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JJG 150-2009 (JJG 150-2005) PDF English

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JJG 150-2005: Metallic Brinell Hardness Testers
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JJG 150: Evolution and historical versions

Standard IDContents [version]USDSTEP2[PDF] deliveryName of Chinese StandardStatus
JJG 150-2005English235 Add to Cart 0-9 seconds. Auto-delivery Metallic Brinell Hardness Testers Valid
JJG 150-1990English239 Add to Cart 2 days Verification Regulation of Metal Brinell Hardness Tester Obsolete
JJG 150-1983EnglishRFQ ASK 3 days (Chinese Industry Standard) Obsolete

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GB/T 36126   GB/T 1885   JJG 159   

JJG 150-2005: Metallic Brinell Hardness Testers

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NATIONAL METROLOGICAL VERIFICATION REGULATION OF THE PEOPLE’S REPUBLIC OF CHINA Metallic Brinell Hardness Testers ISSUED ON: MARCH 03, 2005 IMPLEMENTED ON: SEPTEMBER 03, 2005 Issued by: General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China

Table of Contents

1 Scope ... 5 2 References ... 5 3 General ... 5 4 Measurement performance requirements ... 6 4.1 Perpendicularity and coaxiality of hardness tester’s spindle ... 6 4.2 Test force for hardness testers ... 6 4.3 Indenter ... 6 4.4 Indentation measuring device ... 6 4.5 Indicating value’s maximum allowable error and indicating value repeatability ... 8 5 General technical requirements ... 8 5.1 Appearance, installation and requirements ... 8 5.2 Test force application speed and test cycle time ... 8 6 Control of measuring instruments ... 9 6.1 Verification conditions ... 9 6.2 Verification items and verification methods ... 9 6.3 Processing of verification results ... 14 6.4 Verification cycle ... 14 Annex A Record format of verification of test force and indicating value of Brinell hardness testers ... 15 Annex B Inner page format of verification certificate and verification result notice of Brinell hardness testers ... 17 Verification Regulation of Metallic Brinell Hardness Testers

1 Scope

This Regulation applies to the initial verification, subsequent verification and in- use inspection of fixed metallic Brinell hardness testers (hereinafter referred to as hardness testers).

2 References

ISO 6506-1 Metallic materials - Brinell hardness test - Part 1 Test method GB/T 231.1-2002 Metallic materials - Brinell hardness test - Part 1: Test method GB/T 231.2-2002 Metallic Brinell hardness test - Part 2: Verification and calibration of hardness testers GB/T 231.3-2002 Metallic Brinell hardness test - Part 3: Calibration of hardness reference blocks JJG 144-1992 Verification Regulation of Standard Dynamometer When using this Regulation, care shall be taken to use the currently valid version of the above-cited references.

3 General

A Brinell hardness tester is mainly used for the determination of hardness of cast iron, steel, non-ferrous metals and soft alloys. In addition, it can also be used for the determination of hardness of certain non-metal materials such as plastic and bakelite. Use a cemented carbide ball of a certain diameter to press into the surface of the specimen under the specified test force. After a certain retention time of the test force, remove the test force. Measure the diameter of the indentation left on the surface of the specimen. The Brinell hardness value is expressed as the average pressure on the indentation’s surface area. The test cycle time refers to the test force holding time and the test force application time. The maximum allowable error of the test force cycle time is ±0.5 s.

6 Control of measuring instruments

Control of measuring instruments includes: initial verification, subsequent verification and in-use inspection. 6.1 Verification conditions 6.1.1 Environmental conditions Hardness testers shall be verified under the environmental conditions of (23 ± 5) °C. During subsequent verification or in-use verification of hardness testers outside this temperature, the ambient temperature shall not be lower than 10 °C and higher than 35 °C. The temperature at the time of verification shall be indicated in the verification record and verification certificate. 6.1.2 During the verification, the surrounding environment shall be clean and free from vibration and corrosive gases. 6.1.3 Instruments for verification See Table 4 for instruments for verification. 6.2 Verification items and verification methods See Table 5 for verification items. Subsequent verification of hardness testers shall be carried out in accordance with the methods in 6.2.1 and 6.2.8 for the control of measuring instruments. If the verification of indicating value is not qualified, it shall be verified and adjusted according to the methods of 6.2.2, 6.2.3, 6.2.4, 6.2.5, 6.2.6, and 6.2.7 for the control of measuring instruments. Table 4 -- Instruments for verification No. Verification item Instruments for verification Name Technical requirements 1 Levelness of test bench of hardness testers Level Division value: 0.2/1000 Perpendicularity of hardness tester’s spindle and test bench surface Calibration rod Cylindricity is not greater than 0.01 mm, effective length is 100 mm Knife edge square Grade 1: 100 m × 60 m Feeler (0.02 ~ 1) mm 3 Coaxiality of lifting Measuring Division value: 0.01 mm, Grade II force of the hardness tester, then adjust the zero position and start the test. 6.2.4.2 The direction of movement of the test force during verification shall be the same as the direction of movement of the test force during the test, and the test shall be performed at three positions within the entire travel range of the test force. Measure 3 times at each position. The test force error is calculated according to (1): where: W - the test force error; K0 - the indicating value of the standard dynamometer corresponding to the test force; K - the reading differs most from K0, among the 3 readings. The verification W result of test force shall meet the requirements of 4.2.2. 6.2.5 Verification of indenter 6.2.5.1 Appearance inspection of ball indenter Observe the surface state of the ball under a stereo microscope with a magnification of 100 times. The surface of the ball shall be free of defects such as pits, scratches, cracks, and rust. Use an interference microscope to measure its surface roughness. It shall meet the requirements of 4.3. 6.2.5.2 Test of ball diameter The diameter of the ball shall be measured by a vertical optical length measuring instrument. The diameter shall be measured in at least three directions. The measured value of three measurements shall meet the requirements of 4.3. 6.2.5.3 Test of ball hardness Samples shall be taken randomly from ball indenters produced in the same batch and tested with a Vickers hardness tester (HV10). The hardness value shall meet the requirements of 4.3. The ball indenter after test shall be discarded. 6.2.6 Verification of indentation measuring device Check whether the scale of the indentation measuring device is clear and uniform. where: Hcf - the indicating value repeatability of the hardness tester; Hmax - the maximum value of hardness at 5 points; Hmin - the minimum value of hardness at 5 points; - the arithmetic mean value of hardness at 5 points. 6.2.8.3 Indicating value error of hardness testers The indicating value error of hardness testers is calculated according to formula (4): where: δ - the indicating value error of the hardness tester; - the indicated value of the hardness tester (average value of hardness at 5 points); - the hardness value of the hardness block. The indicating value repeatability and indicating value error of hardness testers shall meet the requirements of 4.5. 6.3 Processing of verification results The hardness tester that is qualified in the verification according to the requirements of this Regulation is issued a verification certificate. The hardness tester that is unqualified in the verification is issued a verification result notice. 6.4 Verification cycle The verification cycle of hardness testers generally does not exceed 1 year. ......
Source: Above contents are excerpted from the full-copy PDF -- translated/reviewed by: www.ChineseStandard.net / Wayne Zheng et al.