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JJF 1446-2014 English PDF

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JJF 1446-2014: Calibration Specification for Impedance Tubes(Transfer Function Method)
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Basic data

Standard ID JJF 1446-2014 (JJF1446-2014)
Description (Translated English) Calibration Specification for Impedance Tubes(Transfer Function Method)
Sector / Industry Metrology & Measurement Industry Standard
Classification of Chinese Standard A59
Classification of International Standard 17.140
Word Count Estimation 18,139
Date of Issue 1/23/2014
Date of Implementation 4/23/2014
Quoted Standard JJF 1001-2011; JJF 1034-2005; GB 3102.5-1993; GB 3102.7-1993; GB/T 18696.2-2002
Regulation (derived from) ?AQSIQ Announcement 2014 No. 10
Issuing agency(ies) General Administration of Quality Supervision, Inspection and Quarantine
Summary This Standard applies to the transfer function with sound-absorbing material absorption coefficient measured impedance tube calibration.

JJF 1446-2014: Calibration Specification for Impedance Tubes(Transfer Function Method)

---This is a DRAFT version for illustration, not a final translation. Full copy of true-PDF in English version (including equations, symbols, images, flow-chart, tables, and figures etc.) will be manually/carefully translated upon your order.
Calibration Specification for Impedance Tubes (Transfer Function Method) People's Republic of China National Metrology Technical Specifications Impedance Tube calibration specifications (Transfer Function Method) Issued on. 2014-01-23 2014-04-23 implementation The State Administration of Quality Supervision, Inspection and Quarantine released Impedance Tube calibration specifications (Transfer Function Method) Focal point. the National Committee of the acoustic measurement technology Drafted by. China Shipbuilding Industry Corporation seventh thousand and Institute China Ship Development and Design Center China Institute of Metrology Shaanxi Normal University This specification metering commissioned National Technical Committee is responsible for interpreting acoustics Drafters of this specification. Zhuzhuan Huan (China Shipbuilding Industry Corporation seventh thousand and Institute) Tang Jun (China Shipbuilding Industry Corporation seventh thousand and Institute) Zhangheng Ping (China Ship Development and Design Center) Niu Feng (China Institute of Metrology) Chen Jianlin (China Institute of Metrology) Sheng-lift (Shaanxi Normal University) Yang Hongyan (China Ship Development and Design Center)

table of Contents

Introduction (Ⅱ) 1 Scope (1) 2. References (1) 3 terminology and units of measurement (1) 3.1 Transfer Function (1) 3.2 wave number (1) 4 Overview (2) 5 Metrological characteristics (2) 5.1 spacing error microphones and two microphones and the standard reference sample spacing error (2) 5.2 sound source sound pressure stability (2) 5.3 total distortion of the sound source (2) 5.4 absorption coefficient measurement error (2) 5.5 Signal to Noise Ratio (2) 6 calibration conditions (3) Environmental conditions 6.1 (3) 6.2 standards and other measuring equipment (3) 7 calibration items and calibration methods (3) 7.1 calibration items (3) 7.2 Calibration method (4) 8 calibration results expression (7) 8.1 Calibration Data Processing (7) 8.2 calibration certificate (7) 8.3 calibration measurement uncertainty (8) 9 Recalibration interval (8) Appendix A calibration certificate-page format (9) Appendix B absorption coefficient Measurement Uncertainty of Measurement Error of instances (10)

Introduction

This specification based JJF 1071-2010 "National Calibration Specifications writing rules" establishment, the main reference GB/T 18696.2-2002 "acoustic impedance tube sound absorption coefficient and impedance measurement - Part 2. transfer function Number of law "[eqvISO 10534-2.1998 (E)]. This specification is the first release. Impedance Tube calibration specifications (Transfer Function Method)

1 Scope

This instruction applies to transfer function measurement of sound-absorbing material sound absorption coefficient of resistance tube calibration. 2. References This specification references the following documents. JJF 1001-2011 common measurement terms and definitions JJF 1034-2005 acoustic measurement terminology and definitions GB 3102.5-1993 Quantities and units of electricity and magnetism GB 3102.7-1993 Quantities and units of acoustics GB/T 18696.2-2002 acoustic impedance tube sound absorption coefficient and impedance measurement - Part 2. Biography Transfer function method For dated references, only the dated edition applies to this specification; undated reference documents Member, the latest edition (including any amendments) applies to this specification.

3 terminology and units of measurement

This specification uses quantities and units GB 3102.5-1993 and GB 3102.7-1993 prescribed. JJF 1001-2011 and JJF 1034-2005 and as defined in the following terms and definitions apply to this specification. 3.1 The transfer function (H12) transferfunction Acoustic impedance tube is passed to the location of the complex sound pressure ratio of 2 to 1 from the microphone. According to equation (1) or (2) the calculation. H12 = p2/p1 (1) Where. p1 --- 1 position complex sound pressure; complex sound pressure p2 --- position 2. H12 = S12/S11 (2) Where. Sound re-S11 --- 1 position since the pressure spectrum; Sound re-S12 --- position 1 to position 2 pressure of cross spectrum. 3.2 wave number (k0) wavenumber Acoustic angular frequency of the air than sound. Generally complex, according to equation (3) calculation. k0 = k'0-jk "0 (3) Where. k0 --- wave number; k'0 --- k0 real part of the phase constant;