N13 机械量仪表、自动秤重装置与其他检测仪表 标准查询与下载

SN/T 2389.7-2011 进出口商品容器计重规程.第7部分：岸上立式金属压力罐（非冷冻）液位的自动测量

本部分规定了进出口液体货物在仓储转输中自动液位仪的测量方法。 本部分适用于蒸气压低于4MPa的液体货物的压力罐液位测量。可用于接触式/非接触式自动液位仪的精密度计算、安装、调试、纠偏、校验、测量和结果判定等环节。

Rules of measurement survey on import and export commodities.Part 7:Measurement of level in pressurized storage tanks(non-refrigerated)by automatic methods

NF E12-021:2011 专用称量台定秤.规范和试验方法.

Weight scales for private use - Specifications and test methods.

NF E12-020:2011 身体构成分析用带生物电阻抗测量的个人体重计.规范和试验方法.

Personnal weighing scales with bio-impedance measurement for body composition analysis - Specifications and test methods.

DIN 8128-1:2011 自动分检衡器.第1部分:计量和技术要求.试验(OIML R 51-1-2006 + 勘误表 2010)

Automatic catchweighing instruments - Part 1: Metrological and technical requirements - Tests (OIML R 51-1:2006 + Erratum 2010)

BS EN ISO 3611:2010 产品几何技术规范(GPS).尺寸测量设备.外观测量用千分尺.设计和计量学特征

This International Standard specifies the most important design and metrological characteristics of micrometers for external measurements: - with analogue indication; - with digital indication: mechanical or electronic digital display.

Geometrical product specifications (GPS). Dimensional measuring equipment. Micrometers for external measurements. Design and metrological characteristics

ISO 14253-2:2011 几何产品规范(GPS).工件和测量设备的测量检查.第2部分:几何产品规范测量中,测量设备校准中以及产品检验中不确定度评价指南

This part of ISO 14253 gives guidance on the implementation of the concept of the “Guide to the estimation of uncertainty in measurement” (in short GUM) to be applied in industry for the calibration of (measurement) standards and measuring equipment in the field of GPS and the measurement of workpiece GPS characteristics. The aim is to promote full information on how to achieve uncertainty statements and provide the basis for international comparison of measurement results and their uncertainties (relationship between purchaser and supplier). This part of ISO 14253 is intended to support ISO 14253-1. Both parts are beneficial to all technical functions in a company in the interpretation of GPS specifications [i.e. tolerances of workpiece characteristics and values of maximum permissible errors (MPEs) for metrological characteristics of measuring equipment]. This part of ISO 14253 introduces the Procedure for Uncertainty MAnagement (PUMA), which is a practical, iterative procedure based on the GUM for estimating uncertainty of measurement without changing the basic concepts of the GUM. It is intended to be used generally for estimating uncertainty of measurement and giving statements of uncertainty for: ⎯ single measurement results; ⎯ the comparison of two or more measurement results; ⎯ the comparison of measurement results — from one or more workpieces or pieces of measurement equipment — with given specifications [i.e. maximum permissible errors (MPEs) for a metrological characteristic of a measurement instrument or measurement standard, and tolerance limits for a workpiece characteristic, etc.], for proving conformance or non-conformance with the specification. The iterative method is based basically on an upper bound strategy, i.e. overestimation of the uncertainty at all levels, but the iterations control the amount of overestimation. Intentional overestimation — and not underestimation — is necessary to prevent wrong decisions based on measurement results. The amount of overestimation is controlled by economical evaluation of the situation. The iterative method is a tool to maximize profit and minimize cost in the metrological activities of a company. The iterative method/procedure is economically self-adjusting and is also a tool to change/reduce existing uncertainty in measurement with the aim of reducing cost in metrology (manufacture). The iterative method makes it possible to compromise between risk, effort and cost in uncertainty estimation and budgeting.

Geometrical product specifications (GPS) - Inspection by measurement of workpieces and measuring equipment - Part 2: Guidance for the estimation of uncertainty in GPS measurement, in calibration of measuring equipment and in product verification

DB37/T 1846-2011 超声波测厚仪

Ultrasonic Thickness Gauge

DB37/T 1845-2011 水质在线红外测油仪技术条件

Technical conditions of online infrared oil measuring instrument for water quality

JJG 784-2011 深沟球轴承跳动测量仪检定规程

本规程适用于测量外径（30～360）mm的深沟球轴承外圈跳动测量仪和测量内经（10～215）mm的深沟球轴承内圈跳动测量仪的首次检定、后续检定和使用中检查。

Verification Regulation of Deep Groove Ball Bearing Bounce Measuring Instrument

DIN EN ISO 25178-602:2011 产品几何技术规范(GPS)-表面纹理:平面.第602部分:非接触式(共焦彩色探针)仪器的标称特征(ISO 25178-602-2010);德文版本EN ISO 25178-602-2010

Geometrical product specifications (GPS) - Surface texture: Areal - Part 602: Nominal characteristics of non-contact (confocal chromatic probe) instruments (ISO 25178-602:2010); German version EN ISO 25178-602:2010

DIN EN ISO 10360-5:2011 产品几何量技术规范(GPS).坐标测量机(CMM)的验收和复检试验.第5部分:使用单个和多触针探测系统的坐标测量机(ISO 10360-5-2010).德文版本EN ISO 10360-5-2010

Geometrical product specifications (GPS) - Acceptance and reverification tests for coordinate measuring machines (CMM) - Part 5: CMMs using single and multiple stylus contacting probing systems (ISO 10360-5:2010); German version EN ISO 10360-5:2010

ANSI/ASME B89.1.8-2011 位移测量激光干涉仪的性能评估

This standard establishes requirements and methods for the specification, evaluation, setup and use of laser interferometers. This standard will explicitly discuss only single-pass optics and a single axis of linear displacement measurement. The standard is currently limited to ionized gas laser interferometer systems. Only single-color lasers will be considered in this version of the laser standard. Single color will include both homodyne systems and heterodyne systems (see Appendix E) where operating frequencies all lie within a Doppler broadened frequency band associated with one specific atomic transition or Zeeman multiplet. Diode laser systems, chirp systems, and two-color interferometers may be included in future versions of this standard. It should be noted that the folded common path comparison technique of this standard could be used to compare any of the above systems to a standard He-Ne laser interferometer.

