LabsCubed Knowledge Hub
Here, you'll find comprehensive articles and resources on tensile testing and laboratory automation. We share insights on how to implement automated solutions to save time, achieve higher data consistency, and effectively minimize human error in your lab operations.
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Mechanical Tests for Polymers: Methods & Automation
The mechanical tests for polymers, explained — tensile, flexural, impact, hardness, plus ASTM and ISO standards and where automation reduces variability.
Robotic Material Testing: The Complete Guide to Automating Your Lab
Learn how robotic material testing improves throughput, repeatability, and data traceability in plastics, rubber, and composite laboratories.
Automated Tensile Testing: How Labs Cut Cycle Time Up to 85%
Learn how automated tensile testing improves throughput, repeatability, and data traceability in plastics, rubber, and composite testing labs.

Composite Material Testing: Methods, Standards, and Automation
Learn the key composite material testing methods, ASTM standards, and how automation improves throughput, repeatability, and data quality.
Tensile Testing Machine Guide for Plastics & Rubber Labs
Learn how to choose the right tensile testing machine for plastics and rubber, and how automation improves throughput and repeatability.

ASTM D790/ISO 178 Explained: Everything You Need to Know About Plastic Flexural Testing
Mastering ASTM D790 & ISO 178: Why the Future of Flexural Testing is Horizontal
Stop wasting time on manual grip changes and calibration. Learn the essentials of plastic flexural testing and discover how CubeFlex is revolutionizing the lab with automated, horizontal 3-point bending.

Fatigue Testing in Rubber Compounds: Understanding Long-Term Performance
Explore the fundamentals of fatigue testing for rubber compounds, from traditional to 3D printed materials. A guide for materials engineers and lab managers on ensuring long-term performance and durability.

How Temperature and Humidity Affects Tensile Strength in Plastics
Discover how environmental conditions like temperature and humidity impact the tensile strength of plastics, including 3D printed parts. Essential insights for R&D managers and lab supervisors in plastics testing.

Understanding the Numbers: Tensile Data Collection and Saving Time with Automation
This article explains the importance of understanding and utilizing tensile testing data for better material selection. It highlights how raw test data, particularly the stress-strain curve, provides crucial material properties like ultimate tensile strength, yield strength, elongation at break, and Young's Modulus.
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