Nome |
# |
EURAMET supplementary comparison between INRiM, UME and PTB in Brinell hardness scales (HBW1/30 - HBW2.5/187.5) - EURAMET.M.H-S2.a, file dd2573c2-dd9b-e71c-e053-d805fe0ad5dc
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180
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Comparison between tensile properties and indentation properties measured with various shapes indenters of Copper-Chromium-Zirconium alloy at macroscale level, file dd2573c2-9db9-e71c-e053-d805fe0ad5dc
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169
|
CCM.G-K2 key comparison, file dd2573c2-6298-e71c-e053-d805fe0ad5dc
|
130
|
EURAMET key comparison between INRiM and UME in Vickers hardness scales (HV1 - HV30) - EURAMET.M.H-K1.b and c, file dd2573c2-e3b2-e71c-e053-d805fe0ad5dc
|
129
|
Indentation Modulus, Indentation Work and Creep of Metals and Alloys at the Macro-Scale Level: Experimental Insights into the Use of a Primary Vickers Hardness Standard Machine, file dd2573c2-f37d-e71c-e053-d805fe0ad5dc
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124
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Design of New Launch and Interferometer Systems for the IMGC-02 Absolute Gravimeter, file dd2573c2-a854-e71c-e053-d805fe0ad5dc
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120
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Perspectives and limits on the use of commercial low-cost digital MEMS accelerometers in gravimetry, file dd2573c2-e387-e71c-e053-d805fe0ad5dc
|
98
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MEASUREMENT OF MACRO-SCALE INDENTATION MODULUS USING THE PRIMARY HARDNESS STANDARD MACHINES AT INRIM, file dd2573c2-8f58-e71c-e053-d805fe0ad5dc
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82
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Indentation modulus at macro-scale level measured from Brinell and Vickers indenters by using the primary hardness standard machine at INRiM, file dd2573c2-aa1a-e71c-e053-d805fe0ad5dc
|
75
|
Preliminary results of EURAMET Rockwell comparison between INRiM and UME (EURAMET.M.H-S1.A.B.C), file dd2573c2-b9d1-e71c-e053-d805fe0ad5dc
|
56
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Bilateral comparison in Rockwell C hardness scale between INRiM and GUM, file dd2573c2-feab-e71c-e053-d805fe0ad5dc
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51
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Result analysis of EURAMET Vickers comparison between INRiM and UME (EURAMET.M.H-K1.b.c), file dd2573c2-ec90-e71c-e053-d805fe0ad5dc
|
48
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A suitable geometrical model for the verification of Knoop indenters with Gal-Indent optical system, file dd2573c2-b85c-e71c-e053-d805fe0ad5dc
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45
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Result analysis of EURAMET Brinell comparison between INRiM, UME and PTB (EURAMET.M.H–S2.A.B), file dd2573c2-ead2-e71c-e053-d805fe0ad5dc
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42
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The new IMGC-02 transportable absolute gravimeter: measurement apparatus and applications in geophysics and volcanology, file dd2573c2-606e-e71c-e053-d805fe0ad5dc
|
31
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EURAMET supplementary comparison between INRiM and UME in Rockwell hardness scales (HRA - HRBW - HRC) - EURAMET.M.H-S1.a.b.c, file dd2573c2-a871-e71c-e053-d805fe0ad5dc
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31
