P1Bulletin_Vol-102_No_09_December_2023
2020s

Data-driven discovery - big data, artificial intelligence, green energy, biomaterials, international, modeling, rapid processing

P1Bulletin_Vol-98_No_09_December_2019
2010s

Pushing boundaries - nanomaterials, additive manufacturing, modeling, simulation, biomaterials, international, engineered refractories, defects

P1Bulletin_Vol-88_No-10_Dec_2009
2000s

Nanotechnology arrives - nanomaterials, sustainability, international, raw materials, bioceramics, armor, fuel cells, manufacturing

P1Bulletin_Vol-78_No-12_Dec_1999-adjusted
1990s

Environmental influences - sol-gel, nanostructure, joining, coatings, composites, electroceramics, raw materials, spray drying, heavy metals, armor

P1Bulletin_Vol-68_No-12_Dec_1989
1980s

Space Age ceramics - space shuttle tiles, engines, solar cells, fuel cells, high-temperature superconductors, bioceramics

P1Bulletin_Vol-58_No-12_Dec_1979
1970s

Characterization inspires new applications - energy generation/storage, fibers, composites, castables, surgical implants

P1Bulletin_Vol-48_No-12_Dec_1969
1960s

Science-driven discovery - properties, structure models, kinetics, carbides, nitrides, bioglass

P1Bulletin_Vol-38_No-12_Dec_1959
1950s

Emerging tools - characterization, spectroscopy, radiography, properties, coatings, whitewares, structural clays, refractories

Bulletin_Vol-28_No-12_Dec_1949
1940s

Electronics era begins - capacitors, ferrites, raw materials, structural clays, refractories, whitewares, glass

P1Bulletin_Vol-18_No-12_Dec_1939
1930s

Focusing on manufacturing - raw materials, whitewares, refractories, brick, glazes, enamels

P1Bulletin_Vol-08_No-12_Dec_1929
1920s

Establishing an industry - clay, glass, brick, efflorescence, porcelain insulators, alumina, spark plugs, glass automobile windows