Q24 密封材料 标准查询与下载

ASTM C1382-11 测定用于外部绝缘和精整系统连接件的密封剂抗拉黏着性能的标准试验方法

EIFS are barrier-type systems that must be weatherproofed to prevent the passage of moisture, air, dust, heat, and cold from entering a structure. This test method is intended to determine the adhesion properties of the sealant with the EIFS substrate as determined by its tensile adhesive properties for dry, wet, frozen, heat-aged, and artificial weather-aged conditions.1.1 This test method describes a laboratory procedure for measuring tensile adhesion properties of sealants to exterior insulation and finish systems (EIFS) under dry, wet, frozen, heat-aged, and artificial weather-aged conditions. 1.2 The committee with jurisdiction over this standard is not aware of any comparable standards published by other organizations. 1.3 The values stated in SI units are to be regarded as the standard. The inch-pound values given in parentheses are provided 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. 1.5 The committee with jurisdiction over this standard is not aware of any comparable standards published by other organizations.

Standard Test Method for Determining Tensile Adhesion Properties of Sealants When Used in Exterior Insulation and Finish Systems (EIFS) Joints

ASTM C1481-11 外部绝缘和精整系统用密接剂使用的标准指南

The intent of this guide is to provide information and guidelines for consideration by the designer or applicator of joint seals in, or adjacent to, EIFS. Refer to Specification E2568 for additional information pertaining to specifying Class PB EIFS. Refer to Guide E2511 for additional information pertaining to detailing of EIFS-Clad Wall Assemblies. Proper selection and use of a sealant is fundamental to its ultimate performance, service life, and durability. A sealant joint subjected to movement and other similar performance factors should be designed for the particular application to avoid compromising its performance capability and causing failures. Refer to C1193 for guidance. In addition to the design and installation data in this guide, consult the sealant manufacturer about applications for its products and their proper use and installation.1.1 This guide describes the use of single and multi-component, cold-applied joint sealants, or precured sealant systems for joint sealing applications, or both, in buildings using Exterior Insulation and Finish Systems (EIFS) on one or both sides of the joint. Refer to 10.1 for joint seal geometries. 1.2 The elastomeric sealants described by this guide meet the requirements of Specifications C834, C920, or C1311. 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 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. 1.5 There are no ISO standards similar or equivalent to this ASTM standard.

Standard Guide for Use of Joint Sealants with Exterior Insulation and Finish Systems (EIFS)

ASTM C1736-11 使用滚动装置对已安装的防水密封剂间接缝的粘附性进行无损评估的标准操作规程

Many parameters contribute to the overall performance of a sealant application. Some of the most significant parameters are sealant joint geometry, joint movement, joint design, sealant movement capability, quality of workmanship, quality of adhesive bond, and quality of the sealant material. If a sealant fails in adhesion, 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 joint design, poor bond chemistry, or other causes. Comprehensive information for the use of joint sealants is provided in Guide C1193. This technique may not produce useful results when the sealant is in compression. Comprehensive information regarding the impact of temperature on sealant joint dimensions may be found in Guide C1472.1.1 The non-destructive procedure described in this practice induces a depression (strain) in the sealant, creating an elongation of the sealant and a stress on the adhesive bond at the sealant to joint substrate interface. The primary purpose of the practice is to reveal sealant adhesion anomalies not discernible by visual examination, at the time of the evaluation, which may affect air infiltration resistance, or water infiltration resistance, or both, of the sealed joint. Note 18212;The nondestructive procedure may require immediate repair of the sealant bead, if failure is identified. Appropriate materials and equipment should be available for this purpose. 1.2 This practice is useful for the evaluation of adhesion of weatherseals in joints that are backed with compressible materials such as backer rod. This practice is not as useful in joints with solid backing. 1.3 The proper use of this practice requires a working knowledge of the principles of sealants as applied in movement joint applications. 1.4 A sealant fails to perform as a weatherseal when it allows air, or water, or both, to infiltrate the joint. This practice does not evaluate the performance of an installed sealant as a weatherseal. This practice is intended to only evaluate the characteristics of the adhesive bond in a particular installation. Note 28212;In addition to identifying adhesion characteristics of the sealant joint, this practice may provide the user with an indication of other characteristics and anomalies including, but not limited to, changes in sealant depth, insufficiently sized or configured backer rods, cohesive failures, entrapped air voids, and solid contaminants. Anomalies of this nature may be interpreted and addressed by the evaluator. 1.5 The values stated in SI units are to be regarded as standard. No other units of measurement are included in this standard. 1.6 The committee with jurisdiction for this standard is not aware of any comparable standard published by other organizations. 1.7 This standard does not purport to address all of the safety problems, 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 Practice for Non-Destructive Evaluation of Adhesion of Installed Weatherproofing Sealant Joints Using a Rolling Device