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TARATURA DI UNA MACCHINA PROVA MATERIALI MULTICOMPONENTI PRESSO L’UNIVERSITA’ DI MESSINA, file dd2573c2-b75e-e71c-e053-d805fe0ad5dc
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26
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Absolute measurements of the free-fall acceleration in Esch-sur-Alzette, Belval, Luxembourg EURAMET.M.G-K2 2015, file dd2573c2-9602-e71c-e053-d805fe0ad5dc
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23
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Correction of squareness measurements of Vickers indenters due to the tilt of the pyramid axis, file dd2573c2-9dab-e71c-e053-d805fe0ad5dc
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23
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Absolute gravity measurements at three sites characterized by different environmental conditions using two portable ballistic gravimeters, file dd2573c2-dee9-e71c-e053-d805fe0ad5dc
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23
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A correction method for Vickers indenters squareness measurement due to the tilt of the pyramid axis, file dd2573c2-e5a9-e71c-e053-d805fe0ad5dc
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20
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Absolute measurements of the free–fall acceleration in Geodetic Observatory Wettzell (Germany) EURAMET.M.G-K3 2018, file dd2573c2-bd69-e71c-e053-d805fe0ad5dc
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14
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Absolute measurements of the free-fall acceleration in Walferdange, Luxembourg ICAG 2013, file dd2573c2-94cd-e71c-e053-d805fe0ad5dc
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11
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A correction method for Vickers indenters squareness measurement due to the tilt of the pyramid axis, file dd2573c2-aa1e-e71c-e053-d805fe0ad5dc
|
10
|
Absolute gravity measurements at three sites characterized by different environmental conditions using two portable ballistic gravimeters, file dd2573c2-5fda-e71c-e053-d805fe0ad5dc
|
9
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Metrological Characterization of Optical Measuring System for Hardness Indenters, file dd2573c2-62e4-e71c-e053-d805fe0ad5dc
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9
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Verification of Knoop indenters with a Vickers-addressed optical system, file dd2573c2-f26b-e71c-e053-d805fe0ad5dc
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9
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Determination of sensitivity coefficients and their uncertainties in Rockwell hardness measurement: a Monte Carlo method for multiple linear regression, file af488245-af85-4c61-85fa-b9a3f1f3a335
|
8
|
Interferometer for the IMGC rise-and-fall absolute gravimeter, file dd2573c2-5f39-e71c-e053-d805fe0ad5dc
|
8
|
A method to estimate the time-position coordinates of a free-falling test-mass in absolute gravimetry, file dd2573c2-6017-e71c-e053-d805fe0ad5dc
|
7
|
Improvements of IMGC absolute gravimeter, file dd2573c2-62e3-e71c-e053-d805fe0ad5dc
|
7
|
A new modified Jamin interferometer for the IMGC-02 transportable rise-and-fall absolute gravimeter, file dd2573c2-ae27-e71c-e053-d805fe0ad5dc
|
7
|
Verification of Knoop indenters with Gal-Indent optical system, file dd2573c2-b761-e71c-e053-d805fe0ad5dc
|
7
|
Verification of Knoop indenters with a Vickers-addressed optical system, file dd2573c2-f3c3-e71c-e053-d805fe0ad5dc
|
7
|
