N61 实验室基础设备 标准查询与下载

ASTM E2335-17 实验室监测的标准指南

4.1 These guidelines are intended to enable a laboratory monitor to perform onsite assessments of laboratory facilities. Accepted facilities will then participate in an interlaboratory test protocol to establish precision and bias for a particular ASTM standard. 4.2 This assessment is intended to determine that all of the participants have the necessary equipment, an understanding of the test method, and the minimum level of skill necessary to gather data that are to be used to establish precision and bias for the particular standard. 4.3 This guide is not intended to be used as a tool to qualify or accredit laboratories to perform any tests. Refer to ISO/IEC 17025 and to the A2LA R101 Document for further guidance on accreditation requirements. 1.1 This guide provides a general outline, for use by a laboratory monitor, to assess the qualifications of a laboratory that has requested to participate in a specific ASTM interlaboratory test. 1.2 The preliminary assessment is based on observations made before initiation of any interlaboratory tests. 1.3 The subcommittee, which appoints the laboratory monitor, specifies the minimum requirements that an organization should meet to qualify as a participant for the interlaboratory test. If a laboratory qualification test (pretest) is to be included, see details in Section 13. 1.4 This fire standard can not be used to provide quantitative measures. 1.5 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 requirements prior to use. 1.6 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.

Standard Guide for Laboratory Monitors

QB/T 2087-2016 架盘天平

本标准规定了架盘天平（以下简称为“天平”）的定义、产品分类、计量要求和技术要求、试验方法、检验规则和标志、包装、运输、贮存。 本标准适用于由罗伯威尔机构和杠杆原理构成的天平。

Table balances

GOST R 8.911-2016 确保测量一致性的国家系统. 臭氧发生器. 验证程序

State system for ensuring the uniformity of measurements. Ozone generators. Verification procedure

GOST R 8.924-2016 确保测量一致性的国家系统. 臭氧分析仪. 验证程序

State system for ensuring the uniformity of measurements. Ozone analyzers. Verification procedure

EN ISO 14644-2:2015 洁净室和相关控制环境.第2部分:用粒子浓度监测提供与空气洁净度相关的洁净室性能的证据

Dieser Teil von ISO 14644 legt die Mindestanforderungen an einen Überwachungsplan für die Leistung eines Reinraums oder eines reinen Bereichs in Bezug auf die Luftreinheit anhand der Partikelkonzentration auf der Grundlage von Parametern fest, die die Konzentration luftgetragener Partikel messen oder beeinflussen. Dieser Teil von ISO 14644 behandelt nicht die Zustandsüberwachung von Aspekten, wie z. B. Vibration oder die allgemeine Instandhaltung der Engineeringsysteme. Er ist nicht für die Überwachung von Partikelgruppen vorgesehen, die außerhalb des festgelegten unteren Schwellenwerts (Nachweisgrenze) der Partikelgröße im Bereich zwischen 0,1 µm und 5 µm liegen. Konzentrationen von ultrafeinen Partikeln (Partikel kleiner als 0,1 µm) werden in einem anderen Teil dieser Normenreihe behandelt.

Cleanrooms and associated controlled environments - Part 2: Monitoring to provide evidence of cleanroom performance related to air cleanliness by particle concentration

EN ISO 14644-1:2015 洁净室和相关控制环境.第1部分:颗粒物浓度的空气洁净度分级

Dieser Teil der ISO 14644 enthält die Klassifizierung der Luftreinheit in Reinräumen und zugehörigen Reinraumbereichen sowie von SD-Modulen (en: separative device, SD) nach ISO 14644-7 anhand der Konzentration luftgetragener Partikel. Für Klassifizierungszwecke werden nur Partikelgruppen in Betracht gezogen, deren Summenhäufigkeitsverteilung auf dem Schwellenwert der Partikelgröße (untere (Nachweis-)Grenze) beruht, der von 0,1 µm bis 5 µm reicht. Die Anwendung von Streulicht-Einzelpartikelzählern (LSAPC, en. light scattering (discrete) airborne particle counter) ist die Grundlage für die Bestimmung der Konzentration luftgetragener Partikel gleich und größer dem festgelegten Größenbereich an gekennzeichneten Probenahmeorten. Dieser Teil der ISO 14644 trifft nicht auf die Klassifizierung von Partikelgruppen zu, die außerhalb des festgelegten unteren Schwellenwerts (Nachweisgrenze) der Partikelgröße im Bereich zwischen 0,1 µm und 5 µm liegen. Konzentrationen von ultrafeinen Partikeln (nanoskalige Partikel kleiner als 0,1 µm) werden in einem anderen Teil der Normenreihe behandelt, der die Luftreinheit anhand der Partikelkonzentration luftgetragener Nanopartikel festlegt, während ein M-Deskriptor (siehe Anhang C) zur Quantifizierung von Makropartikelgruppen (Partikel größer als 5 µm) angewendet werden darf. Dieser Teil der ISO 14644 eignet sich nicht zur Charakterisierung der physikalischen, chemischen, radiologischen sowie der lebensfähigen (aktiven) oder der anderen Arten von luftgetragenen Partikeln.

