Search results
351
[Page extract]
Why Mecmesin for puncture resistance testing
Mecmesin designs and manufactures precision puncture resistance testing systems to meet the requirements of ASTM and ISO standards.
352
[Page extract]
Introduction to tension and compression testing
Tension and compression testing are among the most widely used mechanical testing methods for evaluating how a material or component performs under applied loads.
353
[Page extract]
Introduction to rotational shear testing
Rotational shear testing is a specialised method used to measure the torque or twisting force required to deform a material or component.
354
[Page extract]
Challenges and best practices in peel testing
Common challenges
Material variability in thickness, surface treatment, or adhesive application.
Inconsistent specimen preparation.
Operator error from misalignment or incorrect grip tension.
Best pra
355
[Page extract]
What is extrusion testing?
Extrusion testing involves forcing a food sample through a shaped orifice, grid, or opening while measuring the resistance to movement.
356
[Page extract]
Understanding shear testing in tension
Shear testing in tension is a mechanical method used to measure the resistance of a material or bonded joint to forces acting parallel to the bonding surface.
357
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Shear testing equipment and procedures
Accurate shear testing requires precise control of movement, force measurement, and fixture selection.
Mecmesin offers:
358
[Page extract]
Tensile deformation and its significance
Tensile deformation occurs when a material is stretched by an axial load, causing it to elongate.
359
[Page extract]
Understanding tensile strength in testing
Both pull-off and pull-out testing measure tensile strength, which is the maximum load a specimen can sustain under tension before failure.
360
[Page extract]
How the strip method works
The strip method involves cutting a specimen to a precise width, typically 50 mm or 25 mm depending on the applicable standard, and mounting it in the grips of a tensile testing
361
[Page extract]
Testing standards and guidelines
Tension and compression tests are governed by international standards that ensure comparability and regulatory compliance:
362
[Page extract]
Testing solutions and equipment
Essential equipment
Cone point probe - typically 8 mm in diameter with capacity for up to 500 N.
363
[Page extract]
What is shear modulus?
Shear modulus defines a material’s resistance to shape change under shear forces - where parallel planes slide past one another.
364
[Page extract]
Introduction to insertion and withdrawal testing
Insertion and withdrawal testing is a critical method for evaluating the performance, durability, and reliability of components that require secure and repeatable connections.
365
[Page extract]
What is compression texture testing?
Compression texture testing is a method used to determine how a food product responds when force is applied. It measures properties such as firmness, consistency, and deformability by pressing into the sample with a controlled load.
366
[Page extract]
Mecmesin equipment for tension testing
Precision and flexibility
Mecmesin offers a wide range of systems for tension testing, from the manually operated MultiTest-dV for low-volume or field te
367
[Page extract]
Mecmesin equipment for texture testing
Tailored systems for diverse industries
Mecmesin offers precision texture testing systems designed to handle everything from soft gels and emulsions to firm solids.
368
[Page extract]
How bridge torque is measured
Bridge torque is measured by applying rotational force to a closure until the tamper-evident bridges shear.
369
[Page extract]
Testing standards for secant modulus
Consistent measurement is supported by recognised standards:
370
[Page extract]
How wing tear testing is performed
Specimen geometry and preparation
Testing accuracy begins with correct specimen preparation. For wing tear tests, samples are cut into shapes with two projecting wings joined by a narrow central region where the tear initiates.
371
Sensor
Sensors - MultiTest-i & -xt
Force sensors
The ILC range of interchangeable loadcells are specially adapted for the MultiTest-i and -xt test systems. Plug and play for automatic calibration and a range of capacities for all requirements, from 2 N to 50 kN.
View sensor range
372
Product
เครื่องทดสอบแบบยูนิเวอร์แซล
OmniTest 0.5/1/2.5
820-000.5
ชุดเครื่องทดสอบแบบเบนช์ท็อปสามารถใช้ทดสอบแรงเสียดทานและการบีบอัดของวัสดุ ผลิตภัณฑ์ และองค์ประกอบได้
ระบบการทดสอบแบบเบนช์ท็อปแบบหลากหลายทำงานด้วยซอฟต์แวร์ VectorPro™ ที่มีกำลังการทดสอบและความสามารถในการใช้งานอย่างง่าย…
374
Product
Ergonomic effort tester
AFG Manual Handling Kit
850-920
The Advanced Manual Handling Kit measures push, pull and twisting efforts in order to evaluate the ergonomic impact of any type of manual handling forces or torques.
The complete kit includes a gripping cradle and the essential accessories to…
375
Product
เครื่องทดสอบอเนกประสงค์
OmniTest 5/7.5
820-005
เครื่องทดสอบอเนกประสงค์ (UTM) แบบตั้งโต๊ะกลุ่มผลิตภัณฑ์ใหม่ของเราได้รับการออกแบบมาเพื่อการทดสอบแรงดึงและแรงอัดของวัสดุ ผลิตภัณฑ์ และส่วนประกอบ ระบบการทดสอบอเนกประสงค์อเนกประสงค์เหล่านี้ขับเคลื่อนโดย ซอฟต์แวร์ทดสอบ VectorPro™ ที่ทรงพลังและใช้งานง่าย…