![]() ![]() Therefore, the development of lead-free piezoceramics is a large, ongoing research area. While lead zirconate titanate (PZT) is the largest used piezoceramic material, its usage is constrained due to the presence of lead in the compound, which subjects PZT to the regulations such as Restrictions of Hazardous Substances (RoHS) Directive 2002/95/EC adopted by EU. Request a Free sample to learn more about this report.ĭevelopment of Lead-Free Piezoceramics to Stimulate Development For instance, PI Ceramics developed piezoceramics that enable precise liquid handling for in-vitro diagnostics for early diagnosis and disease detection. They also have developed novel products in combination with healthcare electronics manufacturers to study coronavirus and its traits. These devices utilize piezo materials to convert one form of energy to another and thus demand these materials during a crisis.įurthermore, companies operating in the market have modified their production plants to accommodate the growing demand from the healthcare industry. However, COVID-19 presented a spike in demand for equipment such as pyrometers, oximeters, automated ventilators, and electronic thermometers. Furthermore, crucial end-use industries such as the electronics and automotive sectors faced restricted operations and shutdowns, which critically impacted the demand for these materials. The raw material supply was involved as the mining industry faced lockdown restrictions announced by key countries, including China, India, and Brazil. ![]() Increasing Demand from Healthcare Industry to Balance the Impact of COVID-19Ĭovid-19 has severely affected the value chain of the piezoelectric materials manufacturers. Still, its inability to react at low voltages and function at temperatures above 300ᵒ C obligated its replacement by modern materials such as piezoceramics and piezo composites. Primarily quartz crystals were employed in piezoelectric devices. ![]() The selection of material for different applications is based on properties such as consistency, stability, high input-to-output ratio, malleability, and heat & humidity resistance. Nowadays, piezoelectric devices employ a wide variety of materials such as quartz crystal, Rochelle salt, ceramics, polymers, macro-fiber composites, ferroelectrets, and flexoelectric materials. Based on this effect, these materials find application in producing and detecting sound and frequency, ignition devices, SONAR, and pressure & displacement measurement systems. These materials use piezoelectricity to measure changes in speed, stress, strain, heat, or force by converting the differential in energy into electrical charge. Due to this property, they are commonly referred to as transducers. In other words, these materials convert mechanical energy to electrical energy and vice versa. On the other hand, when an electric field is applied across the material, it shows deformation in its dimensions. Piezoelectricity is a property displayed by some materials wherein the material generates an electric field when a force is applied. The sudden decline in CAGR is attributable to this market’s demand and growth, returning to pre-pandemic levels once the pandemic is over. Based on our analysis, the global market exhibited a huge decline of 2.9% in 2020. The global impact of COVID-19 has been unprecedented and staggering, with these products witnessing a negative demand shock across all regions amid the pandemic. The market is projected to grow from USD 1.35 billion in 2021 to USD 1.82 billion in 2028 at a CAGR of 4.4% during the 2021-2028 period. The global piezoelectric materials market size was USD 1.31 billion in 2020. ![]()
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