02154oam 2200481zu 450 991016470630332120210807002122.00-8031-5558-110.1520/STP895-EB(CKB)3170000000045295(SSID)ssj0001489623(PQKBManifestationID)11877822(PQKBTitleCode)TC0001489623(PQKBWorkID)11458127(PQKB)10603468(NjHacI)993170000000045295(EXLCZ)99317000000004529520160829d1985 uy engur|||||||||||txtccrApplications of Radiation Thermometry[Place of publication not identified]American Society for Testing & Materials19851 online resource (171 pages) illustrationsBibliographic Level Mode of Issuance: Monograph0-8031-0445-6 Methods of temperature measurement using radiation thermometers, also referred to as optical or infrared pyrometers, are becoming more attractive for industrial applications. In addition to the noncontact and remote sensing advantages, the methods can be realized by a wide selection of thermometer types. With the growing use of computers for control purposes and the increased opportunity for improving process productivity and product quality, it has become essential to understand better the performance of radiation thermometers in the industrial environments where they are applied.Radiation pyrometersRadiation pyrometers.681/.2DeWitt D. PRichmond Joseph C1230760DeWitt David P.1934-640ASTM Committee E-20 on Temperature Measurement.United States.National Bureau of Standards.Symposium on Applications of Radiation Thermometry(1984 :National Bureau of Standards)PQKBBOOK9910164706303321Applications of Radiation Thermometry2857526UNINA