Q27 粘结材料 标准查询与下载

BS EN 12003:2008 瓷砖粘合剂.反应树脂粘结剂抗剪粘结强度的测定

This European Standard specifies the test method to be used to determine the shear adhesion strength of reaction resin ceramic tile adhesives. This European Standard is applicable to all reaction resin ceramic tile adhesives for internal and external tile installations on floors and walls. This European Standard does not contain performance requirements or recommendations for the design and installation of ceramic tiles. NOTE Ceramic tile adhesives can also be used for other kinds of tiles (natural and agglomerated stones, etc.), where these do not adversely affect the stones. This European Standard can involve hazardous materials and operations. Persons using this European Standard should be familiar with normal laboratory practice. This European Standard does not purport to address all the safety problems, if any, associated with its use. It is the responsibility of the user to establish appropriate safety and health practices and to ensure compliance with any European and national regulatory conditions.

Adhesives for tiles - Determination of shear adhesion strength of reaction resin adhesives

BS EN 12002:2008 瓷砖粘合剂.胶粘剂和水泥浆的横向变形的测定

This European Standard specifies the test method to be used to determine the transverse deformation of cementitious ceramic tile adhesives and grouts. This European Standard is applicable to all cementitious ceramic tile adhesives and grouts for internal and external tile installations on floors and walls. It is not applicable to non-cementitious adhesives and grouts , e.g. dispersion and reactive resin adhesives and grouts. This European Standard does not contain performance requirements or recommendations for the design and installation of ceramic tiles. NOTE Ceramic tile adhesives can also be used for other kinds of tiles (natural and agglomerated stones, etc.), where these do not adversely affect these materials.

Adhesives for tiles - Determination of transverse deformation for cementitious adhesives and grouts

EN 12003:2008/AC:2009 瓷砖胶粘剂.反应性树脂胶粘剂的剪切粘附强度的测定

Adhesive for tiles - Determination of shear adhesion strength of reaction resin adhesives

JIS R 9111 ERRATUM 1:2009 勘误表

ERRATUM

JIS R 9111 AMD 1 ERRATUM 1:2009 勘误表

ERRATUM

JIS R 9111 AMD 1:2009 陶瓷模型用熟石膏(修改件1)

This translation has been made based on the Amendment to the origi- nal Japanese Industrial Standard revised by the Minister of Economy, Trade and Industry through deliberations at the Japanese Industrial Standards Committee as the result of proposal for revision of Japanese Industrial Standard with the draft being attached, based on the provi- sion of Article 12 Clause 1 of the Industrial Standardization Law ap- plicable to the case of revision by the provision of Article 14. Consequently, JIS R 9111:1977 is partially replaced with this Amend- ment.

Plaster of Paris Mold for Pottery (Amendment 1)

JIS R 9151 AMD 1:2009 普通水泥缓凝剂用石膏(修改件1)

This translation has been made based on the Amendment to the origi- nal Japanese Industrial Standard revised by the Minister of Economy, Trade and Industry through deliberations at the Japanese Industrial Standards Committee as the result of proposal for revision of Japanese Industrial Standard with the draft being attached, based on the provi" sion of Article 12 Clause 1 of the Industrial Standardization Law ap- plicable to the case of revision by the provision of Article 14. Consequently, JIS R 9151:1979 is partially replaced with this Amend- ment.

Gypsum for Portland Cement Retarder (Amendment 1)

JIS R 9112 AMD 1:2009 陶瓷模型用熟石膏的物理试验方法(修改件1)

This translation has been made based on the Amendment to the origi- nal Japanese Industrial Standard revised by the Minister of Economy, Trade and Industry through deliberations at the Japanese Industrial Standards Committee as the result of proposal for revision of Japanese Industrial Standard with the draft being attached, based on the provi- sion of Article 12 Clause 1 of the Industrial Standardization Law ap- plicable to the case of revision by the provision of Article 14. Consequently, JIS R 9112:1978 is partially replaced with this Amend- ment.

