9037 search results for test
SS7840000
acceptance tests (FATs). Develop and submit a test plan for FATs to the Engineer for consideration and approval. The Engineer reserves the right to witness all FATs. Complete the tests within five calendar days. 784-1.4.2 Field Testing: Once the MFES has been installed, conduct local FATs at the MFES, to witness all FATs. Complete the tests within five calendar days. 784-3.4.2 Field Testing: Perform local, device has successfull completed environmental testing as defined in the environmental requirements
https://fdotwww.blob.core.windows.net/sitefinity/docs/default-source/programmanagement/implemented/workbooks/julworkbook2010/files/ss7840000.pdf?sfvrsn=fc888f09_07850000.fhwa
with written test results for each testing location prior to backfilling the grounding electrode. Include in the test results the instrument model and date of calibration for the device used in the testing, the local environmental conditions at the time of testing, and a full Fall-of-Potential, Testing and Certification: Measure the ground resistance with an instrument designed specifically to measure and document earth/ground resistance, soil resistance, and current flow. Conduct the test
https://fdotwww.blob.core.windows.net/sitefinity/docs/default-source/programmanagement/implemented/workbooks/history/jul07/files/7850000.fhwa0574b8ac56d34828befc3cafc9ec6d58.pdf?sfvrsn=d84daf1f_07850000IMP
flow. Conduct the test by using the Fall-of-Potential method as described in the IEEE Standard 142-1991. Provide the Engineer with written test 7850000D01 ITS Jobs results for each testing location prior to backfilling the grounding electrode. Include in the test results the instrument model, at the time of testing, and a full Fall-of-Potential graph. Certify and sign the test results submitted, 785-1.3.4 Ground Resistance Testing and Certification: Measure the ground resistance with an instrument
https://fdotwww.blob.core.windows.net/sitefinity/docs/default-source/programmanagement/implemented/workbooks/history/jul06/files/7850000imp.pdf?sfvrsn=d56f623_07850000.impl
resistance, soil resistance, and current flow. Conduct the test by using the Fall-of-Potential method as described in the IEEE Standard 142-1991. Provide the Engineer with written test results for each testing location prior to backfilling the grounding electrode. Include in the test results, environmental conditions at the time of testing, and a full Fall-of-Potential graph. Certify and sign the test, leaching from soil. 0.2 ohm-meters 785-2.3.4 Ground Resistance Testing and Certification: Measure
https://fdotwww.blob.core.windows.net/sitefinity/docs/default-source/programmanagement/implemented/workbooks/history/jul07/files/7850000.impl.pdf?sfvrsn=59445198_07850000.FHWA
with written test results for each testing location prior to backfilling the grounding electrode. Include in the test results the instrument model and date of calibration for the device used in the testing, the local environmental conditions at the time of testing, and a full Fall-of-Potential, Testing and Certification: Measure the ground resistance with an instrument designed specifically to measure and document earth/ground resistance, soil resistance, and current flow. Conduct the test
https://fdotwww.blob.core.windows.net/sitefinity/docs/default-source/programmanagement/implemented/workbooks/history/jul07/files/7850000.fhwa.pdf?sfvrsn=6191e280_0SS7850000
resistance, soil resistance, and current flow. Conduct the test by using the Fall-of-Potential method as described in the IEEE Standard 142-1991. Provide the Engineer with written test results for each testing location prior to backfilling the grounding electrode. Include in the test results, conditions at the time of testing, and a full Fall-of-Potential graph. Certify and sign the test, leaching from soil. 0.2 ohm-meters 785-2.3.4 Ground Resistance Testing and Certification: Measure
https://fdotwww.blob.core.windows.net/sitefinity/docs/default-source/programmanagement/implemented/workbooks/julworkbook2008/files/ss78500006515be9689c642a18ac51eecf4e1992b.pdf?sfvrsn=7dbd4253_0SS7850000
resistance, soil resistance, and current flow. Conduct the test by using the Fall-of-Potential method as described in the IEEE Standard 142-1991. Provide the Engineer with written test results for each testing location prior to backfilling the grounding electrode. Include in the test results, conditions at the time of testing, and a full Fall-of-Potential graph. Certify and sign the test, leaching from soil. 0.2 ohm-meters 785-2.3.4 Ground Resistance Testing and Certification: Measure
