P04 基础标准与通用方法 标准查询与下载

ASTM C1232-10b 圬工标准术语

1.1 This standard incorporates generic terms and generic definitions of terms specifically associated with manufactured masonry units and masonry constructed with manufactured masonry units. These generic terms and definitions are used within the standards developed by Committee C12 on Mortars and Grouts for Unit Masonry and Committee C15 on Manufactured Masonry Units. 1.2 This standard incorporates terms and definitions of terms associated with the standards specific to clay masonry units, in particular to Specifications C32, C34, C56, C62, C126, C212, C216, C279, C410, C530, C652, C902, C1088, C1167, C1261, C1272, and C1405, and to Test Methods C67. 1.3 This standard incorporates terms and definitions of terms associated with the standards specific to concrete masonry units in particular to Specifications C55, C73, C90, C129, C139, C744, C1319, C1372, C1491, C1623, and C1634 and to Test Methods C140, C426, and C1262. 1.4 This standard incorporates terms and definition of terms associated with the standards specific to autoclaved aerated concrete masonry units in particular to Pra......

Standard Terminology of Masonry

ASTM D7338-10 建筑物中霉菌生长评估指南

This guide presents options for a systematic assessment of fungal growth in buildings. This guide allows for site-specific flexibility and professional judgment in the choice of assessment procedures. It may not be necessary to perform in its entirety the basic assessment presented below to resolve a particular problem, for example, where fungal growth is localized and the source and extent of moisture is readily observable. Conversely, no matter how comprehensive the survey, all fungal growth may not be identified or located in a fungal assessment. Material removal or destructive investigation may be needed to access suspect surfaces. Using the procedures described in this guide, the investigator may have obtained the data necessary to suggest specific recommendations, for example, how to remediate the observed fungal growth, or how to prevent further fungal growth, but those recommendations are beyond the scope of this guide. Precautions may be needed to protect the assessor and building occupants where access may disturb fungal growth. It is the user’s responsibility to protect information that may be considered confidential, or private, or both, in accordance with project contract, corporate protocol, or local, state, and federal regulations, or a combination thereof. It may be necessary to enlist other disciplines or trade expertise to assist in some steps of the assessment, but recommendations of when to enlist and whom to enlist are beyond the scope of this guide.1.1 This guide provides a compendium of information and a menu of options for assessment of fungal growth in buildings, but does not recommend a specific course of action. Due to the wide variety of fungal problems affecting buildings and their occupants, and the wide variety of buildings, it is not possible to describe a set of uniform steps that will always be performed during an assessment (that is, a standard practice); therefore the user of this guide must decide which steps are appropriate for a given situation or building. 1.2 This guide is specific to fungal growth, which is only one potential problem in a building environment. It may be part of, but is not intended to take the place of, a comprehensive indoor air quality investigation. 1.3 This guide describes minimum steps and procedures for collecting background information on a building in question, procedures for evaluating the potential for moisture infiltration or collection, procedures for inspection for suspect fungal growth, and procedures beyond the scope of a basic survey that may be useful for specific problems. 1.4 Assessments for fungal growth may be useful wherever fungal growth is suspected, excess moisture has been present or when there are concerns regarding potential fungal growth. 1.5 Periodic fungal assessment in buildings may be a component of preventative maintenance programs. 1.6 This guide is applicable to buildings including residential (for example, single or multi-family), institutional (for example, schools, hospitals), government, public assembly, commercial (for example, office, retail), and industrial facilities. 1.7 Recommendations for developing a sampling strategy or methods for the collection and analysis of fungal samples are beyond the scope of this guide. For recommendations for developing a sampling strategy, see Ref (27) , Chapter 10. 1.8 Recommendations for remediation of fungal growth are beyond the scope of this guide. 1.9 This guide is not intended to supersede any government regulations governing the assessment of fungal growth in buildings. 1.10 This standard does not purport to address all of the safety concerns, if any, associated with its use. ......

Standard Guide for Assessment Of Fungal Growth in Buildings

ISO/TR 23605:2009 技术产品规范(TPS).应用指南.国家实施用国际模型

Technical product specification (TPS) - Application guidance - International model for national implementation

BS 559:2009 宣传,装饰和一般用途的标志设计和制作规范

This British Standard specifies requirements for the design and construction of signs for publicity, decorative or general purposes, at internal or external locations. It is applicable to illuminated and non‑illuminated signs, fixed or portable. This standard is not applicable to road traffic signs, safety signs or fire safety signs. NOTE Other standards are available for road traffic signs (e.g. BS 8442 and BS EN 12899) and safety signs, including fire safety signs (e.g. BS 5499). Guidance on working with vinyl films is given in Annex A.