Method of Physical Test for Plaster of Paris Mold for Pottery (Amendment 1)

NF P61-609:2009 瓷砖用粘合剂.反应性树脂粘合剂的抗剪强度测定

Adhesives for tiles - Determination of shear adhesion strength of reaction resin adhesives.

NF P61-608:2009 瓷砖用粘接剂.粘结胶粘剂和水泥浆横向变形的测定

Adhesives for tiles - Determination of transverse deformation for cementitious adhesives and grouts.

DIN EN 12808-1:2009 瓷砖用胶粘剂.第1部分:反应性树脂灰浆耐化学腐蚀性测定

This European Standard specifies the test method to be used to determine the chemical resistance of ceramic tile adhesives and grouts under anticipated service conditions. This European Standard applies to reaction resin ceramic tile grouts and adhesives for internal and external ceramic tile installations on walls and floors. This European Standard does not contain performance requirements or recommendations for the design and installation of ceramic tiles and grouts. NOTE Ceramic tile adhesives and grouts can be used also for other kinds of tiles (natural and agglomerated stones, etc.), where these do not adversely affect the materials.

Grouts for tiles - Part 1: Determination of chemical resistance of reaction resin mortars; English version of DIN EN 12808-1:2009-01

DIN EN 12003:2009 瓷砖胶粘剂.反应性树脂胶粘剂的剪切粘附强度的测定

This European Standard specifies the test method to be used to determine the shear adhesion strength of reaction resin ceramic tile adhesives. This European Standard is applicable to all reaction resin ceramic tile adhesives for internal and external tile installations on floors and walls. This European Standard does not contain performance requirements or recommendations for the design and installation of ceramic tiles. NOTE Ceramic tile adhesives can also be used for other kinds of tiles (natural and agglomerated stones, etc.), where these do not adversely affect the stones. This European Standard can involve hazardous materials and operations. Persons using this European Standard should be familiar with normal laboratory practice. This European Standard does not purport to address all the safety problems, if any, associated with its use. It is the responsibility of the user to establish appropriate safety and health practices and to ensure compliance with any European and national regulatory conditions.

Adhesive for tiles - Determination of shear adhesion strength of reaction resin adhesives; English version of DIN EN 12003:2009-01

DIN EN 12002:2009 瓷砖用胶粘剂.粘结剂和水泥浆的横向变形的测定

This European Standard specifies the test method to be used to determine the transverse deformation of cementitious ceramic tile adhesives and grouts. This European Standard is applicable to all cementitious ceramic tile adhesives and grouts for internal and external tile installations on floors and walls. It is not applicable to non-cementitious adhesives and grouts, e.g. dispersion and reactive resin adhesives and grouts. This European Standard does not contain performance requirements or recommendations for the design and installation of ceramic tiles. NOTE Ceramic tile adhesives can also be used for other kinds of tiles (natural and agglomerated stones, etc.), where these do not adversely affect these materials.

Adhesives for tiles - Determination of transverse deformation for cementitious adhesives and grouts; English version of DIN EN 12002:2009-01

DIN EN 12808-3:2009 瓷砖用胶粘剂.抗弯和抗压强度的测定

This European Standard applies to all ceramic tile grouts for internal and external tile installations on walls and floors. This European Standard describes the test method to be used to determine the compressive and flexurat strength of ceramic tile grouts. This European Standard does not contain performance requirements or recommendations for the design and installation of ceramic tiles. NOTE Ceramic tile grouts may also be used for other types of tiles (natural and agglomerated stones, etc.), where these do not adversely affect the stones.