https://fdotwww.blob.core.windows.net/sitefinity/docs/default-source/programmanagement/implemented/workbooks/julworkbook2008/files/ss7850000.pdf?sfvrsn=9a8a1ac4_0SS7850000
resistance, soil resistance, and current flow. Conduct the test by using the Fall-of-Potential method as described in the IEEE Standard 142-1991. Provide the Engineer with written test results for each testing location prior to backfilling the grounding electrode. Include in the test results, environmental conditions at the time of testing, and a full Fall-of-Potential graph. Certify and sign the test, leaching from soil. 0.2 ohm-meters 785-2.3.4 Ground Resistance Testing and Certification: Measure
https://fdotwww.blob.core.windows.net/sitefinity/docs/default-source/programmanagement/implemented/workbooks/julworkbook2007/files/ss7850000a8ada1f87ed74754856ec05fb5e03608.pdf?sfvrsn=ac72e3aa_07850000FHWA
resistance, and current flow. Conduct the test by using the Fall-of-Potential method as described in the IEEE Standard 142-1991. Provide the Engineer with written test results for each testing location prior to backfilling the grounding electrode. Include in the test results the instrument model, at the time of testing, and a full Fall-of-Potential graph. Certify and sign the test results submitted, ITS Jobs 785-1.3.4 Ground Resistance Testing and Certification: Measure the ground resistance
https://fdotwww.blob.core.windows.net/sitefinity/docs/default-source/programmanagement/implemented/workbooks/history/jul06/files/7850000fhwa.pdf?sfvrsn=2ddd0d72_0SS7850000
/ground resistance, soil resistance, and current flow. Conduct the test by using the Fall-of-Potential method as described in the IEEE Standard 142-1991. Provide the Engineer with written test results for each testing location prior to backfilling the grounding electrode. Include in the test results the instrument model and date of calibration for the device used in the testing, the local, . Resists leaching from soil. 0.2 ohm-meters 785-1.3.4 Ground Resistance Testing and Certification
https://fdotwww.blob.core.windows.net/sitefinity/docs/default-source/specifications/by-year/2007/january-2007/workbook/ss7850000.pdf?sfvrsn=dd2d03a5_0SS7850000
earth/ground resistance, soil resistance, and current flow. Conduct the test by using the Fall-of-Potential method as described in the IEEE Standard 142-1991. Provide the Engineer with written test results for each testing location prior to backfilling the grounding electrode. Include in the test results the instrument model and date of calibration for the device used in the testing, the local, . Resists leaching from soil. 0.2 ohm-meters 785-2.3.4 Ground Resistance Testing
https://fdotwww.blob.core.windows.net/sitefinity/docs/default-source/specifications/by-year/2008/january-2008/workbook/ss7850000.pdf?sfvrsn=70957cb0_0SS7850000
resistance, soil resistance, and current flow. Conduct the test by using the Fall-of-Potential method as described in the IEEE Standard 142-1991. Provide the Engineer with written test results for each testing location prior to backfilling the grounding electrode. Include in the test results, conditions at the time of testing, and a full Fall-of-Potential graph. Certify and sign the test, leaching from soil. 0.2 ohm-meters 785-2.3.4 Ground Resistance Testing and Certification: Measure
https://fdotwww.blob.core.windows.net/sitefinity/docs/default-source/specifications/by-year/2009/january-2009/workbook/ss7850000.pdf?sfvrsn=75958b94_0SS7850000
, and current flow. Conduct the test by using the Fall-of-Potential method as described in the IEEE Standard 142-1991. Provide the Engineer with written test results for each testing location prior to backfilling the grounding electrode. Include in the test results the instrument model and date, of testing, and a full Fall-of-Potential graph. Certify and sign the test results submitted. 785-2.3.5, -meters 785-2.3.4 Ground Resistance Testing and Certification: Measure the ground resistance
https://fdotwww.blob.core.windows.net/sitefinity/docs/default-source/specifications/by-year/2010/january-2010/workbook/ss7850000.pdf?sfvrsn=a9ebfca1_00071107.resp
