Variation in the viscoelastic properties of polydimethylsiloxane (PDMS
The goal of this paper is to determine accurately the acoustic properties of ultrasonic p-waves in PDMS in the 20 °C - 50 °C temperature range. To measure the p-wave velocity and
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Research Paper
A wide range experimental characterization of the large strain deformation behavior of Sylgard 184 10:1 is reported in this paper. The measurements show excellent repeatability of the
Heat treatment of commercial Polydimethylsiloxane PDMS precursors: Part
In this work, we discuss the PDMS thermal changes that have been evaluated using different analytical techniques (thermogravimetry-coupled mass spectrometry, and Raman
Mechanical Characterization of PDMS with Different Mixing Ratios
With the aim to make a comparison of the mechanical response of pure PDMS (SYLGARD 184) with different ratios of the base elastomer and the curing agent, tensile and hardness tests were
Experimental and theoretical analyses of the age
A wide range experimental characterization of the large strain deformation behavior of Sylgard 184 10:1 is reported in this paper. The measurements show excellent repeatability of the
Long-Term Thermal Aging of Modified Sylgard 184 Formulations
Four different formulations of Sylgard 184, comprising a control and combinations of the Asbhy–Karstedt catalyst and TDS, were studied for their curing time and other initial properties.
Experimental study on mechanical performance of
In this paper, the mechanical and thermal properties of PDMS material were studied at different temperatures, along with the damage modes under quasi-static compression loads.
Development of Polydimethylsiloxane Substrates with Tunable Elastic
Here we have demonstrated that PDMS formulations formed by blending together Sylgard 527 and Sylgard 184 are able to cover this entire range and that the elastic modulus can be tuned
Mechanical properties of bulk Sylgard 184 and its extension with
To this end a series of Sylgard 184 samples with varying silicone oil concentrations were prepared and tested (tensile test, rotational rheometer) in order to determine how curing temperature and silicone
Mechanical characterization of the stress-strain behavior of the
The main objective of this research is to characterize the mechanical behavior of Sylgard 184 under different loading conditions experienced in the process of using wearable sensors, and
Mechanical properties of bulk Sylgard 184 and its extension with
We present an experimental study delving into the efect of curing temperature on final mechanical properties of Sylgard 184, a matrix widely used in industrial applications.