ASTM C1735-11 用应力松弛测定随时间变化密封胶模量的标准试验方法

The intent of this test method is to determine the time dependence of modulus in building joint sealants using two loading-unloading cycles to identify and mitigate any Mullins effect, and followed by a stress relaxation procedure to determine the time dependent modulus. This test method has found applications in screening the performance of building joint sealants since the modulus is one indicator of the ability of elastomeric building sealant to withstand environmental induced movements.1.1 This test method covers a procedure for measuring the time dependence of modulus in elastomeric joint sealants in a test specimen configuration described in Test Method C719. These sealant materials are typified by highly filled rubber materials. Any Mullins effect is first assessed and mitigated in two loading-unloading cycles. Time dependence of modulus in materials is then determined using a stress relaxation procedure. 1.2 The values stated in SI units are to be regarded as the standard. The values in parentheses are for information only. 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 Test Method for Measuring the Time Dependent Modulus of Sealants Using Stress Relaxation

BS EN ISO 8394-2:2010 房屋建筑.连接件.使用标准装置的密封剂的可挤压性测定

This part of ISO 8394 specifies a method for determining the extrudability of sealants independently of the package in which they are supplied. It is not applicable to the classification of sealants.

Building construction. Jointing products. Determination of extrudability of sealants using standardized apparatus

BS EN ISO 8394-1:2010 房屋建筑.连接件产品.密封剂可挤压性的测定

This part of ISO 8394 specifies a method for determining the extrudability of sealants. The method is for use in testing the extrudability of a sealant. It is not applicable to the classification of sealants.

Building construction. Jointing products. Determination of extrudability of sealants

BS ISO 11527:2010 房屋建筑.密封剂.粘性测定用试验方法

Building construction. Sealants. Test method for the determination of stringiness

JC/T 2037-2010 丙烯酸盐灌浆材料

本标准规定了丙烯酸盐灌浆材料的术语和定义、分类、一般要求、技术要求、试验方法、检验规则及其标志、包装、运输和贮存等。 本标准适用于水利、采矿、交通、工业及民用建筑等领域的防渗堵漏以及软弱地层处理的丙烯酸盐灌浆材料。

Acrylate grout

JC/T 749-2010 预应力与自应力混凝土管用橡胶密封圈试验方法

本标准规定了预应力与自应力混凝土管用橡胶密封圈试验方法的有害物含量测定、化学稳定、性能试验、胶圈尺寸测量和外观质量检查等内容。 本标准适用于预应力混凝土管、自应力混凝土管、预应力钢筒混凝土管等输送饮用水的管道橡胶密封圈的试验。

Standard methods of testing rubber gasket ring of prestressed and self-stressing concrete pipe

JC/T 748-2010 预应力与自应力混凝土管用橡胶密封圈

本标准规定了预应力与自应力混凝土管用橡胶密封圈的分级和标记、材料与制造、技术要求、试验方法、检验规则、标志、包装、运输和贮存以及使用注意事项等。 本标准适用于以天然橡胶或合成橡胶为主要原料制成的预应力混凝土管、自应力混凝土管、预应力钢筒混凝土管等管道密封接口胶圈。

Rubber gasket ring of prestressed and self-stressing concrete pipe

ISO 11527:2010 房屋建筑.密封剂.粘性测定用试验方法

This International Standard specifies a method for the determination of the stringiness of a wet-applied sealant.

Building construction - Sealants - Test method for the determination of stringiness

NF P85-221-2:2010 房屋建筑.填料产品.第2部分:使用标准装置的密封剂的可挤压性测定

Building construction - Jointing products - Part 2 : determination of extrudability of sealants using standardized apparatus.

ISO 8394-2:2010 房屋建筑.连接件.第2部分:使用标准装置的密封剂的可挤压性测定

This part of ISO 8394 specifies a method for determining the extrudability of sealants independently of the package in which they are supplied. It is not applicable to the classification of sealants.

Building construction - Jointing products - Part 2: Determination of extrudability of sealants using standardized apparatus

ISO 8394-1:2010 房屋建筑.连接件产品.第1部分:单个密封件可挤压性的测定

This part of ISO 8394 specifies a method for determining the extrudability of sealants. The method is for use in testing the extrudability of a sealant. It is not applicable to the classification of sealants.

Building construction - Jointing products - Part 1: Determination of extrudability of sealants

DIN EN 15651-1:2010 建筑物和行人专用区连接用非结构密封剂.第1部分:正面部分用密封剂.德文版本EN 15651-1-2010

This European Standard specifies defintions and requirements for non-structural facade sealants intended for sealing exterior wall joints, window and door perimeter joints in building construction, including the interior face.

Sealants for non-structural use in joints in buildings and pedestrian walkways - Part 1: Sealants for facade elements; German version EN 15651-1:2010

DIN EN 15651-4:2010 建筑物和行人专用区连接用非结构密封剂.第4部分:行人专用区用密封剂.德文版本EN 15651-4-2010

This document specifies definitions and requirements for cold applied non-structural elastic sealants used for movement joints in floors in building construction for interior and exterior use.

Sealants for non-structural use in joints in buildings and pedestrian walkways - Part 4: Sealants for pedestrian walkways; German version EN 15651-4:2010

DIN EN 15651-3:2010 建筑物和行人专用区连接用非结构密封剂.第3部分:公共厕所连接处用密封剂.德文版本EN 15651-3-2010

This European Standard specifies defintions and requirements for sealants used for sealing of joints applied in sanitary areas in the interoir of building exposed to non-pressurized water.

Sealants for non-structural use in joints in buildings and pedestrian walkways - Part 3: Sealants for sanitary joints; German version EN 15651-3:2010

DIN EN 15651-2:2010 建筑物和行人专用区连接用非结构密封剂.第2部分:上釉用密封剂.德文版本EN 15651-2-2010

This European Standard specifies defintions and requirements for non-structural elastic sealants used for sealing glazing in building construction applications.

Sealants for non-structural use in joints in buildings and pedestrian walkways - Part 2: Sealants for glazing; German version EN 15651-2:2010

DIN EN 15651-5:2010 建筑物和行人专用区连接用非结构密封剂.第5部分:一致性评估和标记.德文版本EN 15651-5-2010

This European Standard specifies procedures for evaluation of conformity,marking and labelling of non-structural aealants for joints in building construction according to EN 15651-1, EN 15651-2, EN 15651-3 or EN 15651-4 dealing with sealants for non-structural use in joints in building construction and pedustrian walkways.

Sealants for non-structural use in joints in buildings and pedestrian walkways - Part 5: Evaluation of conformity and marking; German version EN 15651-5:2010

DIN 18531-1:2010 屋顶的防水.无用屋顶的密封件.第1部分:术语和定义、要求和设计原则

Waterproofing of roofs - Sealings for non-utilized roofs - Part 1: Terms and definitions, requirements, design principles