D53 建材原料矿 标准查询与下载

NF B10-612:2005 天然石料制品.覆面用石板.要求

Natural stone products - Slabs for cladding - Requirements.

NF B10-616:2005 天然石料制品.标准面砖.要求

Natural stone products - Modular tiles - Requirements.

NF B10-617:2005 天然石料制品.地板和楼梯用石板.要求

Natural stone products - Slabs for floors and stairs - Requirements.

NF B10-633:2005 天然石料.耐磨性测定

Natural stones - Determination of abrasion resistance.

DLA A-A-59580 A-2005 研磨成粉的石灰石

This commercial item description (CID) covers one grade of pulverized limestone. The pulverized limestone shall be intended for use as a coagulant aid in military water purification equipment.

LIMESTONE, PULVERIZED

DLA A-A-59303 VALID NOTICE 1-2005 工业滑石

The activities above were interested in this document as of the date of this document. Since organizations and responsibilities can change, you should verify the currency of the information above using the ASSIST Online database at http://assist.daps.dla.mil.

TALC, TECHNICAL

ASTM D6480-05(2010) 用透射电子显微镜对表面擦拭取样中石棉结构值浓度间接制备和分析的标准试验方法

This wipe sampling and indirect analysis test method is used for the general testing of surfaces for asbestos. It is used to assist in the evaluation of surfaces in buildings, such as ceiling tiles, shelving, electrical components, duct work, and so forth. This test method provides an index of the concentration of asbestos structures per unit area sampled as derived from a quantitative measure of the number of asbestos structures detected during analysis. This test method does not describe procedures or techniques required for the evaluation of the safety or habitability of buildings with asbestos-containing materials, or compliance with federal, state, or local regulations or statutes. It is the user''s responsibility to make these determinations. At present, a single direct relationship between asbestos sampled from a surface and potential human exposure does not exist. Accordingly, the user should consider these data in relationship to other available information (for example, air sampling data) in their evaluation. One or more large asbestos-containing particles dispersed during sample preparation may result in large asbestos surface loading results in the TEM analyses of that sample. It is, therefore, recommended that multiple replicate independent samples be secured in the same area, and that a minimum of three such samples be analyzed by the entire procedure.1.1 This test method covers a procedure to identify asbestos in samples wiped from surfaces and to provide an estimate of the concentration of asbestos reported as the number of asbestos structures per unit area of sampled surface. The procedure outlined in this test method employs an indirect sample preparation technique. It is intended to disperse aggregated asbestos into fundamental fibrils, fiber bundles, clusters, or matrices. However, as with all indirect sample preparation techniques, the asbestos observed for quantification may not represent the physical form of the asbestos as sampled. More specifically, the procedure described neither creates nor destroys asbestos, but it may alter the physical form of the mineral fiber aggregates. 1.2 This test method describes the equipment and procedures necessary for wipe sampling of surfaces for levels of asbestos structures. The sample is collected onto a particle-free wipe material (wipe) from the surface of a sampling area that may contain asbestos. 1.2.1 The collection efficiency of this wipe sampling technique is unknown and will vary among substrates. Properties influencing collection efficiency include surface texture, adhesiveness, and other factors. 1.2.2 This test method is generally applicable for an estimate of the surface loading of asbestos structures starting from approximately 1000 asbestos structures per square centimetre. 1.3 Asbestos identification by transmission electron microscopy (TEM) is based on morphology, electron diffraction (ED), and energy dispersive X-ray analysis (EDXA). 1.4 This test method allows determination of the type(s) of asbestos fibers present. 1.4.1 This test method cannot always discriminate between individual fibers of the asbestos and nonasbestos analogues of the same amphibole mineral. 1.4.2 There is no lower limit to the dimensions of asbestos fibers that can be detected. However, in practice, the lower limit to the dimensions of asbestos fibers, that can be detected, is variable and dependent on individual microscopists. Therefore, a minimum length of 0.5 μm has been defined as the shortest fiber to be incorporated in the reported results. 1.5 This test method 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 test method to ......

