Search results
1276
[Page extract]
Speak to an expert
Cantilever bend and anchorage strength testing are essential for validating product performance and ensuring safety in real-world use.
1277
[Page extract]
Relevant standards for lap shear under compression
International testing standards provide consistency and repeatability for adhesive strength tests, including those involving compressive loading. The following standards are particularly relevant:
1278
[Page extract]
Standards and specifications
Fastening torque testing is governed by international and sector-specific standards to ensure consistency and repeatability:
1279
[Page extract]
Why Mecmesin?
With over 40 years of experience, Mecmesin delivers torque testing systems that are precise, easy to use, and fully supported.
1280
[Page extract]
Introduction to four-point bend testing
Four-point bend testing is a fundamental method in materials science, providing engineers and quality assurance professionals with a reliable way to assess the
1282
[Page extract]
Types of torque testing equipment
Whether you're validating production output or designing closures in R&D, Mecmesin offers systems to suit every environment.
1283
[Page extract]
Testing standards and guidelines
Tension and compression tests are governed by international standards that ensure comparability and regulatory compliance:
1284
[Page extract]
Industry applications
Automotive industry
Seat cushions - Testing confirms comfort, resilience, and long-term shape retention
Gaskets - Ensures seals remai
1285
[Page extract]
Mecmesin solutions for ball burst testing
Mecmesin’s testing systems offer high accuracy, repeatability and adaptability across a broad range of burst testing requirements.
1287
[Page extract]
Applications of floating roller peel testing
Floating roller peel testing is employed to verify both material selection and process stability in various high-performance sectors:
1288
[Page extract]
Standards and compliance
International standards ensure penetration and puncture testing is performed consistently for reliable and comparable results.
Key examples include:
1289
[Page extract]
Introduction to strip method tensile testing
Among the range of tensile testing techniques, the strip method is widely recognised for its accuracy and repeatability.
1290
[Page extract]
Introduction to equibiaxial flexure compression testing
Equibiaxial flexure compression testing is a materials testing method used to evaluate a specimen’s resistance to bending under multi-directional loading.
1291
[Page extract]
Featured case studies
Rubber sealing components - ISO 37 testing of an optimised compound achieved a 12 percent increase in strai
1292
[Page extract]
Applications of bulk analysis testing
Industries and products
Bulk testing is relevant to a wide range of industries.
1293
[Page extract]
Mecmesin solutions for corrugated medium testing
Mecmesin offers flat crush testers and fixtures designed to meet TAPPI T 809 requirements.
1294
[Page extract]
Bearings, rollers and gears
Rollers and bearings are intrinsic components of assemblies which move products horizontally, vertically, on an incline or decline, overhead, sub-floor, around obstacles and over long distances.
1295
[Page extract]
Testing standards for secant modulus
Consistent measurement is supported by recognised standards:
1296
[Page extract]
Why Mecmesin for removal torque testing
Mecmesin offers manual and automated torque testing solutions designed for packaging manufacturers, quality control teams, and compliance officers.
1297
[Page extract]
Take control of your torque testing
Torque testing is a way of determining how an object will react when it is being turned - during normal operation or being twisted until it deliberately fails or breaks.
1298
[Page extract]
Introduction to tangent modulus
In materials science and engineering, understanding how materials respond to stress is essential for ensuring safety, performance, and longevity. One key parameter used to characterise this behaviour is the tangent modulus.
1299
[Page extract]
Yield point testing methods
Yield point testing is most often performed using tensile testing, in which a specimen is subjected to a steadily increasing axial load until plastic deformation occurs.
1300
[Page extract]
Challenges and considerations
Even with well-defined standards, tear resistance testing can be influenced by: