91.120.30 防水 标准查询与下载

BS 6576:2005+A1:2012 建筑物墙壁中潮气增长的诊断和化学防潮层安装实用规程

This British Standard gives recommendations for the procedures to be used in diagnosing and treating rising damp in walls of existing buildings. This British Standard: -emphasizes the need to differentiate between rising damp and other causes for damp conditions in diagnosis; -gives recommendations for the chemical treatment of rising damp in existing buildings with solid walls, cavity walls (unfilled or filled) and random rubble-filled walls, including associated reinstatement of plaster/dry linings; and -indicates essential precautions and procedures for installing chemical damp-proof courses. This British Standard does not cover the treatment of walls where treatment is inappropriate,such as stud walls,or where other treatments are appropriate,such as walls below ground level or under hydrostatic pressure,whose treatment is described in BS 8102.

Code of practice for diagnosis of rising damp in walls of buildings and installation of chemical damp-proof courses

DS/EN 13970:2005 防水用柔性板材 沥青水蒸气控制层 定义和特性

This European Standard specifies definitions and characteristics of flexible reinforced bitumen sheets for which the intended use is as water vapour control layers for buildings. It specifies the requirements and test methods and provides for the evaluation of conformity of the products with the requirements of this document.

Flexible sheets for waterproofing - Bitumen water vapour control layers - Definitions and characteristics

JC/T 984-2005 聚合物水泥防水砂浆

本标准规定了聚合物水泥防水砂浆(代号PCMW)的术语和定义、要求、试验方法、检验规则、标志、包装、运输与贮存。 本标准适用于聚合物水泥防水砂浆。

Polymer modified cement mortars for waterproof

JC/T 974-2005 道桥用改性沥青防水卷材

本标准规定了道桥用改性沥青防水卷材的分类、要求、试验方法、检验规则、标志、包装、运输与贮存。 本标准适用于以水泥混凝土为面层的道路和桥梁表面，并在其上面辅加沥青混凝土层的改性沥青聚酯胎防水卷材，其它用途如机场跑道、停车场也可参照使用。

Modified bituminous waterproofing sheets for concrete bridge decks and other concrete surfaces trafficable by vehicles

JC/T 975-2005 道桥用防水涂料

本标准规定了水泥混凝土道桥用防水涂料的分类、一般要求、技术要求、试验方法、检验规则以及包装、标志、运输和贮存。 本标准适用于以水泥混凝土为面层的道路和桥梁表面，并在其上面加铺沥青混凝土层的防水涂料。

Waterproofing coatings for concrete bridge and road surface

JC/T 946-2005 混凝土和钢筋混凝土排水管用橡胶密封圈

本标准规定了混凝土和钢筋混凝土排水管接口用橡胶密封圈的产品分类和标记、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规定等。 本标准适用于用天然橡胶、合成橡胶制成的，管道内输送介质为雨水、污水的混凝土和钢筋混凝土无压排水管及钢筋混凝土低压排水管接口用橡胶密封圈。本标准不适用于用遇水膨胀橡胶制成的，输送饮用水及输送有特殊腐蚀作用的工业污水的管道接口用橡胶密封圈。

