At 6.4% CAGR, Global Silver Sintering Paste Market Size Surpass US$ 105 Mn By 2030, Forecast & Analysis Report By CMI

According to the study, The?Global Silver Sintering Paste Market?was estimated at USD 64 Million in 2021 and is anticipated to reach around USD 105 Million by 2030, growing at a CAGR of roughly 6.4% between 2022 and 2030.

Overview

The process of creating an open network of small microvoids by the interdiffusion of surface atoms on nearby metal particles is known as metal sintering. The key variables affecting densification and joint strength are temperature, pressure, time, and sintering environment. Additionally, it is frequently the preferred method for creating joints with materials with high melting points. Using it for printing or dispensing processes will assure LED packaging applications since it has increased heat conductivity in lead frames. These pastes are designed to easily incorporate into a dispensing process without altering the deposition apparatus and have a high metal loading.

The pastes may be utilized in rapid reflow-like (RFL) sintering procedures to provide strong joints on various standard Leadframe, DBC, and IPM pad finishes. They will securely stick to die with Ag, Au, or Cu surfaces. There are two categories of silver sintering pastes: pressure-sintering paste and pressure-less sintering paste. First, the pressure sintering paste process is well recognized since it can work with high pressure. Second, pressure-less sintering is the sintering of a crushed material without the need for external pressure, often occurring at very high temperatures and depending on the density of the material.

Silver Sintering Paste Market: Growth Drivers

Advanced materials are necessary for highly effective energy conversion and storage technologies like high-temperature solid oxide fuel and electrolysis cells, all-solid-state batteries, gas separation membranes, and thermal barrier coatings for advanced turbine systems. In every situation, starting with powders, processing ceramics and metals plays a crucial role and is frequently a difficult task. Such powder materials frequently need high sintering temperatures and have an inherent danger of aberrant grain development, evaporation, chemical reaction, or breakdown, especially in the event of lengthy dwell durations, depending on their composition. Techniques such as electric current-assisted sintering offer a solution to these limitations. An improve_m.

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