Standard Test Method for Wipe Sampling of Surfaces, Indirect Preparation, and Analysis for Asbestos Structure Number Concentration by Transmission Electron Microscopy

ASTM D6480-05 用透射电子显微镜检查法对石棉结构数密度进行表面的擦拭取样、间接制备和分析的标准试验方法

This wipe sampling and indirect analysis test method is used for the general testing of surfaces for asbestos. It is used to assist in the evaluation of surfaces in buildings, such as ceiling tiles, shelving, electrical components, duct work, and so forth. This test method provides an index of the concentration of asbestos structures per unit area sampled as derived from a quantitative measure of the number of asbestos structures detected during analysis. 5.1.1 This test method does not describe procedures or techniques required for the evaluation of the safety or habitability of buildings with asbestos-containing materials, or compliance with federal, state, or local regulations or statutes. It is the userrsquo;responsibility to make these determinations. 5.1.2 At present, a single direct relationship between asbestos sampled from a surface and potential human exposure does not exist. Accordingly, the user should consider these data in relationship to other available information (for example, air sampling data) in their evaluation. One or more large asbestos-containing particles dispersed during sample preparation may result in large asbestos surface loading results in the TEM analyses of that sample. It is, therefore, recommended that multiple replicate independent samples be secured in the same area, and that a minimum of three such samples be analyzed by the entire procedure.1.1 This test method covers a procedure to identify asbestos in samples wiped from surfaces and to provide an estimate of the concentration of asbestos reported as the number of asbestos structures per unit area of sampled surface. The procedure outlined in this test method employs an indirect sample preparation technique. It is intended to disperse aggregated asbestos into fundamental fibrils, fiber bundles, clusters, or matrices. However, as with all indirect sample preparation techniques, the asbestos observed for quantification may not represent the physical form of the asbestos as sampled. More specifically, the procedure described neither creates nor destroys asbestos, but it may alter the physical form of the mineral fiber aggregates.1.2 This test method describes the equipment and procedures necessary for wipe sampling of surfaces for levels of asbestos structures. The sample is collected onto a particle-free wipe material (wipe) from the surface of a sampling area that may contain asbestos.1.2.1 The collection efficiency of this wipe sampling technique is unknown and will vary among substrates. Properties influencing collection efficiency include surface texture, adhesiveness, and other factors.1.2.2 This test method is generally applicable for an estimate of the surface loading of asbestos structures starting from approximately 1000 asbestos structures per square centimetre.1.3 Asbestos identification by transmission electron microscopy (TEM) is based on morphology, electron diffraction (ED), and energy dispersive X-ray analysis (EDXA).1.4 This test method allows determination of the type(s) of asbestos fibers present.1.4.1 This test method cannot always discriminate between individual fibers of the asbestos and nonasbestos analogues of the same amphibole mineral.1.4.2 There is no lower limit to the dimensions of asbestos fibers that can be detected. However, in practice, the lower limit to the dimensions of asbestos fibers, that can be detected, is variable and dependent on individual microscopists. Therefore, a minimum length of 0.5 m has been defined as the shortest fiber to be incorporated in the reported results.This test method 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 test method to establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use.

Standard Test Method for Wipe Sampling of Surfaces, Indirect Preparation, and Analysis for Asbestos Structure Number Concentration by Transmission Electron Microscopy

BS 2975-1:2004 玻璃制造用砂的取样和分析.玻璃制造用砂的取样方法和物理试验

This British Standard describes a method of sampling and physical testing of sands used for a variety of glass-making activities with the intention of providing a basis for either continued supply of established materials or for evaluation of new sources of silica sand. NOTE Annex A illustrates commonly encountered particle size distribution and moisture content of glass-making sands.