but not limited to ITS Specification 783, which includes testing methodology and acceptance, an acceptable communication degradation test on the existing system within the limits of the contract, the initial fiber optic cable test of 12 strands through the project at the start of the project before breaking ground using a test procedure approved by a representative of the CE&I and the Department’s ITS Group. The fiber strand tests shall be uni-directional tests at a single wavelength using
https://fdotwww.blob.core.windows.net/sitefinity/docs/default-source/programmanagement/implemented/workbooks/history/jan13/files/0071107-resp.pdf?sfvrsn=2f921c5b_49480107FHWA
joint. Test pipe joints at the plant hydrostatically using test methods in ASTM D 3212 [ASTM D 3212M, . Ensure that the pipe joints have been tested at the plant hydrostatically at the specified pressure using test methods in ASTM D 3212 and witnessed by the State Materials Office. SUBARTICLE 948-2.3.1, a tight joint. Test pipe joints at the plant hydrostatically using test methods in ASTM D 3212 [ASTM D, with Pipe Ensure that the pipe joints have been tested at the plant hydrostatically at the specified
https://fdotwww.blob.core.windows.net/sitefinity/docs/default-source/programmanagement/implemented/workbooks/history/jan07/files/9480107fhwa.pdf?sfvrsn=f12b6a0_03550000fhwa
, consolidation, testing and inspection of all concrete mixtures. Assume responsibility for all mix, exceptions: 1.Conduct Quality Control (QC) sampling and testing frequencies as specified in 364-9.1 and 346-9.2, for process control purposes only. 2.TheDepartmentwillconductsampling and testing, . This documentation will consist of the results of all quality control tests performed to control materials
https://fdotwww.blob.core.windows.net/sitefinity/docs/default-source/programmanagement/implemented/workbooks/history/jul03/files/3550000fhwa.pdf?sfvrsn=db0b3e53_0BE932 Summary
. The team then p e r formed proof-of-concept testing at the university’s laboratory to evaluate the techniques on small- s c a l e s p e c i m e n s . T h e project also included large-scale testing, during post-tensioning and four-point bending tests. P roject Conclusions and Benefits T h i s p, ,pleaseseefdot.gov/research . Testing setupforsmall-scale50-kHzand 500-kHztestingonblockspecimens
https://fdotwww.blob.core.windows.net/sitefinity/docs/default-source/structures/structuresresearchcenter/project-summaries/2024/be932-summary.pdf?sfvrsn=7af2172a_1Travel Demand Modeling (TDM) Manual_Using Ch 3 - Accuracy and Precision
to accuracy, recommend sensitivity testing as part of the approach. Test runs can include, alternatives. Reasonableness is measured through sensitivity testing. Testing sensitivity is changing the model’s inputs to determine if the model reacts in a reasonable way. Sensitivity testing, be intuitive. Unexpected results to these tests can point to underlying issues with the model that will need, sensitive to test various scenarios and alternatives. Precision Precision refers to the degree
https://fdotwww.blob.core.windows.net/sitefinity/docs/default-source/planning/fto/transportation-forecasting-research-hub-documents/fdot-tdmm-documents/travel-demand-modeling-(tdm)-manual_using-ch-3---accuracy-and-precision.pdf?sfvrsn=acb8af01_19650100-724IMPL
, and this section. Verify the strength of each Lot by tensile test. Alternate testing will not be accepted, Requirements for Aluminum Components Product Test Method Alloy/Temper Reported Properties Pole, Arm, Material Requirements for Aluminum Components Product Test Method Alloy/Temper Reported Properties, Button Head or Flat Head Bolts ASTM F468 2024-T4 6061-T6 S2 Lot Testing, Alloy, Temper Hex Nuts ASTM F467 6061-T6 6262-T9 2024-T4 S2 Lot Testing, Alloy, Temper 965-2.4 Railing: Provide
https://fdotwww.blob.core.windows.net/sitefinity/docs/default-source/specifications/by-year/fy-2024-25/review/implemented/9650100-724impl.pdf?sfvrsn=8cee82b7_13370302.impl
), and asphalt binder content (P b) only. 2. Testing in accordance with AASHTO T 312-12 and FM 1-T 209 (and conditioning prior to testing) will not be required as part of 334-5.1.1. 3. The standard, with respect to surface tolerance in accordance with 334-5.8. No density testing will be required, the verified mix design 337-6.2.1 Individual Test Tolerances for FC-5 Production: Terminate the LOT if any of the following Quality Control (QC) failures occur: 1. An individual test result of a sublot
https://fdotwww.blob.core.windows.net/sitefinity/docs/default-source/specifications/by-year/2018/january-2018/review/implemented/3370302.impl.pdf?sfvrsn=440de36b_0