19.020 试验条件和规程综合 标准查询与下载

DZ/T 0276.20-2015 岩石物理力学性质试验规程 第20部分:岩石三轴压缩强度试验

DZ/T 0276的本部分规定了测定岩石三轴压缩强度、内摩擦角φ及凝聚力C的试验方法。本部分适用于岩石物理力学性质试验中的岩石三轴压缩强度试验。

Regulation for testing the physical and mechanical properties of rock.Part 20:Test for determining the strength of rock in triaxial compression

DZ/T 0276.19-2015 岩石物理力学性质试验规程 第19部分:岩石单轴压缩变形试验

DZ/T 0276的本部分规定了电阻应变仪法和千分表法测定岩石单轴压缩变形参数。本部分适用于岩石物理力学性质试验中的岩石单轴压缩变形试验。

Regulation for testing the physical and mechanical properties of rock.Part 19:Test for determing the deformability of rock in uniaxial compression

DZ/T 0276.18-2015 岩石物理力学性质试验规程 第18部分:岩石单轴抗压强度试验

DZ/T 0276的本部分规定了测定岩石单轴抗压强度及岩石软化系数的试验方法。本部分适用于岩石物理力学性质试验中的岩石单轴抗压强度试验。

Regulation for testing the physical and mechanical properties of rock.Part 18:Test for determing the uniaxial compressive strength of rock

DZ/T 0276.17-2015 岩石物理力学性质试验规程 第17部分:岩石放射性比活度试验

DZ/T 0276的本部分规定了岩石放射性比活度试验的试验方法。本部分适用于岩石物理力学性质试验中的岩石放射性比活度试验。适用于在实验室用γ能谱仪测定岩石中放射性核素的比活度。待测样品的计数率小于105 cpm,活度应高于γ能谱仪的探测限。

Regulation for testing the physical and mechanical properties of rock.Part 17:Test for determining the specific radioactivity of rock

DZ/T 0276.14-2015 岩石物理力学性质试验规程 第14部分:岩石热导率试验

DZ/T 0276的本部分规定了测定岩石热导率的试验方法。本部分适用于岩石物理力学试验中的岩石热导率试验。

Regulation for testing the physical and mechanical properties of rock.Part 14:Test for determining the thermal conductivity of rock

DZ/T 0276.12-2015 岩石物理力学性质试验规程 第12部分:岩石耐酸度和耐碱度试验

DZ/T 0276的本部分规定了测定岩石耐酸度和耐碱度的试验方法。本部分适用于岩石物理力学性质试验中的岩石耐酸度和耐碱度试验。

Regulation for testing the physical and mechanical properties of rock.Part 12:Test for determining the acid resistance and alkali resistance of rock

DZ/T 0276.1-2015 岩石物理力学性质试验规程 第1部分:总则及一般规定

DZ/T 0276的本部分规定了岩石物理力学性质试验工作的目的、任务及一般规定。本部分适用于地质勘查、矿产资源开发及利用评价、地质环境保护与地质灾害防治,以及地质科学研究工作中开展的岩石物理力学性质试验。

Regulation for testing the physical and mechanical properties of rock.Part 1:General rules and regulations

DZ/T 0276.29-2015 岩石物理力学性质试验规程 第29部分:岩体强度试验(承压板法)

DZ/T 0276的本部分规定了承压板法测定岩体强度。本部分适用于岩石物理力学性质试验中Ⅲ级及Ⅲ级以下的岩体强度承压板法试验。

Regulation for testing the physical and mechanical properties of rock.Part 29:Test for determining the strength of rock mass (Bearing plate method)

DZ/T 0276.11-2015 岩石物理力学性质试验规程 第11部分:岩石溶蚀试验

DZ/T 0276的本部分规定了测定岩石溶蚀性的试验方法。本部分适用于岩石物理力学性质试验中的碳酸盐类岩石耐溶蚀性试验。

Regulation for testing the physical and mechanical properties of rock.Part 11:Test for determining the dissolution of rock

DZ/T 0276.10-2015 岩石物理力学性质试验规程 第10部分:岩石膨胀性试验

DZ/T 0276的本部分规定了岩石自由膨胀率、侧向约束膨胀率和膨胀压力的试验方法。本部分适用于岩石物理力学性质试验中的岩石膨胀性试验,其中岩石自由膨胀率试验适用于遇水不易崩解的岩石。

Regulation for testing the physical and mechanical properties of rock.Part 10:Test for determining the swelling property of rock

ASTM D5900-15c 工业参考材料 (IRM) 的物理和化学性能的标准规格

3.1 IRMs are vitally important in product and specification testing, in research and development work, in technical service work, and in quality control operations in the rubber and carbon black industries. They are especially valuable for referee purposes. Many ASTM rubber standards for the evaluation of natural or synthetic rubber require the use of specific IRMs in their test recipes for better laboratory repeatability and reproducibility. 3.2 New material lots that have been selected as candidates for IRM approval shall conform to the appropriate specifications given in this standard and meet requirements given in Practice D4678 before the lots may be accepted as IRMs. 3.3 The chemical and physical IRM specifications shown will ensure some consistency in IRM properties from one lot to the next. However, the specifications cannot ensure exact inter-lot consistency. 1.1 This specification covers the chemical and physical quality specifications or requirements, or both, for Industry Reference Materials (IRMs) as cited in Practice D4678 and other standards. 1.2 IRMs, as evaluated and referenced in Practice D4678, are vitally important to conduct product, specification, and development testing in the rubber and carbon black industries. 1.3 Before a new lot of material can be accepted as an IRM, it must comply with the specifications prescribed in this specification. However, these specifications are only part of the requirements. Other requirements as given in Practice D4678 shall be met before a candidate material can be formally accepted as an IRM. 1.4 The values stated in SI units are to be regarded as standard. No other units of measurement are included in this standard. 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 Specification for Physical and Chemical Properties of Industry Reference Materials (IRM)

ASTM D6259-15 测定试验方法用定量汇合限制的标准实施规程

5.1 Background—In a single laboratory, the limit of quantitation, LOQ, equal to ten times the standard deviation obtained under repeatability conditions extrapolated to zero concentration (s0) based on samples with close to zero concentrations has been recommended.3 A test result at this LOQ has an uncertainty of ±308201;% at the 998201;% confidence level. 5.1.1 This practice uses a regression technique to determine a similar limit for a test method (PLOQ) using statistically pooled repeatability standard deviations over multiple operators/laboratories/samples from ILS data. This PLOQ can be used by industry to assess the reliability of a test method, or, compare reliability of different test methods, for quantitative measurement at concentrations near zero. Similarly, quantitative test results obtained using the test method for levels at or below the PLOQ can be expected by industry to have an uncertainty of ±30 % or greater at the 95 % confidence level. 5.1.2 The regression technique described in this practice can also be used to determine a limit of quantitation specific for a single laboratory (LLOQ). The limit thus quantified for one laboratory is defined by this standard as the laboratory limit of quantitation (LLOQ). 5.1.3 It should be noted that since differences in repeatability testing capabilities between different laboratories can exist, therefore, LLOQ determined at a single laboratory can be different than the PLOQ determined for the test method. 5.2 Values below the PLOQ are deemed by this practice to be too uncertain for meaningful use in commerce, or in regulatory activities. 1.1 This practice covers the use of standard regression techniques and data from an interlaboratory study to determine a lower quantitative limit for a test method. This determined lower limit represents the numerical limit at or above which the test results are considered to be quantitatively meaningful for commerce or regulatory activities by this practice. It is defined by this standard as the pooled limit of quantitation (PLOQ) for the test method. 1.2 This practice is applicable to test methods that are capable of producing numerical test results close to zero. Examples are those test methods that determine quantitatively the concentration of analyte(s) near zero.

Standard Practice for Determination of a Pooled Limit of Quantitation for a Test Method

GOST 33647-2015 良好实验室规范 (GLP). 术语和定义

Principles of good laboratory practice (GLP). Terms and definitions

GOST 33685-2015 高分子复合材料. 用于测定剪切GIIC条件下层间断裂韧性的试验方法

Polymer composites. Test method for determination of the interlaminar fracture toughness under shear GIIC

GOST R 56808-2015 高分子复合材料. 单向增强复合材料层间断裂韧性的测定方法

Polymer composites. Method for determination interlaminar fracture toughness of unidirectional-reinforced composites

GOST R 56788-2015 高分子复合材料. 高分子基体复合薄板开孔抗压强度的试验方法

Polymer composites. Test method open-hole compressive strength of polymer matrix composite laminates

GSO IEC 61115:2014 过程分析仪样品处理系统性能的表达

This International Standard specifies the tests which should be carried out to determine the functional performance of sample handling systems. In addition it specifies the information to be provided by the manufacturers and users of such systems. It is applicable to: a) systems handling gaseous or liquid samples for process analyzers used for any ultimate purpose, e.g. process control, emission, ambient air monitoring, etc.; b) complete systems and system components; c) power supplies and instrumentation for providing and controlling other utilities necessary for process analyzers or sample handling system components, only in so far as they are a functional part of the system; d) facilities for maintaining system performance; e) facilities for maintaining the pe rf ormance of the process analyzer if these are part of the sample handling system and not the analyzer. NOTES 1 This standard has been prepared in accordance with the general principles set out in IEC 359. 2 Requirements for general principles concerning quantities, units and symbols are given in ISO 1000 and recommendations for the use of their multiples and of certain other units in ISO 31.

Expression of performance of sample handling systems for process analyzers

GSO IEC 60605-2:2014 设备可靠性测试 第2部分：设计测试周期

This part of IEC 605 provides a general procedure for design of test cycles, where no applicable preferred test cycles can be found in IEC 605-3. It applies to the design of operating and environmental test cycles referred to in 8.1 and 8.2 of IEC 605-1. The resulting test cycle should be included in the detailed reliability test specification. Tests which include cycles designed according to this standard are not intended to replace ordinary tests such as qualification tests, functional pe rformance tests and environmental tests. Pre-exposure tests may in some cases be necessary before commencing the test cycles designed by the methods of this standard. The basis of the decision as to whether to include pre-exposure tests is outside the scope of this standard.

Equipment reliability testing - Part 2: Design of test cycles

GSO IEC 60605-4:2014 设备可靠性测试 第4部分：指数分布的统计程序 点估计、置信区间、期望区间和方差区间

This International Standard provides statistical methods for evaluating point estimates, confidence intervals, prediction intervals and tolerance intervals for the failure rate of items, whose time to failure follows an exponential distribution. This implies that the failure rate (see IEV 191-12-02) is constant with respect to time. It should be noted that although reference is made above to failure rate, the numerical methods to be described are equally applicable to other event rates provided the times to the occurrence of the event follow an exponential distribution. Thus, with this qualification, the numerical methods will apply, for example, to constant failure intensities and constant repair rates (see IEV 191-12-04 and IEV 191-13-02 respectively). For convenience, however, and to avoid unnecessary repetition, reference will be made in what follows only to failures and failure rates. Use of the procedures in this standard should be supported by tests to confirm the validity of the assumption of constant failure rate or failure intensity (see IEC 60605-6). This standard is also applicable whenever a random sample of items is subjected to a test of times to failure for the purpose of estimating measures of reliability performance.

Equipment reliability testing - Part 4: Statistical procedures for exponential distribution - Point estimates, confidence intervals, prediction intervals and tolerance intervals

GSO IEC 61124:2014 可靠性测试 故障率一致性和故障严重性一致性的一致性测试

This International Standard gives a number of optimized test plans, the corresponding operating characteristic curves and expected test times. In addition the algorithms for designing test plans using a spreadsheet program are also given, together with guidance on how to choose test plans. This standard specifies procedures to test whether an observed value of – failure rate, – failure intensity, – mean time to failure (MTTF), – mean operating time between failures (MTBF), conforms to a given requirement. It is assumed, except where otherwise stated, that during the accumulated test time, the times to failure or the operating times between failures are independent and identically exponentially distributed. This assumption implies that the failure rate or failure intensity is constant. Four types of test plans are described as follows: – truncated sequential tests; – time/failure terminated tests; – fixed calendar time terminated tests without replacement; – combined test plans. This standard does not cover guidance on how to plan, perform, analyse and report a test. This information can be found in IEC 60300-3-5. This standard does not describe test conditions. This information can be found in IEC 60605-2 and in IEC 60300-3-5.

Reliability testing - Compliance tests for constant failure rate and constant failure intensity