Characterization study of flax/strontium titanate/polypropylene composite for low‐k dielectric applications

Abstract: This study demonstrates the characterization of flax fiber reinforced polypropylene-strontium titanate composite and dielectric study for low-k dielectric applications. The composite was studied through thermal, morphological, and compositional aspects. Thermogravimetry analysis, differential scanning calorimetry shows a higher thermal stability with low glass transition temperatures and lowered decomposition temperatures of 375 C. The morphological study on the surface of this composites had revealed closely … Show more

“…However, ceramic materials are not flexible and are used as substrate materials in ceramic leadless chip carriers (LCCs) , that have a relatively low relative permittivity and a high dielectric constant because they are composed of materials with larger molecular weights than that of polymers. Thus, numerous polymer–ceramic composites have been considered. − Recently, glass–ceramics such as indialite and cordierite, H 3 BO 3 , ErNbO 4 , and Li 3 AlB 2 O 6 have successfully reduced the relative permittivity of ceramics to 2–4, which is challenging for ceramics. Ceramics have a relatively high degree of freedom owing to their compositional and structural diversity of elements compared with that in polymeric materials.…”

Effect of the Alumina Particle Filler Structure and Particle Size on the Dielectric Constant and Dielectric Loss in the Millimeter-Wave Band

“…However, ceramic materials are not flexible and are used as substrate materials in ceramic leadless chip carriers (LCCs) , that have a relatively low relative permittivity and a high dielectric constant because they are composed of materials with larger molecular weights than that of polymers. Thus, numerous polymer–ceramic composites have been considered. − Recently, glass–ceramics such as indialite and cordierite, H 3 BO 3 , ErNbO 4 , and Li 3 AlB 2 O 6 have successfully reduced the relative permittivity of ceramics to 2–4, which is challenging for ceramics. Ceramics have a relatively high degree of freedom owing to their compositional and structural diversity of elements compared with that in polymeric materials.…”

Effect of the Alumina Particle Filler Structure and Particle Size on the Dielectric Constant and Dielectric Loss in the Millimeter-Wave Band

“…Nevertheless, the mechanical properties are greatly decreased due to the inferior compatibility between the epoxy resins and fillers. [8][9][10] (ii) The introduction of air bubbles with ultra-low D k can reduce the D k of materials. However, the existence of pores ranging from 10 to 100 mm will decrease the mechanical properties of the matrix.…”

Preparation of a low dielectric POSS/epoxy hybrid polymer without sacrificing the mechanical performance

Low dielectric and high performance of epoxy polymer via grafting POSS dangling chains