Sampling and analysis of glass-making sands - Methods for sampling and physical testing of glass-making sands

KS M ISO 11412:2004 铝制品用碳素材料.煅烧焦炭.水含量测定

이 규격은 잘게 쪼개진 입자상 탄소와 흑연(고체)의 하소 코크스 중의 수분 함량을 질량

Carbonaceous materials for the production of aluminium-Calcined coke-Determination of water content

NF B10-632:2004 天然石料的测试方法.用盐雾法测定耐老化能力

Natural stone test methods - Determination of resistance to ageing by salt mist.

NF P18-453:2004 石灰岩中有机碳总量的测定

Determination of total organic carbon in limestone.

NF B10-627:2004 天然石料试验方法.块体几何特性的测定

Natural stone test methods - Determination of geometric characteristics on units.

ASTM D5240-04 通过使用硫酸钠和硫酸锰测试岩石厚板以评价乱石安定性的标准试验方法

Rock riprap is composed of pieces of natural rock that are placed on construction projects to minimize the effects of erosion. The ability of riprap to withstand deterioration from weathering affects both the effectiveness of the project and its cost. The sodium sulfate or magnesium sulfate soundness test is one method by which to estimate qualitatively the durability of rock under weathering conditions. Note 18212;The quality of results produced by this standard is dependent on the competence of the personnel performing it and suitability of the equipment and facilities used. Agencies that meet the criteria of Practice D 3740 are generally considered capable of competent and objective testing. Reliable results depend on many factors and Practice D 3740 provides a means of evaluating some of them. The results of this test method are not to be used as the sole basis for determination of rock durability, but rather should always be used in conjunction with the results of other tests. This test method has been used to evaluate many different types of rocks. There have been occasions when test results have provided data that have not agreed with the durability of rock under actual field conditions; samples yielding a low soundness loss have disintegrated in actual usage, and the reverse has been true.1.1 This test method covers test procedures for evaluating the soundness of riprap by the effects of a sodium or magnesium sulfate solution on slabs of rock.1.2 The values stated in either SI or inch-pound units are to be regarded as the standard.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 Testing Rock Slabs to Evaluate Soundness of Riprap by Use of Sodium Sulfate or Magnesium Sulfate

NF B10-636*NF EN 14231:2003 天然石料试验方法.用摆动测试仪法测定防滑性能

Natural stone test methods - Determination of the slip resistance by means of the pendulum tester.

BS EN 13971:2002 碳酸盐石灰材料.活性测定.盐酸的电位滴定法

This European Standard specifies a method for the determination of the speed and effectiveness of the neutralizing potential of calcium carbonate and calcium magnesium carbonate liming materials by potentiometric titration with hydrochloric acid. This method is applicable only to liming materials with a maximum particle size of 6,3 mm. Therefore, the particle size shall be determined according to EN 12948. NOTE In addition, the type of liming material should be identified according to prEN 14069. Regarding the precision of the method, the results are not used to declare a value but to classify the different products groups.

Carbonate liming materials - Determination of reactivity - Potentiometric titration method with hydrochloric acid

BS EN 13971:2003 碳酸盐石灰材料.活性测定.盐酸的电位滴定法

Carbonate liming materials - Determination of reactivity - Potentiometric titration method with hydrochloric acid

JC/T 928-2003 皂石

Soapstone

JC/T 929-2003 叶蜡石

本标准规定了叶蜡石矿产品的产品分类、 技术要求、 试验方法、 检验规则及标志、 包装、 运输、 贮 存的一般要求. ′ 本标准适用于叶蜡石矿产品的质蜇检验和质热验收. 本标准不适用于工艺晶、 医药和食品用途的叶蜡石。

Pyrophyllite

JC/T 927-2003 绿泥石

. 本标准规定了绿泥石矿产品的产品分类、 技术要求、 试验方法、 检睑规则及标志、 包装、 运输、 贮 存的一般要求. . 本标准适用于绿泥石矿产品的质童检验和质量睑收。 本标准不适用于医药和食晶用途的绿泥石.

Chlorite