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Key testing methods
Different materials require different approaches to compressive hardness testing. The most common methods are:
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Tools (calibration related)
To maintain consistent performance and accuracy, tools must be checked regularly.
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Friction testing methods
Static vs kinetic friction testing
Static friction testing measures the force required to initiate movement.
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Applications of tear resistance testing across industries
Wing tear testing is used in:
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The concentric ring method
The most widely used approach to equibiaxial flexure compression testing is the concentric ring method. A circular specimen is supported on an outer ring and loaded through a smaller, concentric inner ring.
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Procedure for tensile testing
While the specifics vary depending on material type and applicable standards, the general procedure includes:
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Best practices for rotational shear testing
Consistent methodology, accurate equipment and adherence to relevant standards are essential for meaningful results. Recommended practices include:
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Applications in industrial settings
Insertion and withdrawal testing is not limited to electrical connectors. It is used to validate the performance of:
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Applications across industries
Tensile strength testing is essential in product development, quality control, and certification across multiple sectors:
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Best practices in conducting cone penetration tests
Step-by-step procedure
Sample preparation - Condition the sample according to the standard, controlling temperature and humidity where required.
Equipment calibration - Confirm the
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Mecmesin solutions for ball burst testing
Mecmesin’s testing systems offer high accuracy, repeatability and adaptability across a broad range of burst testing requirements.
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Introduction to peel testing
Peel testing is a fundamental method in materials testing, used to evaluate the strength of adhesive bonds between two materials.
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Applications of loop tack testing
Packaging
Checks resealable closures, tamper-evident labels, and PSA seals to ensure adequate instant tack for both production and consumer use.
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Applications in industry
The five-point bend test is an essential tool for quality control and product development in several sectors:
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Mecmesin’s expertise in fabric testing
Standards-compliant systems
Our OmniTest and MultiTest-dV machines, paired with
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Step-by-step guide to conducting a CMT test
Prepare the specimen - Cut to size with clean edges, ensuring flutes remain undamaged, and condition as per the standard.
Calibrate the equipment - Check the load cell and platen alignment.
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Peel test procedure - step by step
Prepare the specimen: Cut and condition according to the relevant standard.
Set up the machine: Install the correct fixture for the test type.
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Case examples
Tennis ball compression - Testing applies a standard load to measure deformation and rebound characteristics, ensuring consistent performance for bounce, speed, and control.
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Why Mecmesin for reverse ratchet torque testing
Mecmesin offers torque testing systems engineered to meet the precise demands of child-resistant closure
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Testing procedures for electrical connectors
For electrical connectors, insertion and withdrawal testing is essential to ensure reliable contact, mechanical robustness, and compliance with relevant standards.<
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Step-by-step test methodology
Preparation
Sample selection - Choose representative specimens, avoiding faults unless deliberately testing them.
Specimen cutting - Cut to standard dimensions with a central slit of specified
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Applications in the food industry
Extrusion testing supports both product development and quality control for semi-solids and viscous liquids.
Example applications:
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FAQs about Young's modulus testing
What is the difference between Young’s modulus and tensile strength?
Young’s modulus measures stiffness - how much a material deforms under stress.
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Introduction to tensile strength
Tensile strength is a fundamental mechanical property that defines a material’s ability to resist forces that attempt to pull it apart. It represents the maximum tensile stress a material can withstand before failure.