Evaluation of measurement uncertainty in a static tensile test

With the rise in carbon fiber-reinforced plastic (CFRP) usage, there is a growing occurrence of waste disposal, prompting the exploration of different recycling methods. The primary methods of recycling include separating carbon fibers and resin from discarded CFRP products or reusing scraps generated during CFRP production, such as dry fabric or prepreg. Recycling leftover dry fabric is essential for waste management in the automotive industry. Current research is centered on utilizing recycled materials to produce anisotropic mats, presenting difficulties in managing variations in properties. Moreover, isotropic mats are the preferred choice for practical automotive component design. Our research aimed to solve this problem by creating recycled carbon fiber (rCF) mats with isotropic characteristics through a wet method to enhance even fiber spreading. Conditions to minimize property changes in the fabric based on direction were identified, and the mats were tailored accordingly. Then, the resin was impregnated into the mats using compression resin transfer molding to form CFRP. The static properties of the CFRP specimens produced were evaluated to identify conditions that maximize isotropy. Furthermore, observations of oil injection into rCF mats showed that resin track formation was reduced when CFRP was fabricated using isotropic mats.

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Measurement uncertainty for mechanical resistance of manufactured steel bar

Dhoska

Lumi

Sulejmani

et al. 2022

Pollack

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This research work has been focused on estimation of the measurement uncertainty for different steel reinforcement bars. The investigated material was HRB400 steel reinforcement with approximately diameter 16 mm and length 500 mm by using uniaxial tensile testing device. International standard ISO 6892: 2016 and guide for measurement uncertainty have been implemented an accurate method to determine the measurement uncertainty of HRB400 steel reinforcement bar measurements. The results of expanded uncertainty for 569.47 N/mm−2 correspond to 0.76 N/mm−2, which fulfil the international standard requirements. This accurate method can be used in most of the accredited laboratories as inspection services of steel reinforcement bar by using uniaxial tensile testing device at good accuracy.

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Evaluation of measurement uncertainty in a static tensile test

Cited by 3 publications

References 5 publications

Estimating of measurement uncertainty of tensile strength test for deformed steel bars for concrete reinforcement

Estimating of measurement uncertainty of tensile strength test for deformed steel bars for concrete reinforcement

Manufacturing of automotive mat using recycled carbon fiber: Obtaining strong physical properties through isotropic fiber orientation and improved adhesion of epoxy resin

Measurement uncertainty for mechanical resistance of manufactured steel bar

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