SAE J444 is a standard issued bySAE International that establishes a uniform system for designating and controlling theparticle-size distribution ofcast steel shot and grit used inabrasive blasting andshot peening. Together with related chemistry and hardness standards such asSAE J827 for high-carbon shot and SAE J1993 for high-carbon grit, it underpins media specifications across theautomotive industry,aerospace manufacturing and other engineering sectors.^[1]

The scheme later codified as J444 developed from ad-hoc sizing charts used by North Americanfoundries, includingErvin Industries in the 1940s and 1950s, where nominalsieve openings were quoted in ten-thousandths of an inch for shot and byASTM whole-number sieves for grit.^[2] The first publicly traceable edition appears in the 1984SAE Handbook, which the international abrasive standard seriesISO 11124 later cited verbatim.^[3]

A substantive revision in May 1993, published asCast Shot and Grit Size Specifications for Peening and Cleaning, brought grit classifications into the same document and rationalised the “all-pass” and “max-retained” sieve bands still in force.^[4]

Maintenance updates followed in June 2010 and September 2012. The 2012 edition corrected a typographical error in the S-460 screening limits that had been identified duringNadcap audits and logged in theShot Peener specifications database.^[5] The current edition, issued September 2023, adds metric conversions, updates the reference to ASTM E11-22 and includes an annex on laser diffraction sizing methods.^[6]

J444 assigns shot sizes the prefixS followed by a number equal to the nominal sieve opening in ten-thousandths of an inch (for example,S230 equals 0.600 mm). Grit sizes take prefixG with the whole-number sieve designation from ASTM E11. For each size the standard specifies an all-pass sieve, an upper percentage that may be retained on an intermediate sieve and a lower cumulative percentage that must pass finer sieves.^[1]

Shot-peening researchers treat these limits as boundary conditions in modelling work. David Kirk reported in a 2009Shot Peener study that the bandwidth for S-170 permits a 22-to-1 spread in individual particle mass, materially affectingresidual stress.^[7] A 2022 finite-element investigation published inMetals found that working mixtures drift outside the J444 bandwidth after prolonged use, necessitating periodic sieve testing to maintain conformity.^[8]

Although J444 is silent on chemistry and hardness, companion documents such as SAE J827 for high-carbon shot and SAE J2175 for low-carbon shot explicitly follow its size numbers, making J444 the de facto dimensional reference for allferrous shot media.^[9]

Original-equipment-manufacturer drawings for transmission gears, valve springs andlanding gear forgings typically invoke AMS 2431 shot-media clauses, which defer to J444 for size grading.^[10] Leaf-spring manufacturers likewise specify replenishment mixes centred on S-460, with compliance verified against the J444 sieve curve.^[8]

Abrasive suppliers market products by the S- and G-codes defined in J444. A 2024 note from Winoa lists the practice ahead of chemistry standards, underscoring its role as the primary dimensional yardstick in the Americas and Asia–Pacific.^[11] Military and corporate procedures also incorporate the practice:MIL-S-13165 and Curtiss-Wright manuals both list SAE J444 among their baseline documents.^[10]

• Materials testing
• Shot peening