Rubber gasket ring of concrete and reinforce concrete sewer pipes

ASTM C1501-04 由实验室加速老化程序确定的建筑结构密封胶的颜色稳定性的标准测试方法

This test method is intended to induce color changes in sealants, as well as their constituent pigments, associated with end-use conditions, including the effects of sunlight, moisture, and heat. The exposures used in this test method are not intended to simulate the color change of a sealant caused by localized weathering phenomena, such as atmospheric pollution, biological attack, and saltwater exposure. When conducting exposures in devices that use laboratory light sources, it is important to consider how well the artificial test conditions will reproduce property changes and failure modes associated with end-use environments for the sealant being tested. Information on the use and interpretation of data from accelerated exposure tests is provided in ASTM G 151. When this test method is used as part of a specification, exact procedure, test conditions, test duration and evaluation technique must be specified. Results obtained between the two procedures may vary, because the spectral power distribution of the light sources (fluorescent UV and xenon arc) differ. Sealants should not be compared to each other based on the results obtained in different types of apparatus. These devices are capable of matching ultraviolet solar radiation reasonably well. However, for sealants sensitive to long wavelength UV and visible solar radiation, the absence of this radiation in the fluorescent UV apparatus can distort color stability ranking when compared to exterior environment exposure. Note 18212;Refer to Practices G 151 for full cautionary guidance regarding laboratory weathering of non-metallic materials.1.1 This test method describes laboratory accelerated weathering procedures using either fluorescent ultraviolet or xenon arc test devices for determining the color stability of building construction sealants.1.2 Color stability rankings provided by these two procedures may not agree.1.3 The values stated in SI units are to be regarded as the standard. Values given in parentheses are for information only.1.4 There is no equivalent ISO standard for this test method.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 Color Stability of Building Construction Sealants as Determined by Laboratory Accelerated Weathering Procedures

KS F 9006-2004 改性沥青防水层施工标准

이 규격은 건축물의 방수 공사에 사용하는 개량 아스팔트 방수 시트를 토치로 가열하여 시

Construction standard of polymer-modified bitumen waterproofing sheet

AS 3740:2004 家庭住宅内湿环境的防水

Sets out criteria for wet areas within residential buildings. It gives minimum requirements for materials, designs and installations.

Waterproofing of wet areas within residential buildings

AS/NZS 4858:2004 湿润部位薄膜

Sets out to classify membranes based on elastic properties, which can then be used to give guidance on the type of detailing for a specific membrane referred to in AS 3740.

Wet area membranes

DIN 18195-9:2004 建筑物的防水性.第9部分:渗透、转换、连接和端接

This standard is applicable in connection with waterproofing against - ground moisture according to DIN 18195-4 - non-pressing water according to DIN 18195-5 and - outside pressing water according to DIN 18195-6 used in penetrations, transitions and seals. This standard is not applicable to waterproof coverings for roofs or decks of bridges on public highways (see also DIN 18195-1).#,,#

Water-proofing of buildings - Part 9: Penetrations, transitions, connections and endings

DIN 18195-10:2004 建筑物的防水性.第10部分:防护层和防护措施

Water-proofing of buildings - Part 10: Protective layers and protective measures

DIN 18195-8:2004 建筑物的防水性.第8部分:活动连接接头的防水性

This standard is applicable in connection with waterproofing against - ground moisture according to DIN 18195-4 - non-pressing water according to DIN 18195-5 and - outside pressing water according to DIN 18195-6 for waterproofing of movement joints in structures

Water-proofing of buildings - Part 8: Water-proofing over joints for movements

ASTM C1498-04a(2010)e1 建筑材料吸湿等温线标准试验方法

The purpose of these tests is to obtain, for a specified temperature, by means of a specified laboratory procedure, the values of the equilibrium moisture content at various levels of RH. These values are used either as means to characterize the material or as material characteristics needed as input to appropriate computer models that can simulate wetting or drying potential of individual building materials or material assemblies under specified environmental conditions. A specified value of the equilibrium moisture content can also be used for material characterization. If this type of material characterization is called for in a material specification (for example, mineral or cellulose fiber insulation), the equilibrium at 95 ± 3 %RH shall be used. For ease and repeatability of measurements, the measurements for characterization are performed on adsorption isotherms. Though desorption is the reverse of adsorption, most porous materials reach different equilibrium levels during these two processes. Usually, the equilibrium moisture content on the desorption isotherm is higher than that on the adsorption isotherm for the same level of RH.1.1 This test method specifies a laboratory procedure for the determination of hygroscopic sorption isotherms of any construction materials. The method was originally developed for the ASTM Thermal Insulation committee. 1.2 For material characterization, the primary emphasis is on the adsorption isotherm (that is, sorption isotherm that describes the wetting process of the material from the oven-dry condition). 1.3 Determination of desorption isotherm, (that is, sorption isotherm that describes the drying process of a material from the state of absolute saturation with water) is performed when information on drying characteristics of construction materials is required. Typically both adsorption and desorption isotherms are required for the purpose of hygrothermal models. 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 Test Method for Hygroscopic Sorption Isotherms of Building Materials

ASTM E2321-03(2011) 测定室外绝缘和末道漆系统(EIFS)水蒸气透过性(WVT)用标准操作规程

The purpose of this test is to obtain steady state values of water vapor transfer through the EIFS sample. This characteristic of EIFS is commonly requested by regulatory and design organizations, and is used in thermal and moisture studies of building walls. The degree to which an EIFS allows water vapor to pass through it can affect the performance of an EIFS wall assembly. A permeance value obtained under one set of test conditions does not indicate the value under a different set of conditions. For this reason, the test conditions selected are those that most closely approach the conditions of use for EIFS components and assemblies. This standard should not be used alone as the sole means for evaluating the water vapor transmission characteristics of a given EIFS wall assembly. Other methods are available, and should be considered and used as appropriate. To be meaningful in evaluating the thermal and moisture condition of a given EIFS wall assembly, the specimens used in this standard should represent closely the materials that actually exist, or will exist, on a given building.1.1 This standard describes how to use Test Methods E96/E96M to determine the water vapor transmission (WVT) characteristics of an EIFS sample. 1.2 An Exterior Insulation and Finish System (EIFS) is a multilayer exterior building wall material that consists of a number of layers. For the purpose of this standard, these layers, whether they be individual EIFS component materials in single layers, or groups of EIFS component materials, are called the “EIFS sample.” 1.3 The Water Method, Procedures B and D described in section X1.1.2 and X1.1.5 of Appendix X1 of Test Methods E96/E96M shall be used in this standard. 1.4 This standard is limited to specimens not over 1¼ in. (32 mm) in thickness, except as provided in Section 9 of this standard. 1.5 The values stated in inch-pound units are to be regarded as the standard. Metric inch-pound conversion factors for water vapor transmission, permeance, and permeability are stated in Table 1 of Test Methods E96/E96M. All conversions of mm Hg to Pa are made at a temperature of 0°C. 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 Practice for Use of Test Methods for Determining the Water Vapor Transmission (WVT) of Exterior Insulation and Finish Systems (EIFS)

JC/T 902-2002 建筑表面用有机硅防水剂

Silicone hydrophobic agent for construction surfaces

KS F 4812-2002 浴室用预制盘

PREFABRICATIVE PANS FOR BATHROOMS

LST EN 12865-2002 建筑构件和建筑构件的湿热性能 外墙系统在脉动气压下对雨水的抵抗力的测定

Hygrothermal performance of building components and building elements - Determination of the resistance of external wall systems to driving rain under pulsating air pressure

CNS 14497-2001 改质沥青防水毡

本标准适用于各种构造物防水工程用之改质沥青防水毡(1) (以下简称为防水毡)。注(1)：改质沥青系指在沥青中加入高分子聚合物，如杂态聚丙烯(APP)、苯乙烯－丁乙烯－苯乙烯(SBS)……等加以改质，而达到对沥青原有之物理及化学性质有所改良之一种材料，而改质沥青防水毡系

Polymer-modified bitumen waterproofing sheets

DS/EN 12865:2001 建筑构件和建筑构件的湿热性能 外墙系统在脉动气压下对雨水的抵抗力的测定

This standard specifies a general method for assessing the driving rain resistance of wall systems by determining the water tightness of wall systems or part of wall systems under pulsating air pressure.

Hygrothermal performance of building components and building elements - Determination of the resistance of external wall systems to driving rain under pulsating air pressure