Improvements of IMGC absolute gravimeter, file dd2573c2-5e4c-e71c-e053-d805fe0ad5dc
|
5
|
A method to estimate the time-position coordinates of a free-falling test-mass in absolute gravimetry, file dd2573c2-60ef-e71c-e053-d805fe0ad5dc
|
5
|
Regional comparison of absolute gravimeters, EURAMET.M.G-K2 key comparison, file dd2573c2-9852-e71c-e053-d805fe0ad5dc
|
5
|
A transportable absolute gravity meter adopting the symmetric rise and falling method, file dd2573c2-5e59-e71c-e053-d805fe0ad5dc
|
4
|
Investigations of new possibilities in the calibration of diamond hardness indenters geometry, file dd2573c2-5f3d-e71c-e053-d805fe0ad5dc
|
4
|
IMGC-02: metrological characterization of a new transportable absolute gravimeter, file dd2573c2-6280-e71c-e053-d805fe0ad5dc
|
4
|
Metrological characterization of optical measuring system for hardness indenters, file dd2573c2-630a-e71c-e053-d805fe0ad5dc
|
4
|
Absolute measurements of the acceleration due to gravity in Walferdange (Luxembourg), file dd2573c2-6347-e71c-e053-d805fe0ad5dc
|
4
|
Absolute Measurements of the Free-Fall Acceleration g in Catania and Etna Volcano (Italy), file dd2573c2-634f-e71c-e053-d805fe0ad5dc
|
4
|
PROCEDURA DI CONFRONTO E ANALISI DEI RISULTATI NEL CONFRONTO FRA CAMPIONI DI FORZA DEI CENTRI ACCREDITATI, file dd2573c2-bc2e-e71c-e053-d805fe0ad5dc
|
4
|
The assessment of the measurement error due to a non-vertical laser beam path in absolute gravimeters, file dd2573c2-6186-e71c-e053-d805fe0ad5dc
|
3
|
Final report on the Seventh International
Comparison of Absolute Gravimeters
(ICAG 2005), file dd2573c2-6198-e71c-e053-d805fe0ad5dc
|
3
|
Absolute measurements of the free-fall acceleration in Arcavacata (CS), Italy, file dd2573c2-6331-e71c-e053-d805fe0ad5dc
|
3
|
A new method to estimate the time-position coordinates of a free falling test-mass in absolute gravimetry, file dd2573c2-637b-e71c-e053-d805fe0ad5dc
|
3
|
MODIFICHE APPORTATE AL GRAVIMETRO ASSOLUTO IMGC-02, file dd2573c2-bd6f-e71c-e053-d805fe0ad5dc
|
3
|
Absolute measurements of the free-fall acceleration g in Catania and Etna volcano, file 12532d3e-a4f6-4845-80c9-f815691320eb
|
2
|
Determination of sensitivity coefficients and their uncertainties in Rockwell hardness measurement: a Monte Carlo method for multiple linear regression, file bdfbb682-fed3-4a1f-9ad9-6fa046bc9f22
|
2
|
Results of the International Comparison of Absolute Gravimeters in Walferdange (Luxembourg) of November 2003, file dd2573c2-5e75-e71c-e053-d805fe0ad5dc
|
2
|
Results of the Seventh International Comparison of Absolute Gravimeters ICAG-2005 at the Bureau International des Poids et Mesures, Sèvres, file dd2573c2-6011-e71c-e053-d805fe0ad5dc
|
2
|
IMGC-02: metrological characterization of a new transportable absolute gravimeter, file dd2573c2-6281-e71c-e053-d805fe0ad5dc
|
2
|
NEW POSSIBILITIES IN THE GEOMETRICAL CALIBRATION OF DIAMOND INDENTERS, file dd2573c2-6287-e71c-e053-d805fe0ad5dc
|
2
|
Experience in the metrological characterization of primary hardness standard machines, file dd2573c2-62fa-e71c-e053-d805fe0ad5dc
|
2
|
The new IMGC-02 transportable absolute gravimeter: measurements and applications in Geophysics and Volcanology, file dd2573c2-62fd-e71c-e053-d805fe0ad5dc
|
2
|
Six Years of Repeated Absolute Gravity Measurements at Etna Volcano (Italy), file dd2573c2-6305-e71c-e053-d805fe0ad5dc
|
2
|
Metrological characterization of the Vickers Hardness Calibration Machine and Gal-Vision measuring system realised by LTF Spa for NIM (China), file dd2573c2-6334-e71c-e053-d805fe0ad5dc
|
2
