by combining these results with chromatography and/or spectroscopy techniques. Modulated Thermogravimetric analysis and high resolution analysis provide enhanced separation of component thermal decomposition profiles and associated kinetics.
Thermomechanical analysis measures the expansion and contraction of materials as a function of temperature. This technique is applicable to coatings, thin films, plastics and composite materials.
This area provides test data to characterize the mechanical integrity (stiffness, strength, elongation to failure, etc.) of molded resin castings and composite materials. The group performs many ASTM test procedures. Part of this laboratory is a well-equipped sample preparation area, which includes diamond saws, sanders, surface grinders, and special support fixtures to accurately and precisely prepare the specimens for testing. The data are used to qualify materials for customer specifications, to help design materials for optimum end-use performance, or to evaluate the effects of exposure environments on mechanical integrity.
This area measures the impact-resistance properties of composite and other materials as a function of speed and temperature. This testing includes pendulum type impact tests (e.g., Izod and Charpy), drop ball, drop dart, and instrumented puncture testing. The sophisticated instrumented impact instrument quantifies crack initiation energy, crack propagation energy, as well as the total energy absorbed by the material during puncture at a controlled speed of testing.