Vertical Tensile Tester LVTT-B11

The Vertical Tensile Tester is used to test the tensile strength of materials, meaning how much force a sample can withstand when being pulled apart. It’s commonly used in industries like plastics, rubber, textiles, metals, and composites to ensure materials meet specific mechanical strength requirements. This model offers high accuracy, ease of use, and is ideal for quality control, R&D, and compliance testing.

The Vertical Tensile Tester can test a wide variety of materials including plastics, metals, rubber, paper, films, textiles, leather, wires, adhesives, and composites. It supports different grips and fixtures to accommodate these materials, making it a highly versatile testing machine across different sectors including automotive, aerospace, construction, packaging, and electronics.

Vertical tensile testers are versatile and commonly used to test materials like plastics, rubber, metals, textiles, films, and paper. Their upright design is ideal for sheet materials and molded specimens that require precise alignment and gravitational balance. These testers support a wide range of standards like ASTM D638 for plastics or ISO 37 for rubber, making them suitable for research, quality control, and production environments across multiple industries.

Specimen alignment is critical and maintained through precise grip placement and rigid frame structure. Vertical testers use self-aligning or pneumatic grips that center the specimen automatically, minimizing stress concentration or bending. Manual alignment guides and digital position indicators further help ensure the sample remains centered along the test axis. Proper alignment ensures accurate tensile strength, elongation, and modulus readings, and prevents premature sample failure due to misalignment.

Vertical tensile testers come in a range of load capacities, from as low as 1 N for delicate films or fibers to over 500 kN for metals and composites. Laboratory-scale machines are often used for small samples, while industrial-grade models handle high-strength materials. Load cell selection should match the sample’s expected force for best accuracy. Modular systems also allow interchangeable load cells for testing a variety of materials on a single machine.

Vertical tensile testers often use clip-on extensometers, video extensometers, or non-contact laser extensometers to measure strain. Clip-on types are common for rigid materials, while video or laser extensometers are preferred for fragile or highly elastic specimens. The choice depends on sample deformation, accuracy requirements, and testing standards. Accurate strain measurement is crucial for calculating modulus, yield point, and elongation, making extensometer integration a key aspect of vertical tensile testing.

Yes, vertical tensile testers can be equipped with automation features like auto-gripping, barcode scanning, and robotic sample loading. These systems increase testing throughput and minimize human error, especially valuable in high-volume quality control. Advanced software also allows batch testing, auto-reporting, and integration with laboratory information systems (LIMS).