Cleanrooms and associated controlled environments - Part 1: Classification of air cleanliness by particle concentration (ISO 14644-1:2015)

IEC 61010-2-051:2015 测量、控制和实验室用电气设备的安全要求.第2-051部分:混合和搅拌用实验室设备的特殊要求

This part of IEC 61010 is applicable to electrically operated laboratory equipment and its accessories for mechanical mixing and stirring@ where mechanical energy influences the shape or size or homogeneity of materials and their accessories. Such devices may contain heating elements. NOTE If all or part of the equipment falls within the scope of one or more other Part 2 standards of IEC 61010 as well as within the scope of this standard@ consideration is to be given to those other Part 2 standards. The standard for equipment which contain heating devices is IEC 61010-2-010.

Safety requirements for electrical equipment for measurement, control, and laboratory use - Part 2-051: Particular requirements for laboratory equipment for mixing and stirring

IEC 61010-2-061:2015 测量、控制和实验室用电气设备的安全要求.第2-061部分:具有热原子化和离子化的实验室用原子能谱仪的特殊要求

Safety requirements for electrical equipment for measurement, control, and laboratory use - Part 2-061: Particular requirements for laboratory atomic spectrometers with thermal atomization and ionization

DIN ISO 4802-2:2012 玻璃器皿.玻璃容器内表面耐水解作用.第2部分:利用火焰光谱分析和分类法测定(ISO 4802-2-2010)

Glassware - Hydrolytic resistance of the interior surfaces of glass containers - Part 2: Determination by flame spectrometry and classification (ISO 4802-2:2010)

DIN EN 14175-7:2012-08 通风柜.第7部分:高温酸性负载用通风柜.德文版本EN 14175-7-2012

Fume cupboards - Part 7: Fume cupboards for high heat and acidic load; German version EN 14175-7:2012

IEC 61010-2-091:2012 测量、控制和实验室用电气设备的安全性要求.第2-091部分:柜式X射线系统详细要求

This clause of Part 1 is applicable, except as follows: 1.1.1 Equipment included in scope Replacement: Replace the text with the following: This part of IEC 61010 specifies particular safety requirements for CABINET X-RAY SYSTEMS. A CABINET X-RAY SYSTEM is a system that contains an X-ray tube installed in a cabinet which, independently of existing architectural structures except the floor on which it may be placed, is intended to contain at least that portion of a material being irradiated, provide radiation attenuation, and exclude personnel from the interior during generation of X-radiation. These CABINET X-RAY SYSTEMS are used in industrial, commercial, and public environments, for example, to inspect materials, to analyze materials, and to screen baggage. 1.1.2 Equipment excluded from scope Addition: Add the following new items to the list: aa) equipment intended to apply X-radiation to humans or animals; bb) equipment incorporating an X-ray tube but not incorporating complete shielding against X-radiation hazards, such as: 1) equipment intended to be used within a shielded room which excludes personnel during operation; 2) equipment intended to be used with separate portable or temporary shielding; 3) equipment intended to produce an emerging beam of X-radiation. 1.2.1 Aspects included in scope Addition: Add the following text at the end of the first paragraph: This part of IEC 61010 specifies requirements for the design and methods of construction of CABINET X-RAY SYSTEMS to provide adequate protection for OPERATORS, bystanders, trained service personnel, and the surrounding area against unintentionally-emitted X-radiation and from mechanical HAZARDS related to their conveyors.

