91.120.01 建筑物的防护综合 标准查询与下载

GOST R 55225-2012 建筑饰面, 加固, 耐碱用玻璃纤维网格. 规范

Alkali-resistan reinforcing building-faces meshes of glass fibre. Specifications

DB44/T 1087-2012 内墙无机涂料

本标准规定了内墙无机涂料的要求、试验方法、检验规则及标志、包装、运输和贮存。 本标准适用于以硅酸盐或硅溶胶为主要粘结剂，加入颜料、填料及各种助剂配制而成的，采用刷涂、喷涂或滚涂的施工方法，在建筑物内墙表面形成涂层的内墙无机涂料。

Inorganic coatings for interior walls

GOST R 54358-2011 外部砂浆层正面隔热复合系统的干水泥装饰涂层.规范

Dry cement base decorative coats for facade's thermal insulation composite systems with external mortar's lays. Specifications

GOST R 54359-2011 具有外部砂浆涂层的正面热绝缘复合系统的干水泥基粘合剂,底漆和修补油灰.规范

Dry cement base adhesives, base coats and patching putties for facade's thermo insulation composite systems with external mortar's lays. Specifications

JG/T 269-2010 建筑红外热像检测要求

本标准规定了建筑红外热像检测、检测结果的分级及检测报告的基本内容。 本标准适用于采用红外热像仪对建筑物外墙饰面质量缺陷、渗漏、外围护结构热工缺陷等方面进行检测。

Building infrared thermographic inspection requirement

VDI 6200-2010 建筑物的结构安全 定期检查

The guideline describes how to carry out regular inspections of the structural safety of buildings in a structured, efficient and economic manner, in order to avoid damage to the building or personal injury. It contains assessment and evaluation criteria, tried and tested checklists, practical instructions and recommendations for the assessment of the structural safety of existing and planned buildings and structures and for their maintenance. The guideline classifies buildings into damage consequences classes and robustness classes.It formulates specifications for the documentation of existing buildings and defines requirements for the inspectors. Depending on the damage consequences class, static-constructive features, construction material properties and the influences, it lists inspection methods and processes and recommends inspection intervals. The guideline is intended for buildings and structures of all types with the exception of bridges and tunnels. The guideline VDI 6200 is aimed at property owners, authorized parties and the experts involved, such as planning and consulting engineers, architects, test engineers for structural safety, facility managers, property administrators, construction departments of industrial and private enterprises, and the public sector.

Structural safety of buildings - Regular inspections

GOST R 53786-2010 带外部砂浆层的建筑外观绝缘复合系统.术语和定义

Facade's thermo insulation composite systems with external mortar's lays. Terms and definitions

GOST R 53785-2010 带外部砂浆层的建筑外观绝缘复合系统.分类

Facade's thermo insulation composite systems with external mortar's lays. Classification

ASTM F1637-10 安全行走表面的标准规程

This practice addresses elements along and in walkways including floors and walkway surfaces, sidewalks, short flight stairs, gratings, wheel stops, and speed bumps. Swimming pools, bath tubs, showers, natural walks, and unimproved paths are beyond the scope of this practice.1.1 This practice covers design and construction guidelines and minimum maintenance criteria for new and existing buildings and structures. This practice is intended to provide reasonably safe walking surfaces for pedestrians wearing ordinary footwear. These guidelines may not be adequate for those with certain mobility impairments. 1.2 Conformance with this practice will not alleviate all hazards; however, conformance will reduce certain pedestrian risks. 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 Practice for Safe Walking Surfaces

DIN EN ISO 15927-2:2009 建筑物温湿性能.气候数据的计算和表示.第2部分:设计冷却负荷的每小时数据(ISO 15927-2:2009),英文版本DIN EN ISO 15927-2:2009-07

This part of ISO 15927 gives the definition and specifies methods of calculation and presentation of the monthly external design climate to be used in determining the design cooling load of buildings and the design of air conditioning systems. Depending on the building type, a range of parameters can be used to define the individual days of hourly or three-hourly data in each calendar month that impose a cooling load likely to be exceeded on 5 %, 2 % and 1% of days. The parameters that are always used in the selection are dry-bulb temperature and total global solar irradiation (or sunshine hours). The daily swing in dry-bulb temperature, dewpoint temperature and wind speed and any other parameters relevant to particular buildings may also be included. Hourly peak values of dry-bulb temperature and dewpoint temperature are needed for the design of air conditioning systems.