Grouts for tiles - Determination of flexural and compressive strength; English version of DIN EN 12808-3:2009-01

ASTM C631-09 内部石膏粉刷用粘合化合物标准规范

1.1 This specification covers minimum requirements for bonding compounds for adhering interior gypsum plaster to structurally sound surfaces. 1.2 This specification also covers test methods for determining performance requirements and physical properties. 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 The following safety hazards caveat pertains only to the test methods described in this specification: 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 Bonding Compounds for Interior Gypsum Plastering

ASTM C141/C141M-09 建筑结构用水硬性熟石灰标准规范

1.1 This specification covers hydrated hydraulic lime for structural purposes. 1.2 Hydrated hydraulic lime may be used in the scratch or brown coat of plaster, stucco, mortar, or in portland-cement concrete either as blend, amendment, or admixture. 1.3 The values stated in either SI units or inch-pound units are to be regarded separately as standard. Within the text, the inch-pound units are shown in brackets. 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. 1.4 The following precautionary caveat pertains only to the test method portion, Section 11 of this specification: 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 Hydrated Hydraulic Lime for Structural Purposes

ASTM C821-09 与火山灰掺和用石灰的标准规范

1.1 This specification covers all types of commercial hydrated lime such as: high-calcium, magnesium, or dolomitic-hydrated lime. By-product limes and slaked quick limes in dry, wet, or slurried form are also included. 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. 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 Lime for Use with Pozzolans

ASTM D1747-09 粘性材料折射指数的标准试验方法

Refractive index is a fundamental physical property that can be used in conjunction with other properties to characterize pure hydrocarbons and their mixtures. The use of refractive index in correlative methods for the determination of the gross composition of viscous oils and waxes often requires its measurement at elevated temperatures.1.1 This test method covers the measurement of refractive indexes, accurate to two units in the fourth decimal place, of transparent and light-colored viscous hydrocarbon liquids and melted solids that have refractive indexes in the range between 1.33 and 1.60, and at temperatures from 80 to 100°C. Temperatures lower than 80°C can be used provided that the melting point of the sample is at least 10°C below the test temperature. 1.2 This test method is not applicable, within the accuracy stated, to liquids having colors darker than ASTM Color No. 4, ASTM color as determined by Test Method D1500, to liquids which smoke or vaporize readily at the test temperature, or to solids melting within 10°C of the test temperature. Note 18212;The instrument can be successfully used for refractive indices above 1.60; but since certified liquid standards for ranges above 1.60 are not yet available, the accuracy of measurement under these conditions has not been evaluated. 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 Warning—Mercury has been designated by EPA and many state agencies as a hazardous material that can cause central nervous system, kidney, and liver damage. Mercury, or its vapor, may be hazardous to health and corrosive to materials. Caution should be taken when handling mercury and mercury-containing products. See the applicable product Material Safety Data Sheet (MSDS) for details and EPA’s website (http://www.epa.gov/mercury/faq.htm) for additional information. Users should be aware that selling mercury or mercury-containing products, or both, in your state may be prohibited by state law. 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 Refractive Index of Viscous Materials

ASTM D7446-09 硬质蜂窝聚苯乙烯保温芯材层压波纹状硬纸板(OSB)结构绝缘面板(SIP)胶粘剂标准规范

This specification addresses minimum performance criteria for adhesives used to laminate oriented strand board (OSB) structural panel facing material to expanded or extruded polystyrene core materials. Adhesive performance is based on tests that simulate exposure to moisture, temperature, seasonal weathering, and creep. Additionally, the adhesive is to demonstrate resistance to oxidation, mold, chemical reagents, and compatibility to the specific laminating materials. The adhesive manufacturers can use this specification for new product development and quality control purposes. Structural insulated panel manufacturers rely on an adhesive performance specification that determines its suitability before use. Performance of the SIP adhesive when evaluated in accordance with this specification aids in determining the suitability of the adhesive for laminating OSB facings to rigid cellular polystyrene core materials in the manufacture of structural insulated panels.1.1 This specification is designed to evaluate adhesives suitable for the bonding of oriented strand board (OSB) to rigid cellular polystyrene insulation core materials for general structure use. 1.2 The requirements of the structural insulated panel (SIP) adhesive are based on the performance of the adhesive as measured by: 1.2.1 Resistance to shear by compression loading in ambient conditions and after accelerated aging. 1.2.2 Resistance to tensile loading in ambient conditions and after accelerated aging. 1.2.3 Resistance to creep (deformation) under static load in ambient conditions and after accelerated aging. 1.2.4 Tensile and shear strength to polystyrene core materials. 1.3 The classification of the adhesive formulation is based on, but not limited to the adhesive’s industry accepted generic names, for example: phenol-resorcinol, emulsion polymer isocyanate, one and two-part urethane. The type of adhesive application and curing terminology are also usually included for classification purposes such as cold-setting phenol resorcinol, heat-cured phenol resorcinol, and hot melt one component urethane. 1.4 Evaluation of adhesive performance at high temperature conditions, such as during a fire exposure, is beyond the scope of this specification. 1.5 The values stated in SI units are to be regarded as the standard. The values given in parentheses are for information only. 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 Specification for Structural Insulated Panel (SIP) Adhesives for Laminating Oriented Strand Board (OSB) to Rigid Cellular Polystryene Thermal Insulation Core Materials

ASTM C1521-09e1 评价已安装上的防风雨的密封接头粘结性的标准实施规程

Many parameters contribute to the overall performance of a sealant application. Some of the most significant parameters are sealant bead size and configuration, joint movement, quality of workmanship, the quality of the adhesive bond, and the quality of the sealant material. A sealant usually fails to perform as a weatherseal when it experiences cohesive or adhesive failure. If a sealant bead fails, an evaluation of the total joint movement may be needed to determine if the joint sealant was strained beyond design or if the sealant failed within design parameters. If a sealant bead fails adhesively, there is no straightforward procedure for determining the cause. The adhesive failure may be due to workmanship, the specific surface preparation used, the specific sealant used, poor “installed” joint design, poor bond chemistry and other causes. Because of the complex nature of the performance of a sealant bead, an understanding of the quality of the adhesive bond is instrumental in any evaluation of sealant performance. It is critical that the test procedures used truly evaluate the quality of the adhesive bond and do not simply take advantage of the tear resistance of the sealant. This method does not evaluate the performance of a sealant joint as a weatherseal. It only evaluates the characteristics of the adhesive bond relative to the cohesive strength of the sealant in a particular installation. Since any failures that result from use of this test method are intentionally induced, they do not necessarily mean that the sealant joint will not perform as a weatherseal. The results of these methods are most useful in identifying sealant joints with poor adhesion. The continuous inspection procedure is also useful in the identification of places of poor joint configuration. Obvious cohesive failures are also identified. The results of these methods can be used to assess the likely performance of the sealant joint and to compare performance against other sealant joints. The nondestructive methods are most effective while the sealant is in a state of extension due to mild or low temperatures. They are least effective during high temperature when the sealant is in a compressed condition.1.1 This practice describes destructive and nondestructive procedures. 1.2 The destructive procedure stresses the sealant in such a way as to cause either cohesive or adhesive failure of the sealant or cohesive failure of the substrate where deficient substrate conditions exist. The objective is to characterize the adhesive/cohesive performance of the sealant on the specific substrate by applying whatever strain is necessary to effect failure of the sealant bead. It is possible that the strain applied to the sealant bead may result in the failure of a deficient substrate before effecting a failure in the sealant. Note 18212;The destructive procedure requires immediate repair of the sealant bead. Appropriate materials and equipment should be available for this purpose. Note 28212;Sealant formulations may fail in cohesion or adhesion when properly installed, and tested by this method. The sealant manufacturer should be consulted to determine the appropriate guidelines for using this method. 1.3 The nondestructive procedure places strain on the sealant and a stress on the adhesive bond. Though termed nondestructive, this procedure may result in an adhesive failure of a deficient sealant bead, but should not cause a cohesive failure in the sealant. The results of this procedure should be either adhesive failure or no failure. Note 38212;The nondestructive procedure may req......

Standard Practice for Evaluating Adhesion of Installed Weatherproofing Sealant Joints