Thermal characterization of a liquid resin for 3D printing using photothermal techniques |
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Authors: | Email author" target="_blank">José?L?Jiménez-PérezEmail author Pavel?Vieyra?Pincel Alfredo?Cruz-Orea Zormy?N?Correa-Pacheco |
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Institution: | 1.UPIITA-IPN,Avenida Instituto Politécnico Nacional,Mexico,Mexico;2.Departamento de Física, CINVESTAV-IPN,Av. Instituto Politécnico Nacional,Mexico,Mexico;3.Instituto Politécnico Nacional-Centro de Desarrollo de Productos Bióticos (CEPROBI),Yautepec,Mexico |
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Abstract: | Thermal properties of a liquid resin were studied by thermal lens spectrometry (TLS) and open photoacoustic cell (OPC), respectively. In the case of the TLS technique, the two mismatched mode experimental configuration was used with a He–Ne laser, as a probe beam and an Argon laser was used as the excitation source. The characteristic time constant of the transient thermal lens was obtained by fitting the theoretical expression to the experimental data in order to obtain the thermal diffusivity (α) of the resin. On the other hand, the sample thermal effusivity (e) was obtained by using the OPC technique. In this technique, an Argon laser was used as the excitation source and was operated at 514 nm with an output power of 30 mW. From the obtained thermal diffusivity (α) and thermal effusivity (e) values, the thermal conductivity (k) and specific heat capacity per unit volume (ρc) of resin were calculated through the relationships k = e(α)1/2 and ρc = e/(α)1/2. The obtained thermal parameters were compared with the thermal parameters of the literature. To our knowledge, the thermal characterization of resin has not been reported until now. The present study has applications in laser stereo-lithography to manufacture 3D printing pieces. |
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