Hygrothermal performance of buildings - Calculation and presentation of climatic data - Part 2: Hourly data for design cooling load (ISO 15927-2:2009); English version of DIN EN ISO 15927-2:2009-07

JGJ 161-2008 镇(乡)村建筑抗震技术规程

本规程适用于抗震设防烈度为6、7、8和9度地区镇（乡）村（以下简称村镇）建筑的抗震设计与施工。 村镇建筑系指乡镇与农村中层数为一、二层，采用木或冷轧 带肋钢筋预应力圆孔板楼（屋）盖的一般民用房屋。对于村镇中 三层及以上的房屋，或采用钢筋混凝土圈梁、构造柱和楼（屋）盖的房屋，应按现行国家标准《建筑抗震设计规范》GB 50011进行设计。 抗震防烈度为6度及以上地区的村镇建筑，必须采取防震措施。 抗震设防烈度必须按国家的权限审批、颁发的文件（图件）确定。

Seismic technical specification for building construction in town and village

NF P50-778*NF EN 15026:2008 建筑物构件和元件的温湿性能.用数值模拟评估潮气传递

Hygrothermal performance of building components and building elements - Assessment of moisture transfer by numerical simulation.

NF P50-780:2008 建筑物能量性能.表示建筑物能量性能和能量认证的方法

Energy performance of buildings - Methods for expressing energy performance and for energy certification of buildings.

LST EN 15217-2007 建筑物的能源性能 表示能源性能和建筑物能源认证的方法

Energy performance of buildings - Methods for expressing energy performance and for energy certification of buildings

BS EN 15217:2007 建筑物能量性能.表示建筑物能量性能和能量认证的方法

This European Standard specifies: a) overall indicators to express the energy performance of whole buildings, including heating, ventilation, air conditioning, domestic hot water and lighting systems. This includes different possible indicators; b) ways to express energy requirements for the design of new buildings or renovation of existing buildings; c) procedures to define reference values; d) ways to design a procedure for building energy certification. The standard can be applied to a group of buildings, if they are on the same lot, if they are serviced by the same technical building systems and if no more than one of them has a conditioned area of more than 1 000 m2. This European Standard provides different options at different levels. When this European Standard is used to set up national or regional methods for expressing energy performance and/or for energy certification of buildings, the choices between the options is not made by the individual user, but by authorized national or regional bodies.

Energy performance of buildings - Methods for expressing energy performance and for energy certification of buildings

BS EN 15026:2007 建筑物构件和建筑物元件的温湿性能.用数值模拟评定潮气传递

This standard specifies the equations to be used in a simulation method for calculating the non steady transfer of heat and moisture through building structures. It also provides a benchmark example intended to be used for validating a simulation method claiming conformity with this standard, together with the allowed tolerances. The equations in this standard take account of the following storage and one-dimensional transport phenomena: • heat storage in dry building materials and absorbed water; • heat transport by moisture-dependent thermal conduction; • latent heat transfer by vapour diffusion; • moisture storage by vapour sorption and capillary forces; • moisture transport by vapour diffusion; • moisture transport by liquid transport (surface diffusion and capillary flow). The equations described in this standard account for the following climatic variables: • internal and external temperature; • internal and external humidity; • solar and longwave radiation; • precipitation (normal and driving rain); • wind speed and direction. The hygrothermal equations described in this standard shall not be applied in cases where: • convection takes place through holes and cracks; • two-dimensional effects play an important part (e.g. rising damp, conditions around thermal bridges, effect of gravitational forces); • hydraulic, osmotic, electrophoretic forces are present; • daily mean temperatures in the component exceed 50 °C.

Hygrothermal performance of building components and building elements - Assessment of moisture transfer by numerical simulation

DIN EN 15026:2007 建筑物构件和组件的温湿性能.用数值模拟评估水分传递

This standard specifies the equations to be used in a simulation method for calculating the non steady transfer of heat and moisture through building structures. It also provides a benchmark example intended to be used for validating a simulation method claiming conformity with this standard, together with the allowed tolerances. The equations in this standard take account of the following storage and one-dimensional transport phenomena: • heat storage in dry building materials and absorbed water; • heat transport by moisture-dependent thermal conduction; • latent heat transfer by vapour diffusion; • moisture storage by vapour sorption and capillary forces; • moisture transport by vapour diffusion; • moisture transport by liquid transport (surface diffusion and capillary flow). The equations described in this standard account for the following climatic variables: • internal and external temperature; • internal and external humidity; • solar and Iongwave radiation; • precipitation (normal and driving rain); • wind speed and direction. The hygrothermal equations described in this standard shall not be applied in cases where: • convection takes place through holes and cracks; • two-dimensional effects play an important part (e.g. rising damp, conditions around thermal bridges, effect of gravitational forces); • hydraulic, osmotic, electrophoretic forces are present; • daily mean temperatures in the component exceed 50 ℃.

Hygrothermal performance of building components and building elements - Assessment of moisture transfer by numerical simulation; German version EN 15026:2007

EN 15217:2007 建筑物能量性能.表示建筑物能量性能和能量认证的方法

This European Standard specifies: a) overall indicators to express the energy performance of whole buildings, including heating, ventilation, air conditioning, domestic hot water and lighting systems.This includes different possible indicators; b) ways to express energy requirements for the design of new buildings or renovation of existing buildings; c) procedures to define reference values; d) ways to design a procedure for building energy certification. The standard can be applied to a group of buildings, if they are on the same lot, if they are serviced by the same technical building systems and if no more than one of them has a conditioned area of more than 1000 m2.This European Standard provides different options at different levels. WhenThis European Standard is used to set up national or regional methods for expressing energy performance and/or for energy certification of buildings, the choices between the options is not made by the individual user, but by authorized national or regional bodies.

Energy performance of buildings - Methods for expressing energy performance and for energy certification of buildings

EN 15026:2007 建筑物构件和建筑物元件的温湿性能.用数值模拟评定潮气传递

This standard specifies the equations to be used in a simulation method for calculating the non steady transfer of heat and moisture through building structures. It also provides a benchmark example intended to be used for validating a simulation method claiming conformity withThis standard, together with the allowed tolerances. The equations inThis standard take account of the following storage and one-dimensional transport phenomena: heat storage in dry building materials and absorbed water; heat transport by moisture-dependent thermal conduction; latent heat transfer by vapour diffusion; moisture storage by vapour sorption and capillary forces; moisture transport by vapour diffusion; moisture transport by liquid transport (surface diffusion and capillary flow). The equations described inThis standard account for the following climatic variables; internal and external temperature; internal and external humidity; solar and longwave radiation; precipitation (normal and driving rain); wind speed and direction. The hygrothermal equations described inThis standard shall not be applied in cases where; convection takes place through holes and cracks; two-dimensional effects play an important part (e. g. rising damp, conditions around thermal bridges, effect of gravitational forces); hydraulic, osmotic, electrophoretic forces are present; daily mean temperatures in the component exceed 50 ℃.

Hygrothermal performance of building components and building elements - Assessment of moisture transfer by numerical simulation

GOST 31166-2003 建筑物和构筑物包层.传热系数热量测定法

Building and structure envelopes. Method for calorimetric determination of the heat transfer coefficient