91.060.01 建筑构件综合 标准查询与下载

JC/T 2296-2014 建筑材料及构件复合环境试验 人工光源辐照-湿热试验方法

本标准规定了在人工光源辐照-湿热的复合试验方法的术语和定义、试验设备、试验方法、性能评价以及试验报告。本标准适用于评价在我国湿热、亚湿热地区使用的建筑材料与建筑构件在使用、贮存与运输过程中的性能变化。

Comprehensive environment test method for materials and elements of building construction.Artificial radiation-damp heat test

JC/T 2274-2014 建筑用薄膜光伏中空玻璃一致性评定要求

本标准规定了建筑用薄膜光伏中空玻璃一致性评定的术语和定义、评定要求、型式试验及材料变更定型试验。本标准适用于建筑用薄膜光伏中空玻璃的一致性评定,其它类型建筑用光伏中空玻璃的一致性评定可参照本标准。.

Requirements on conformity evaluation of thin film photovoltaic insulating glass units in building

JG/T 448-2014 既有采暖居住建筑节能改造能效测评方法

本标准规定了既有采暖居住建筑节能改造能效测评的基本要求、采暖效果测评方法、采暖能耗测评方法、供热节能技术应用测评方法。本标准适用于具备热计量功能的既有居住建筑集中采暖系统的节能运行能效测评,以及节能改造效果测评。新建建筑能效测评可参照执行。

Method of the energy performance evaluation for heating system in existing residential buildings

DB11/ 1027-2013 防火玻璃框架系统设计、施工及验收规范

Code for design, construction and acceptance of fire-resistant glass frame system

DB11/T 1004-2013 房屋建筑使用安全检查技术规程

Technical regulations for safety inspection of house construction

JG/T 372-2012 建筑变形缝装置

本标准规定了建筑变形缝装置的术语和定义、分类及代号、标记、要求、试验方法、检验规则、标志、包装、运输和贮存。 本标准适用于变形缝宽度为6mm～500mm，伸缩量为±3mm～±250mm的建筑变形缝装置。

Building expansion joint cover systems

JG/T 366-2012 外墙保温用锚栓

本标准规定了外墙保温用锚栓的术语和定义、分类与标记、一般要求、要求、试验方法、检验规则、标志和产品说明书、包装、运输及储存。 本标准适用于固定在混凝土、砌体基层墙体上，以粘贴为主、机械锚固为辅的外墙保温系统中附加锚固所用的锚栓。

Anchors for fixing of thermal insulation composite systems

ASTM E488/E488M-10 混凝土构件中锚定强度的标准试验方法

These test methods are intended to provide reproducible data from which acceptance criteria, design data, and specifications can be developed for anchors intended to be installed in concrete.1.1 These test methods address the tensile and shear strengths of post-installed and cast-in-place anchors in test members made of cracked or uncracked concrete. Loadings include quasi-static, seismic, fatigue and shock. Environmental exposures include freezing and thawing, moisture, decreased and elevated temperatures and corrosion. These test methods provide basic testing procedures for use with product-specific evaluation and acceptance standards and are intended to be performed in a testing laboratory. Product-specific evaluation and acceptance standards may add specific details and appropriate parameters as needed to accomplish the testing. Only those tests required by the specifying authority need to be performed. 1.2 These test methods are intended for use with post-installed and cast-in-place anchors designed for installation perpendicular to a plane surface of a test member. 1.3 This standard prescribes separate procedures for static, seismic, fatigue and shock testing. Nothing in this standard, however, shall preclude combined tests incorporating two or more of these types of loading (such as seismic, fatigue and shock tests in series). 1.4 Both inch-pound and SI units are provided in this standard. The testing may be performed in either system and reported in that system and the results converted to the other. However, anchor diameters, threads, and related testing equipment shall be in accordance with either inch-pound or SI provisions. 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 Methods for Strength of Anchors in Concrete Elements

ASTM E1557-09(2015) 建筑构件和相关现场工程的标准分类. 统一格式II

4.1 This classification defines building elements as major components common to most buildings. The classification is the common thread linking activities and participants in a building project from initial planning through operations, maintenance, and disposal. 4.2 The users of UNIFORMAT II include owners, developers, facilities programmers, cost planners, estimators, schedulers, architects and engineers, specification writers, operating and maintenance staff, manufacturers, and educators. 4.3 Use this classification when doing the following:5 4.3.1 Structuring costs on an elemental basis for economic evaluations (Practices E917, E964, E1057, E1074, E1121, and E1804) early in the design process. Using UNIFORMAT II helps reduce the cost of early analysis and contributes to substantial design and operational savings before decisions have been made that limit options for potential savings. 4.3.2 Estimating and controlling costs during planning, design, and construction. Use UNIFORMAT II to prepare budgets and to establish elemental cost plans before design begins. The project manager uses these to control project cost, time, and quality, and to set design-to-cost targets. See Appendix X2 for an example of a UNIFORMAT II building elemental design cost estimate. 4.3.3 Conducting value engineering workshops. Use UNIFORMAT II as a checklist to ensure that alternatives for all elements of significant cost in the building project are analyzed in the creativity phase of the job plan. Also, use the elemental cost data to expedite the development of cost models for building systems. 4.3.4 Developing initial project master schedules. Since projects are built element by element, UNIFORMAT II is an appropriate basis for preparing construction schedules at the start of the design process. 4.3.5 Performing risk analyses. Simulation is one technique (Practice E1369) for developing probability distributions of building costs when evaluating the economic risk in undertaking a building project. Use individual elements and group elements in UNIFORMAT II for developing probability distributions of elemental costs. From these distributions, build up probability distributions of total project costs to establish acceptable project contingencies or to serve as inputs to an economic analysis. (See Practice E1185 for guidance as to what economic method to use.) 4.3.6 Structuring cost manuals and recording construction, operating, and maintenance costs in a database. Having a manual or database in an elemental format helps you perform economic analysis early in the design stage and at reasonable cost.

Standard Classification for Building Elements and Related Sitework&x2014;UNIFORMAT II

ANSI/ASTM E699:2009 涉及试验和质量保证机构的评估及建筑构件评估用标准实施规程

Standard Practice For Evaluation Of Agencies Involved In Testing, Quality Assurance, And Evaluating Of Building Components

JGJ 110-2008 建筑工程饰面砖粘结强度检验标准

本标准适用于建筑工程外墙饰面砖粘结强度的检验。

Testing standard for adhesive strength of tapestry brick of construction engineering

JGJ 155-2007 种植屋面工程技术规范

本规程适用于新建和既有建筑屋面、地下建筑顶板种植工程的设计、施工和质量验收。

Technical specification for planted roof

CECS 211-2006 自动门应用技术规程

本规程适用于新建、改建和扩建的建筑和建筑设施中安装的旋转自动门、平滑自动门（推拉门）折叠自动门、平开自动门的设计、安装及验收。

Technical specification for application of automatic door for pedestrian use

CECS 208-2006 泳池用聚氯乙烯膜片.应用技术规程

本规程适用于以聚氯乙烯膜片作为防水和装饰材料的泳池子工程的设计、施工及验收。

Technical specification for application of PVC.Membrane on swimming pools

BS 6093:2006 建筑结构的接缝及连接设计指南

This British Standard gives recommendations for the design of joints and the use of jointing products in building construction. Following an analysis of joint functions and of the performance of the parts to be joined, joints are classified in this standard on the basis of the movements and inaccuracies they have to accommodate. Mechanisms by which joints operate are identified and recommendations are made on the use of sealants and gaskets. Some emphasis is placed on weather resistance of joints in the external envelope of buildings. The code does not present guidance in the form of a catalogue of proven joint designs, because the extent to which a design is appropriate to a particular use depends on circumstances specific to the building, e.g. its exposure, desired performance, durability and costs. The code therefore draws attention to matters that need consideration, in order that solutions may be developed that are appropriate. The code does not cover: a) rigidly connected joints (except type 1 joints, see 4.6.4.1); b) joints within components normally made in a factory, such as those around opening lights in windows; c) the load-bearing functions of structural joints; d) glazing (see BS 6262); e) joints in service pipes and ducts and their connections to appliances; f) methods of test for joints or for jointing products. All figures in this standard showing detailed joint designs illustrate principles in a recognizable context and are not production drawings of proven and universally applicable joints.

Design of joints and jointing in building construction - Guide

BS 6093:2006+A1:2013 建筑结构的接缝及连接设计.指南

This British Standard gives recommendations for the design of joints and the use of jointing products in building construction. Following an analysis of joint functions and of the performance of the parts to be joined, joints are classified in this standard on the basis of the movements and inaccuracies they have to accommodate. Mechanisms by which joints operate are identified and recommendations are made on the use of sealants and gaskets. Some emphasis is placed on weather resistance of joints in the external envelope of buildings.

Design of joints and jointing in building construction.Guide

CECS 201-2006 植物纤维石膏渣空心砌块应用技术规程

本规程适用于非抗震设防地区和抗震设防烈度为6～8度地区的工业与民用建筑工程中，采用植物纤维石膏渣空心砌块砌筑的非承重墙体的设计、施工和验收。

Technical specification for application of plant fiber-gesso hollow block

CECS 199-2006 聚乙烯丙纶卷材复合防水工程技术规程

本规程适用于建筑屋面、地下室、室内、水池和隧道等防水工程的材料、设计、施工与验收。

Technical specification for composite waterproof engineering with polyethylene polyproplylene sheet

JIS A 1436 AMD 1:2006 充分粘结在基质上的覆层和片层的脱落能力的试验方法(修改件1)

Test methods for movement capability of coatings and sheets fully adhered on substrate (Amendment 1)

NS 3451-2006 建筑元素表

Table of building elements