Performance Evaluation of Displacement-Measuring Laser Interferometers

ASME B89.1.8-2011 位移测量激光干涉仪性能评估

This Standard establishes requirements and methods for the specification, evaluation, setup, and use of laser interferometers. This Standard will explicitly discuss only single-pass optics and a single axis of linear displacement measurement.

Performance Evaluation of Displacement-Measuring Laser Interferometers

ASTM E556/E556M-11 用校准平台(用户水平仪)校准车轮力或转矩传感仪的标准试验方法

Wheel force or torque transducers are used under dynamic test conditions, and the measurements are subject to many error sources. The static calibration recommended by the present standard cannot eliminate all error sources. Its significance is in providing an accurate calibration of the transducer and the associated electronics, readout, and recording equipment. Calibration result may be used to either make mechanical or electronic adjustments until the readout agrees with the calibration input. Alternatively, calibration curves or tables may be prepared to be used as corrections to measured results.1.1 This test method covers the calibration of the force (or torque) transducer and associated instrumentation of a mounted test wheel by using a calibration platform. 1.2 This test method is a static calibration, simulating the traction force between a tire and the pavement. 1.3 In the case of a force-measuring system, the instrumentation readout is directly proportional to the calibration force input. 1.4 In the case of a torque-measuring system, the instrumentation readout is a measure of the calibration force input and the effective tire radius. 1.5 The values stated in either SI units or inch-pound units are to be regarded separately as standard. The values stated in each system may not be exact equivalents; therefore, each system shall be used independently of the other. Combining values from the two systems may result in non-conformance with the standard. 1.6 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use.

Standard Test Method for Calibrating a Wheel Force or Torque Transducer Using a Calibration Platform (User Level)

JJG 924-2010 转距转速测量装置检定规程

本规程适用于转矩转速测量装置的首次检定、后续检定和使用中检验。

Verification Regulation of Tacho-Torque Measuring Device

BS EN ISO 10360-5:2010 产品几何量规范(GPS).坐标式测量设备(CMM)的验收和复检试验.带单针和多触针探测系统的坐标测量机(CMMs)

This part of ISO 10360 specifies acceptance and periodic reverification tests of CMM performance with contacting probing systems and is only applicable to CMMs using ? any type of contacting probing system, ? a discrete point probing mode, and ? spherical or hemispherical stylus tip(s). It complements ISO 10360-7, which is the module for CMMs with video probing systems, and ISO 10360-2, which is universal, i.e. not probe-type specific. NOTE It is the CMM probing performance tests which are specified by the maximum permissible errors (MPEs), due to the impracticality of isolating the performance of the probing system from that of the CMM, even on a small artefact such as a test sphere. This part of ISO 10360 applies to CMMs supplied with any of the following: a) single-stylus probing system; b) multi-stylus probing systems with fixed multiple styli attached to a single probe (e.g. “star” stylus); c) multiple probing systems such as those with a stylus for each of their probes; d) systems with articulating probing; e) stylus and probe changing systems; f) manual (non-driven) CMMs. This part of ISO 10360 is not applicable to non-contacting probing systems, which require different testing procedures. The terms “multi-stylus size error”, etc., should strictly be written “combined CMM and multi-stylus probingsystem size error”, etc. For convenience, the wording has been truncated. If it is desired to isolate the probing-system performance as far as is practical, the influence of the CMM can be minimized. See Annex C for more information.

Geometrical product specifications (GPS). Acceptance and reverification tests for coordinate measuring machines (CMM). CMMs using single and multiple stylus contacting probing systems

DIN EN ISO 286-2:2010 产品几何量技术规范(GPS)-ISO线性尺寸公差代码体系.第2部分:孔和轴的标准公差等级和极限偏差表(ISO 286-2-2010);德文版本EN ISO 286-2-2010

Geometrical product specifications (GPS) - ISO code system for tolerances on linear sizes - Part 2: Tables of standard tolerance classes and limit deviations for holes and shafts (ISO 286-2:2010); German version EN ISO 286-2:2010

DIN SPEC 1177:2010 产品几何技术规范(GPS).工件的检测和测量设备.第4部分:决策规则中函数极限和规格界限的背景(ISO/TS 14253-4-2010).德文版本CEN ISO/TS 14253-4-2010

Geometrical product specifications (GPS) - Inspection by measurement of workpieces and measuring equipment - Part 4: Background on functional limits and specification limits in decision rules (ISO/TS 14253-4:2010); German version CEN ISO/TS 14253-4:2010

DIN EN ISO 286-1:2010 几何产品规范(GPS)-线性尺寸公差的ISO编码系统.第1部分:公差,偏差和配合的基础(ISO 286-1-2010);德文版本EN ISO 286-1-2010

Geometrical product specification (GPS) - ISO code system for tolerances on linear sizes - Part 1: Basis of tolerances, deviations and fits (ISO 286-1:2010); German version EN ISO 286-1:2010

DIN 4000-169:2010 特征表格设计.第169部分:手工齿轮测量仪器和齿轮测量仪表

Tabular layouts of properties - Part 169: Manual gear measuring devices and gear measuring instruments