Q45 定型隔热耐火材料 标准查询与下载
共找到 186 条与 定型隔热耐火材料 相关的标准,共 13 页
Methods of test for dense shaped refractory products - Part 5: Determination of cold crushing strength; German version EN 993-5:1998
- ICS
- 81.080
- CCS
- Q45
- 发布
- 1998-12
- 实施
Methods of test for dense shaped refractory products - Part 7: Determination of modulus of rupture at elevated temperatures; German version EN 993-7:1998
- ICS
- 81.080
- CCS
- Q45
- 发布
- 1998-12
- 实施
この規格は,耐火断熱れんがの残存線変化率測定方法について規定する。
Shaped insulating refractory products -- Determination of permanent change in dimensions on heating
- ICS
- 81.080
- CCS
- Q45
- 发布
- 1998-04-20
- 实施
この規格は,ち密質耐火れんがの残存寸法変化率の二つの測定方法について規定する。
Dense shaped refractory products -- Determination of permanent change in dimensions on heating
- ICS
- 81.080
- CCS
- Q45
- 发布
- 1998-04-20
- 实施
Methods of test for dense shaped refractory products - Part 10: Determination of permanent change in dimensions on heating; German version EN 993-10:1997
- ICS
- 81.080
- CCS
- Q45
- 发布
- 1998-02
- 实施
1.1 This specification covers brick intended for use as the lining in the fireboxes of residential fireplaces. 1.2 Firebox brick are manufactured from clay, fire clay, shale, or similar naturally occurring earthy substances and subjected to a heat treatment at elevated temperatures (firing). The heat treatment must develop a fired bond between the particulate constituents to provide the strength and durability requirements of this specification. 1.3 The values stated in inch-pound units are to be regarded as the standard. The values given in parentheses are for information only.
Standard Specification for Firebox Brick for Residential Fireplaces
- ICS
- 81.080 (Refractories)
- CCS
- Q45
- 发布
- 1998
- 实施
Alumina-silica refractory brick is produced from various combinations of alumina and silica-containing materials. These bricks can vary in chemical composition from almost 100 % alumina and little silica to almost 100 % silica and little alumina. It is therefore useful to establish a classification scheme based on physical properties and chemical analysis. One group, fireclay brick, is classified based on physical properties since some overlap of alumina and silica content can occur. A second group, high-alumina brick, is classified primarily based on alumina content. The classification allows those familiar with refractory materials to group similar products from various suppliers in a standard and consistent manner. 1.1 This classification covers machine-made fireclay and high-alumina refractory brick, and its purpose is to set forth the various classes and types of these materials in accordance with their normal and characteristic properties, which are important in their use. 1.2 The values stated in inch-pound units are to be regarded as standard. The values given in parentheses are mathematical conversions to SI units that are provided for information only and are not considered standard.
Standard Classification of Fireclay and High-Alumina Refractory Brick
- ICS
- 81.080 (Refractories)
- CCS
- Q45
- 发布
- 1998
- 实施
Methods of test for dense shaped refractory products. Determination of resistance to thermal shock
- ICS
- 81.080
- CCS
- Q45
- 发布
- 1997-12-15
- 实施
- 1997-12-15
This European Standard specifies a method for determining creep in compression of dense and insulating shaped refractory products, creep being the deformation of a refractory product subjected to a constant load under isothermal conditions. NOTE. The apparatus is the same as that used in the determination of refractoriness-under-load (see EN 993-8).
Methods of test for dense shaped refractory products - Determination of creep in compression
- ICS
- 81.080
- CCS
- Q45
- 发布
- 1997-09-15
- 实施
- 1997-09-15
Methods of test for dense shaped refractory products - Test methods for carbon-containing refractories
- ICS
- 81.080
- CCS
- Q45
- 发布
- 1997-09-15
- 实施
- 1997-09-15
This European Standard specifies a method for determining the deformation of dense and insulating shaped refractory products subjected to a constant load under conditions of progressively rising temperature (or refractoriness under load) by a differential method, with rising temperature. The test may be carried out up to a maximum temperature of 1700 ℃.
Methods of test for dense shaped refractory products - Determination of refractoriness-under-load
- ICS
- 81.080
- CCS
- Q45
- 发布
- 1997-09-15
- 实施
- 1997-09-15
Roller of refractory castable reinforced by stainless steel fibre
- ICS
- 81.080
- CCS
- Q45
- 发布
- 1997-08-04
- 实施
- 1997-12-01
Methods of test for dense shaped refractory products - Part 3: Test methods for carbon-containing refractories; German version EN 993-3:1997
- ICS
- 81.080
- CCS
- Q45
- 发布
- 1997-08
- 实施
Methods of testing dense shaped refractory products. Part 8 : determination of refractoriness-under-load.
