about
sameAs
Asbestos-related cancer and the amphibole hypothesis: 3. The amphibole hypothesis: neither gone nor forgottenExpression and activity of urokinase and its receptor in endothelial and pulmonary epithelial cells exposed to asbestos"Nonspecific" interstitial pulmonary fibrosis: association with asbestos fibers detected by electron microscopyExperimental asbestos carcinogenesisChrysotile asbestos in the lungs of persons in New York CityThe surface energetics of asbestos mineralsThe porosity of amosite and chrysotile asbestosApplication of x-ray diffraction to analytical problems of occupational healthProficiency Analytical Testing (PAT) program (May 30, 1997)PAT program: background and current statusPAT program: background and current statusPAT program: background and current statusPAT program: background and current statusApplication of the K2 asbestos screening test in Colorado schoolsCarcinogenicity of beryllium hydroxide and alloysLung cancer mortality and fibre exposures among North Carolina asbestos textile workersAsbestos fibre dimensions and lung cancer mortality among workers exposed to chrysotileIncreased lung cancer mortality among chrysotile asbestos textile workers is more strongly associated with exposure to long thin fibresInfrared spectra for mineral identificationAsbestos exposure during low-income housing weatherizationOccupational health analytical chemistryComparison of mounting methods for the evaluation of fibers by phase contrast microscopyEvaluation of the dark-medium objective lens in counting asbestos fibers by phase-contrast microscopyExposure and mineralogical correlates of pulmonary fibrosis in chrysotile asbestos workersOccupational exposures to fibers and quartz at 19 crushed stone mining and milling operationsPrevalence of radiographic small opacities in vermiculite minersAsbestos air pollutionThe effect of amosite and chrysotile asbestos on the clearance of TiO2 particles from the lungIn vitro genotoxicity studies of chrysotile asbestos fibers dispersed in simulated pulmonary surfactantEstimates of dose-response for respiratory cancer among chrysotile asbestos textile workersEvaluation of the phase contrast microscopy method for the detection of fibrous and other elongated mineral particulates by comparison with a stem techniquePAT program report: background and current statusPAT program report: background and current statusPAT program report: background and current statusPAT program report: background and current statusPAT program report: background and current statusPAT program report: background and current statusPAT program: Proficiency Analytical Testing programFollow-up study of chrysotile asbestos textile workers: Cohort mortality and case-control analysesComparison of phase contrast and electron microscopic methods for evaluation of occupational asbestos exposures
P921
Q23909372-D62E9732-5186-46E1-9FB3-1F8FB17249BCQ23909530-1480F553-6382-47AC-A10A-9360821146F7Q23909660-DF12457F-2190-40E4-B164-9D9AA7D00632Q23909904-09CBFF53-AF6F-46FF-AE09-F846021F8CC4Q23910119-E84D0F84-9C15-4519-9F4D-F9C3668323E7Q23910676-4F473F33-CCB6-4C4A-9F7B-B42BD8EE0B14Q23910677-0B0A29A3-3C72-4C4A-BC4C-28C4EF37769DQ23910696-4EA2E73B-E17A-4D81-8253-0D9FC4C1994DQ23911307-940E5EB2-1045-43B7-A823-8B36C692099BQ23911315-6BA5B9FE-E10F-41F6-8D0A-37D1A8ABC1B8Q23911316-ED41AB76-A186-4E68-82E2-BC00505A9C8FQ23911318-A4A4A6A5-91CB-4D07-AE20-FD60ECB86074Q23911325-ED8FF7FE-1CC9-4D2D-9DD1-08755BF36A81Q23911332-30531F10-7387-4D1A-95AB-9097EC01875DQ23911423-088CF266-C382-4EB1-B278-02A1F8524950Q23911453-9B74A14F-5FD5-4C3F-A7CE-705A8743F5C7Q23911557-02EA3573-F174-4EE3-9132-AB513862EE34Q23911558-B0F6CD89-E523-407F-B3E3-5F16CE8F6DE2Q23911704-DAF63784-805F-48FA-95E9-68B9FC96C0FAQ23911891-42651FC0-06A8-412E-92F1-932ED8628947Q23912161-7B5E7DD7-F8FC-4404-8DFF-5DF73FD8747EQ23912296-3A2AA0EA-13AD-4DA6-90BE-18A5D7B9E0DAQ23912299-410DF960-243B-4985-AC2A-812F1930936BQ23912791-736C9FBE-C66C-45C1-A3CA-27D27D134D04Q23913250-AD189FFF-B202-4F6C-84DD-B9E39D0C3BE5Q23913441-80657FA1-1380-4559-8F5F-D5FF3553C7F2Q23913760-CE9ABDBF-BD3C-4470-9F17-A2A7B941F775Q23913889-EE7FA863-E100-4E92-A6AA-2C306F7C385EQ23913953-425CBC4C-1224-4D2A-A2C0-768DE821CD1DQ23913965-E62C6917-C6D5-448D-A9ED-9D14B1FE7F81Q23914108-59552496-B61F-41A9-9E6E-DB579FCC18E0Q23914735-F3BB821B-D8B6-4681-BE25-68404FC30DB5Q23914737-74EAF1D5-1AF6-4BE7-A501-72A9119498EFQ23914738-881E296A-DACB-436A-9759-4381C90C36A8Q23914744-382AFD6C-E317-4D61-B595-1A1FD75C6740Q23914747-119B9605-CCFD-4A15-8979-842D4657EBDDQ23914748-BC3565A6-10B5-46EB-8081-569C02DFE1E4Q23914749-6B7B35F2-D940-479A-A88D-C412D71F092FQ23915218-D6023941-4E85-4FCB-B706-745EF25E481EQ23915223-8B32596D-D71E-4D0B-9C62-AB99905084DF
P921
description
chemesch Verbindung
@lb
chemical compound
@en
chemical compound
@en-ca
chemical compound
@en-gb
chemická sloučenina
@cs
chemická zlúčenina
@sk
chemiese verbinding
@af
chemische Verbindung
@de
chemische Verbindung
@de-ch
chemische verbinding
@nl
name
Chrysotile
@de
trimagnesium;tris(oxidanidyl)-oxidanyl-silane;hydrate
@en
type
label
Chrysotile
@de
trimagnesium;tris(oxidanidyl)-oxidanyl-silane;hydrate
@en
altLabel
trimagnesium;hydroxy(trioxido)silane;hydrate
@en
prefLabel
Chrysotile
@de
trimagnesium;tris(oxidanidyl)-oxidanyl-silane;hydrate
@en
P661
P662
P683
P1578
P2067
P231
12168-92-2
P233
O.O[Si]([O-])([O-])[O-].O[Si]([O-])([O-])[O-].[Mg+2].[Mg+2].[Mg+2]
P234
1S/3Mg.2HO4Si.H2O/c;;;2*1-5(2,3)4;/h;;;2*1H;1H2/q3*+2;2*-3;
P235
CWBIFDGMOSWLRQ-UHFFFAOYSA-N
P274
H₄Mg₃O₉Si₂
P3117
DTXSID60923928