Low temperature co-fired ceramics with ultra-low sintering temperature: a review
The recent rapid advances in wireless telecommunication, Internet of Things, the Tactile
Internet (5th generation wireless systems), the Industrial Internet, electronic warfare, satellite …
Internet (5th generation wireless systems), the Industrial Internet, electronic warfare, satellite …
Low loss dielectric materials for LTCC applications: a review
Small, light weight and multifunctional electronic components are attracting much attention
because of the rapid growth of the wireless communication systems and microwave …
because of the rapid growth of the wireless communication systems and microwave …
Recent progress in applications of the cold sintering process for ceramic–polymer composites
Ceramic–polymer composites are of interest for designing enhanced and unique properties.
However, the processing temperature windows of sintering ceramics are much higher than …
However, the processing temperature windows of sintering ceramics are much higher than …
High Quality Factor, Ultralow Sintering Temperature Li6B4O9 Microwave Dielectric Ceramics with Ultralow Density for Antenna Substrates
Dense Li6B4O9 microwave dielectric ceramics were synthesized at low temperature via
solid-state reaction using Li2CO3 and LiBO2. Optimum permittivity∼ 5.95, quality factor∼ …
solid-state reaction using Li2CO3 and LiBO2. Optimum permittivity∼ 5.95, quality factor∼ …
Microwave Dielectric Properties of Li2WO4 Ceramic with Ultra‐Low Sintering Temperature
A new ultra‐low‐temperature firing microwave dielectric ceramic, Li2WO4 with the phenacite
structure, was prepared via solid‐state reaction method. The Li2WO4 ceramic can be well …
structure, was prepared via solid‐state reaction method. The Li2WO4 ceramic can be well …
Microwave Dielectric Ceramics in Li2O–Bi2O3–MoO3 System with Ultra‐Low Sintering Temperatures
A series of compounds in the Li2O–Bi2O3–MoO3 ternary system were investigated with
regard to the preparation, phase composition, microwave dielectric properties, and chemical …
regard to the preparation, phase composition, microwave dielectric properties, and chemical …
NaCa4V5O17: A low-firing microwave dielectric ceramic with low permittivity and chemical compatibility with silver for LTCC applications
Phase formation, crystal structure and dielectric properties of NaCa 4 V 5 O 17 ceramics
fabricated via a solid state reaction route at relatively low temperatures (780–860° C) were …
fabricated via a solid state reaction route at relatively low temperatures (780–860° C) were …
Enhanced Na+-substituted Li2Mg2Mo3O12 ceramic substrate based on ultra-low temperature co-fired ceramic technology for microwave and terahertz polarization …
F Li, Y Li, Y Li, X Feng, J Zhang, X Liu, Y Lu… - Journal of the European …, 2023 - Elsevier
A novel Li 2 Mg 2-x Na 2x Mo 3 O 12 (x= 0.09) ceramic with ultra-low sintering temperature
is prepared by the solid-state reaction method. This ceramic (625° C) exhibits excellent …
is prepared by the solid-state reaction method. This ceramic (625° C) exhibits excellent …
Ultra-low sintering temperature ceramics for LTCC applications: a review
H Yu, J Liu, W Zhang, S Zhang - Journal of Materials Science: Materials in …, 2015 - Springer
During past over 30 years, low temperature co-fired ceramic (LTCC) technology has been
developed to meet with the requirements of small, light weight and multifunctional electronic …
developed to meet with the requirements of small, light weight and multifunctional electronic …
Bi2O3–MoO3 Binary System: An Alternative Ultralow Sintering Temperature Microwave Dielectric
Preparation, phase composition, microwave dielectric properties, and chemical compatibility
with silver and aluminum electrodes were investigated on a series of single‐phase …
with silver and aluminum electrodes were investigated on a series of single‐phase …