- ICS
- 81.080
- CCS
- Q45
- 发布
- 1997-07-01
- 实施
- 1997-07-20
This International Standard specifies a method for the determination of the bulk density and true porosity of shaped insulating refractory products.
Shaped insulating refractory products - Determination of bulk density and true porosity
- ICS
- 81.080
- CCS
- Q45
- 发布
- 1997-07
- 实施
이 규격은 화학 공업용 내산 벽돌에 대하여 규정한다.
ACID PROOF BRICKS FOR CHEMICAL INDUSTRY
- ICS
- 91.100.20
- CCS
- Q45
- 发布
- 1997-04-15
- 实施
- 1997-04-15
The cold strength of a refractory material is an indication of its suitability for use in refractory construction. (It is not a measure of performance at elevated temperatures.) These test methods are for determining the room temperature flexural strength in 3-point bending (cold modulus of rupture) or compressive strength (cold crushing strength), or both, for all refractory products. Considerable care must be used to compare the results of different determinations of the cold crushing strength or modulus of rupture. The specimen size and shape, the nature of the specimen faces (that is, as-formed, sawed, or ground), the orientation of those faces during testing, the loading geometry, and the rate of load application, may all significantly affect the numerical results obtained. Comparisons of the results between different determinations should not be made if one or more of these parameters differ between the two determinations. The relative ratio of the largest grain size to the smallest specimen dimension may significantly affect the numerical results. For example, smaller, cut specimens containing large grains may present different results than the bricks from which they were cut. Under no circumstances should 6- by 1- by 1-in. (152- by 25- by 25-mm) specimens be prepared and tested for materials containing grains with a maximum grain dimension exceeding 0.25 in. (6.4 mm). This test method is useful for research and development, engineering application and design, manufacturing process control, and for developing purchasing specifications. 1.1 These test methods cover the determination of the cold crushing strength and the modulus of rupture (MOR) of dried or fired refractory shapes of all types. 1.2 The test methods appear in the following sections: Test Method Sections Cold Crushing Strength 4 to 9 Modulus of Rupture 10 to 15 1.3 The values stated in inch-pound units are to be regarded as standard. The values given in parentheses are mathematical conversions to SI units that are provided for information only and are not considered standard. 1.4 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 Methods for Cold Crushing Strength and Modulus of Rupture of Refractories
- ICS
- 81.080 (Refractories)
- CCS
- Q45
- 发布
- 1997
- 实施
1.1 This classification covers heat insulating material known as insulating firebrick. This material is suitable for lining certain kinds of industrial furnaces.Note 18212;Insulating materials for use below 1000176;F (538176;C) are covered by ASTM Committee C-16 on Thermal Insulation.
Standard Classification of Insulating Firebrick
- ICS
- 81.080 (Refractories)
- CCS
- Q45
- 发布
- 1997
- 实施
1.1 This classification covers heat insulating material known as insulating firebrick. This material is suitable for lining certain kinds of industrial furnaces. Note-Insulating materials for use below 1000176F (538176C) are covered by ASTM Committee C-16 on Thermal Insulation.
Standard Classification of Insulating Firebrick
- ICS
- CCS
- Q45
- 发布
- 1997
- 实施
The cold strength of a refractory material is an indication of its suitability for use in refractory construction. (It is not a measure of performance at elevated temperatures.) These test methods are for determining the room temperature flexural strength in 3-point bending (cold modulus of rupture) or compressive strength (cold crushing strength), or both, for all refractory products. Considerable care must be used to compare the results of different determinations of the cold crushing strength or modulus of rupture. The specimen size and shape, the nature of the specimen faces (that is, as-formed, sawed, or ground), the orientation of those faces during testing, the loading geometry, and the rate of load application, may all significantly affect the numerical results obtained. Comparisons of the results between different determinations should not be made if one or more of these parameters differ between the two determinations. The relative ratio of the largest grain size to the smallest specimen dimension may significantly affect the numerical results. For example, smaller, cut specimens containing large grains may present different results than the bricks from which they were cut. Under no circumstances should 6- by 1- by 1-in. (152- by 25- by 25-mm) specimens be prepared and tested for materials containing grains with a maximum grain dimension exceeding 0.25 in. (6.4 mm). This test method is useful for research and development, engineering application and design, manufacturing process control, and for developing purchasing specifications. 1.1 These test methods cover the determination of the cold crushing strength and the modulus of rupture (MOR) of dried or fired refractory shapes of all types.1.2 The test methods appear in the following sections:Test Method Sections Cold Crushing Strength4 to 9 Modulus of Rupture10 to 151.3 The values stated in inch-pound units are to be regarded as the standard. The values given in parentheses are for information only.1.4 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 Methods for Cold Crushing Strength and Modulus of Rupture of Refractories
- ICS
- 81.080 (Refractories)
- CCS
- Q45
- 发布
- 1997
- 实施
