Search results
976
[Page extract]
Equipment and safety precautions
To ensure accurate and safe testing, the following components are required:
977
[Page extract]
Why choose Mecmesin for shear testing in tension
Mecmesin provides precision-engineered solutions for shear testing in tension, designed to meet ASTM, ISO, and
978
[Page extract]
Equipment and techniques
Accurate T-peel testing requires precise, calibrated instruments.
979
[Page extract]
Why is tear resistance testing important?
Tear resistance is more than a quality metric, it is a safeguard for performance and safety.
980
[Page extract]
Why choose Mecmesin for running torque testing
With over 40 years of experience in precision torque measurement, Mecmesin designs and builds systems to meet the demanding requirements of engineers and quality professionals worldwide.
981
[Page extract]
Methods of testing tensile strength
The most common method is the uniaxial tensile test.
982
[Page extract]
Understanding corrugated cardboard resistance
The compressive resistance of corrugated cardboard depends on factors such as flute profile, board structure, and paper quality.
983
[Page extract]
Future trends in torque testing
Automation is becoming increasingly common, improving accuracy and enabling in-line testing during production.
984
[Page extract]
Why choose Mecmesin for short span compression testing
Mecmesin provides complete solutions for short span compression testing, combining precision-engineered test frames, purpose-designed fixtures, and advanced control and analysis software.
985
[Page extract]
Real-world examples
Beverage packaging automation
A global beverage brand used the VortexPro to automate PET bottle cap testing:
986
[Page extract]
Why choose Mecmesin for tension testing in texture analysis
Mecmesin has decades of experience in precision tension testing for the food and packaging industries.
987
[Page extract]
Why choose Mecmesin for COF testing
Standards-compliant systems
Mecmesin’s friction testing systems comply with ASTM and ISO standards and offer high repeatability across materials including
988
[Page extract]
Step-by-step needle penetration testing process
Sample preparation
Specimens are cut to the required dimensions and conditioned to the specified environmental parameters such as temperature and humidity. Thickness and surface finish are controlled for consistency.
989
[Page extract]
Burst testing techniques and equipment
Compressive burst testing
In compressive burst testing, force is applied through a hemispherical probe until the material ruptures.
990
[Page extract]
Methods of compressive burst testing
Inflationary burst testing
In this method, internal pressure is gradually increased using air, gas, or liquid until the container ruptures. This is widely applied to:
991
[Page extract]
Specialised testing techniques
Application areas
Cantilever bend and anchorage strength tests can be adapted for niche applications, including:
992
[Page extract]
Benefits of box crush and packaging compression tests
Compression testing offers both commercial and technical benefits for manufacturers and logistics operations.
993
[Page extract]
Equipment for loop tack testing
Mecmesin loop tack testers are designed for precision, repeatability, and compliance with industry standards.
994
[Page extract]
Applications of compressive shear testing
Compressive shear testing is applied across multiple industries where materials must withstand shear stresses while compressed.
995
[Page extract]
Maintenance and calibration of tear testers
To maintain accuracy and extend service life, regular maintenance and calibration are essential.
996
[Page extract]
Case Studies and Examples
Explore how leading healthcare companies use Mecmesin equipment for syringe testing to ensure compliance with ISO 11040-4 Annex F.
997
[Page extract]
Applications of edge crush testing in packaging
Design and development
ECT results guide engineers in selecting the correct board grade for the intended application, balancing performance and cost.
998
[Page extract]
Modulus of elasticity formula
Young’s modulus (E) is calculated from the linear portion of a stress-strain curve using this formula:
999
[Page extract]
Equipment and procedures
SCT testing equipment and tools
Accurate SCT testing requires equipment that can apply controlled and repeatable loads:
1000
[Page extract]
Essential standards for pull-off and pull-out testing
International standards provide consistent methods and equipment requirements for these tests: