Rubber stress relaxation testing machine: accurately testing rubber durability

Application guide for high and low temperature universal material testing machine

The high and low temperature universal material testing machine was born for this purpose. It helps researchers obtain the most realistic tensile strength, yield strength, elastic modulus, and fracture toughness of materials by simulating extremely cold environments ranging from -70 ℃ to -196 ℃ or high temperature environments up to 300 ℃ or above.

Thin film biaxial tensile testing machine: accurately unlocking the "anisotropy" password of materials

The mechanical properties of thin film materials are crucial in the fields of packaging, optical display, and new energy. Traditional uniaxial tensile testing can only reflect the force in a single direction and cannot simulate the complex stress state of materials in actual processing. The emergence of the film biaxial tensile testing machine is precisely to accurately capture the mechanical response of materials under synchronous longitudinal (MD) and transverse (TD) forces.

Recognized by Tsinghua University! Fule biaxial tensile testing machine, preferred for material testing in multiple fields

In recent years, the requirements for material testing technology have undergone fundamental changes. Enterprises not only face the pressure of precise and reliable testing, but also need to carry out their work flexibly, efficiently, and sustainably, and their expectations for the ease of use and automation level of laboratories are constantly increasing. In this situation, the FL7501SZ microcomputer controlled biaxial tensile testing system from Fule Instrument Technology has set a new benchmark, gradually becoming the preferred solution in fields such as biomedicine and flexible materials due to its precise performance, low consumption and high efficiency, and multi scenario adaptation.

Our FLEC-Z high-temperature vacuum creep endurance testing system has been successfully delivered to Northwestern Polytechnical University

Recently, our independently developed FLEC-Z high-temperature vacuum creep endurance testing system has been officially delivered to Northwestern Polytechnical University, assisting the university in conducting research on the mechanical properties of composite materials under high-temperature vacuum environments.

Deep analysis and experience sharing of the correct usage method of the fully automatic notch projection image analyzer

The fully automatic notch projection image analyzer is a core equipment used in the fields of metal materials, plastics, composite materials, etc. to accurately determine the geometric parameters of impact specimens. It is widely used in quality inspection, research and development, and third-party testing institutions.