Compressive Behaviors of Micropillar Sheets Made of PDMS Material Using the Finite Element Method

Pakawan, Thitikan; Puttapitukporn, Tumrong; Atthi, ์์Nithi; Sripumkhai, Witsaroot; Pattamang, Pattaraluck; Klunngien, Nipapan; Jeamsaksiri, Wutthinan

doi:10.4186/ej.2020.24.4.73

Cited by 2 publications

(2 citation statements)

References 21 publications

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“…The ANSYS program exhibits the capacity to optimize a variety of features, consisting of boundary conditions and geometrical design. It may combine different physics and carry out analysis [26]. It makes use of particular inputs and compares product behavior to physics.…”

Section: The Ansys Programmentioning

confidence: 99%

Studying the Compressed Mechanical Characteristics of a Novel Carbon-Free Plaster Using ANSYS Software

Albadrani,

Almutairi

2023

Buildings

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Eco-friendly plasters offer several advantages, including sustainability, nontoxicity, and low cost. These plasters are made with sustainable materials, such as natural fibers and starches. These materials can have different mechanical properties compared to traditional plasters, which are made with gypsum and cement. Due to the increased attention being paid to environmental issues, efforts are still being made to switch out the conventional plaster of gypsum and cement for an eco-friendlier alternative to minimize toxicity, increase effectiveness, and lower cost. In this study, the effect of novel plaster behavior under pressure on mechanical properties was investigated. The plaster investigated was an eco-friendly carbon-free BSCO plaster. A range of experimental techniques were used, such as compression testing for confirmation using ANSYS 2023 R1 software, which set ergonomic and user-friendly standards as a minimum requirement, with the overarching goal of creating stronger, lighter, and more reasonably priced structures. The results showed that eco-friendly Bilateral Specialized Company (BSCO) plasters could have comparable mechanical properties to traditional plasters. Additionally, it is suggested that eco-friendly and carbon-free plasters can be a viable alternative to traditional plasters in a variety of applications. Researchers and civil engineers can both gain from this scientific paper’s potential to replace conventional stucco with an ecologically friendly alternative that has more effective mechanical qualities.

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Section: The Ansys Programmentioning

confidence: 99%

Studying the Compressed Mechanical Characteristics of a Novel Carbon-Free Plaster Using ANSYS Software

Albadrani,

Almutairi

2023

Buildings

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“…[27][28][29][30] While the structure that is less dense will result in weak micro-structural integrity. 31,32) Second, it is technically complicated to fabricate the re-entrant micro-/nano-structures. 20,[33][34][35] Most reentrant surface topology, e.g.…”

Section: Introductionmentioning

confidence: 99%

Superhydrophobic and superoleophobic property enhancement on guard ring micro-patterned PDMS with simple flame treatment

Atthi

Sripumkhai

Pattamang

et al. 2021

Jpn. J. Appl. Phys.

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Effects of new micro-structure design, a flame treatment process, and the addition of semifluorinated silane (SFS) on an improvement of superhydrophobicity and superoleophobicity of PDMS surfaces were investigated in this study. PDMS and PDMS-SFS surfaces with the special design of circular rings and eight stripe supporters (C-RESS) with a hexagonal guard ring (HGR) structure were found to be the most durable which maintained their superhydrophobicity after scratch tests. The flame treatment at 700 °C/15 s formed a unique nanoscale flower-like on the PDMS-SFS surface. A formation of re-entrant micro-structure on the C-RESS with the HGR structure exhibited superhydrophobicity and superoleophobicity with water and ethylene glycol contact angles of 160.5° ± 2.0° and 160.2° ± 6.6°, respectively. The addition of the SFS was found to increase surface roughness and decrease surface energy. In conclusion, the flame-treated C-RESS with the HGR structure on the PDMS-SFS surface is considered one of the promising antifouling approaches in several applications.

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Compressive Behaviors of Micropillar Sheets Made of PDMS Material Using the Finite Element Method

Cited by 2 publications

References 21 publications

Studying the Compressed Mechanical Characteristics of a Novel Carbon-Free Plaster Using ANSYS Software

Studying the Compressed Mechanical Characteristics of a Novel Carbon-Free Plaster Using ANSYS Software

Superhydrophobic and superoleophobic property enhancement on guard ring micro-patterned PDMS with simple flame treatment

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