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Metrological characterization of the Primary Hardness Standard machine realized by LTF for Biroul Roman de metrologie legala (BRML) (Romania), file dd2573c2-6335-e71c-e053-d805fe0ad5dc
|
2
|
Absolute Measurements of the Free-Fall Acceleration g in Vesuvio, Campi Flegrei and Ischia, file dd2573c2-6337-e71c-e053-d805fe0ad5dc
|
2
|
Metrological characterization of the Primary Hardness Standard Machine realised by LTF for KRISS (Korea), file dd2573c2-6338-e71c-e053-d805fe0ad5dc
|
2
|
Metrological characterization of the Primary Hardness Standard Machine realised by LTF for INMETRO (Brazil), file dd2573c2-6339-e71c-e053-d805fe0ad5dc
|
2
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Metrological characterization of the Primary Hardness Standard Machine realised by LTF Spa for INMETRO (Brazil) - Part II, file dd2573c2-633b-e71c-e053-d805fe0ad5dc
|
2
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Metrological characterization of the Primary Hardness Standard Machine and GalVision Measuring System realised by LTF Spa for NCM (Bulgaria), file dd2573c2-633c-e71c-e053-d805fe0ad5dc
|
2
|
Absolute gravity measurements at 6th International Comparisons of Absolute Gravimeters (ICAG-2001) B.I.P.M. Sèvres, file dd2573c2-635a-e71c-e053-d805fe0ad5dc
|
2
|
Absolute and relative measurements of the free-fall acceleration in Clui-Napoca, Romania, file dd2573c2-635c-e71c-e053-d805fe0ad5dc
|
2
|
Metrological characterization of the Primary Hardness Standard Machine and Gal-Vision Measuring System realised by LTF for NPL (India), file dd2573c2-635f-e71c-e053-d805fe0ad5dc
|
2
|
Measuring the free-fall acceleration with the IMGC-02 transportable absolute gravimeter, file dd2573c2-63b5-e71c-e053-d805fe0ad5dc
|
2
|
Measuring the free-fall acceleration with the IMGC-02 transportable absolute gravimeter, file dd2573c2-63b6-e71c-e053-d805fe0ad5dc
|
2
|
A transportable absolute gravity meter adopting the symmetric rise and falling method, file dd2573c2-76df-e71c-e053-d805fe0ad5dc
|
2
|
Absolute measurments of the free-fall acceleration in the laboratory of the Politecnico di Torino in Mondovì, file dd2573c2-95bd-e71c-e053-d805fe0ad5dc
|
2
|
New analysis tools for the IMGC-02 absolute gravimeter: the linear model implemented via two new programs based on C++/ROOT and R softwares, file dd2573c2-9601-e71c-e053-d805fe0ad5dc
|
2
|
L'accelerazione di gravità in Metrologia, Geofisica e Geodesia: utilizzo e riferibilità della misura, file dd2573c2-5e4f-e71c-e053-d805fe0ad5dc
|
1
|
Perturbations in absolute gravimetry: a quantitative estimate of some of the most overriding influence factors, file dd2573c2-5e5f-e71c-e053-d805fe0ad5dc
|
1
|
The Seventh International Comparison of Absolute Gravimeters ICAG-2005 at the BIPM.
Organization and preliminary results, file dd2573c2-5e70-e71c-e053-d805fe0ad5dc
|
1
|
Absolute measurements of the free-fall acceleration g in the Republic of Panama, file dd2573c2-6345-e71c-e053-d805fe0ad5dc
|
1
|
Absolute Measurements of the Free-Fall Acceleration, g, in Catania and Etna Volcano (Italy), file dd2573c2-6357-e71c-e053-d805fe0ad5dc
|
1
|
Absolute Measurements of the Free-Fall Acceleration g in Cognento (MO) at the Force laboratory of AEP, file dd2573c2-63d4-e71c-e053-d805fe0ad5dc
|
1
|
A new generation of transportable absolute gravity meters: the IMGC-02, file dd2573c2-63db-e71c-e053-d805fe0ad5dc
|
1
|
Absolute measurements of the free-fall acceleration in the Laboratoire Souterrain de Modane (LSM), France, file dd2573c2-957c-e71c-e053-d805fe0ad5dc
|
1
|
Absolute measurements of the free-fall acceleration in the Testi & Cini laboratory in Firenze, file dd2573c2-979e-e71c-e053-d805fe0ad5dc
|
1
|
Totale |
1.754 |