Safety requirements for electrical equipment for measurement, control, and laboratory use - Part 2-091: Particular requirements for cabinet x-ray systems

DIN 12924-4:2012 实验室设备.通风橱.第4部分:药房的通风橱

Laboratory furniture - Fume cupboards - Part 4: Fume cupboards for pharmacies

ANSI/ASTM E2335:2012 实验室监控器指南

Guide for Laboratory Monitors

JJG 943-2011 总悬浮颗粒物采样器检定规程

本规程适用于总悬浮颗粒物采样器的首次检定、后续检定和使用中检查。

Verification Regulation of Total Suspended Particulates Sampler

ASTM E323-11 试验用板孔筛的标准规格

1.1 This specification covers perforated plate with either round or square apertures, normally mounted in a frame for use as sieves in precision testing in the classification of materials according to designated nominal particle size. A method for checking the accuracy of perforated sieve plates is included as information in Appendix X1. Note 18212;The perforated-plate sieves covered by this specification are intended for general precision testing. Some industries may require more restricted specifications for sieves for special testing purposes. Note 28212;For other types of sieves see Specifications E11 and E161. Note 38212;Complete instructions and procedures on the use of test sieves are contained in ASTM STP 447, Manual on Test Sieving Methods. This manual also contains a list of all ASTM published standards on sieve analysis procedures for specific materials or industries. 1.2 The values stated in inch-pound units are to be regarded as the standard. The values given in parentheses are mathematical conversions to SI units that are provided for information only and are not considered standard. 1.3 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 Specification for Perforated-Plate Sieves for Testing Purposes

ASTM E2402-11 热重分析仪的质量损耗和剩余量测量验证的标准试验方法

This method may be used to validate the performance of a specific TGA apparatus. This method may be used to validate the performance of a specific method based upon a TGA mass loss or residue measurement. This method may be used to determine the repeatability of a specific apparatus, operator or laboratory. This method may be used for specification and regulatory compliance purposes.1.1 This method provides procedures for validating mass loss and residue measurements by thermogravimetric analyzers (TGA) and analytical methods based upon the measurement of mass loss or residue content. Performance parameters determined include mass loss and residue repeatability (precision), detection limit, quantitation limit, linearity and bias. 1.2 Validation of apparatus performance and analytical methods is requested or required for quality initiatives or where results may be used for legal purposes. 1.3 The values stated in SI units are to be regarded as standard. No other units of measurement are included in this standard. 1.4 There is no ISO standard equivalent to this method. 1.5 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 Mass Loss and Residue Measurement Validation of Thermogravimetric Analyzers

NF X15-206:2010 实验室烟橱.限制性试验用门槛

Laboratory fume cupboards - Threshold for confinement test.

DIN EN ISO 14698-2 Berichtigung 1:2010 洁净室和相关控制环境.生物污染控制.第2部分:生物污染数据的评估和说明(ISO 14698-2-2003).德文版本EN ISO 14698-2-2003, DIN EN ISO 14698-2-2004-02标准的勘误表.德文版本EN ISO 14698-2-2003/AC-2006

Cleanrooms and associated controlled environments - Biocontamination control - Part 2: Evaluation and interpretation of biocontamination data (ISO 14698-2:2003); German version EN ISO 14698-2:2003, Corrigendum to DIN EN ISO 14698-2:2004-02; German version

ASTM D2168-10 实验室机械捣填土夯实机校准的标准试验方法

Mechanical compactors are commonly used to replace the hand compactors required for Test Methods D698 and D1557 in cases where it is necessary to increase production. The design of mechanical compactors is such that it is necessary to have a calibration process that goes beyond determining the mass and drop of the hammer. Note 18212;The quality of the result produced by this standard is dependent on the competence of the personnel performing it, and the suitability of the equipment and facilities used. Agencies that meet the criteria in Practice D3740 are generally considered capable of competent and objective testing/sampling/inspection/and the like. Users of this standard are cautioned that compliance with Practice D3740 does not in itself assure reliable results. Reliable results depend on many factors; Practice D3740 provides a means of evaluating some of those factors.1.1 These practices for the calibration of mechanical soil compactors are for use in checking and adjusting mechanical devices used in laboratory compacting of soil and soil-aggregate in accordance with Test Methods D698, D1557, Practice D6026, and other methods of a similar nature that might specify these practices. Calibration for use with one practice does not qualify the equipment for use with another practice. 1.2 The weight of the mechanical rammer is adjusted as described in 5.4 and 6.5 in order to provide for the mechanical compactor to produce the same result as the manual compactor.

Standard Test Methods for Calibration of Laboratory Mechanical-Rammer Soil Compactors

ANSI/ASTM F2875:2010 商业烹调设备用美国材料与试验协会(ASTM)试验方法进行必要试验的实验室要求用指南

Guide for Laboratory Requirements Necessary to Test Commercial Cooking Appliances to ASTM Test Methods