Specification for the design and construction of signs for publicity, decorative and general purposes

BIP 2155-2009 技术产品规格基本指南:工程制图

The Essential Guide to Technical Product Specification: Engineering Drawing

CJJ/T 130-2009 燃气工程制图标准

本标准适用于下列燃气工程的手工和计算机制图： 新建、改建、扩建工程的各阶段设计图、竣工图； 既有燃气设施的实测图； 通用设计图、标准设计图。 燃气工程制图除应遵守本标准外，还应符合国家现行有关标准的规定。

Standard of gas engineering drawing

ISO 4354:2009 风力对建筑物的作用

Wind actions on structures

DIN CEN/TS 15810:2009 综合建筑自动化设备用图形符号

Graphical symbols for use on integrated building automation equipment; German version CEN/TS 15810:2008

SANS 3001-AG3:2009 土木工程试验方法.第AG3部分:采用计算法对团聚体的平均最小尺寸测量

Describes a method to determine the average least dimension (ALD) of an aggregate by computation using the particle size analysis and flakiness index.

Civil engineering test methods Part AG3: Determination of the average least dimension of aggregates by computation

SANS 3001-AG2:2009 土木工程试验方法.第AG2部分:采用直接测量法对团聚体的平均最小尺寸测量

Describes a method to determine the average least dimension (ALD) of aggregate by direct measurement.

Civil engineering test methods Part AG2: Determination of the average least dimension of aggregates by direct measurement

SANS 3001-AG1:2009 土木工程试验方法.第AG1部分:骨料颗粒大小筛分分析

Applies to coarse and fine aggregates and describes a method to prepare a test sample and determine the particle size distribution of particles of diameter retained on the 75 鎚 sieve.

Civil engineering test methods Part AG1: Particle size analysis of aggregates by sieving

SANS 3001-AG4:2009 土木工程试验方法.第AG4部分:粗骨料片状指数测定

Specifies a method for determining the flakiness index of coarse aggregate, expressed as the mass of particles of applicable size passing slots with prescribed widths, as a percentage of the total mass of the aggregate. Is conducted on coarse aggregate t

Civil engineering test methods Part AG4: Determination of the flakiness index of coarse aggregate

ANSI/ASTM E2619:2009 建筑物中建筑房屋面积损失性的测量和计算用实施规程

Practice for Measuring and Calculating Building Loss Features that Take Up Floor Area in Buildings

ANSI/ASSE A10.25-2009 施工和拆除操作用环境卫生

This standard shall apply to all construction jobsites where more than four individuals are employed for more than one week. The standard covers potable water, toilet and hand washing facilities located on a jobsite.

Sanitation for Construction and Demolition Operations

GOST R 21.1001-2009 建筑设计文件体系.一般原理

System of design documents for construction. General principles

ASTM E2619/E2619M-09e1 占用一定建筑面积的建筑损失特性的测量和计算标准规程

Use this practice to identify and measure the amount of actual and effective floor area that will be unavailable to occupants for the placement of people’s workplaces, furniture, and equipment or for circulation. Findings from use of this practice are intended for optional inclusion with reports of floor area measured in accordance with Practice E 1836/E 1836M or in accordance with ANSI/BOMA Z65.1–1996. this practice is not intended for use for regulatory purposes, nor for fire hazard assessment, nor for fire risk assessment.1.1 This practice specifies how to measure certain characteristics of a building, known as building loss features, inside the exterior gross area of a floor and how to calculate the amount of actual and effective floor area that will be not be available for the placement of people’s workplaces, furniture, equipment, or for circulation, if using standard furnishings and orthogonal furniture systems. 1.2 This practice can be used to specify a performance requirement to limit the amount of floor area that may be taken up by building loss features. 1.3 This practice can be used to assess how well a design(s) for an office facility meets a performance requirement regarding floor area. 1.4 This practice can be used to assess how well a constructed office building has met a performance requirement regarding floor area. 1.5 This practice is not intended for and not suitable for use for regulatory purposes, fire hazard assessment, and fire risk assessment. 1.6 Users of this practice should recognize that, in some situations, the amount of certain actual and effective floor area losses may be mitigated to some degree at some cost by custom-tailoring spaces and creating specially fitted furnishings and carpentry to get some value from space which would not otherwise be usable. 1.7 The values stated in either SI units or inch-pound units are to be regarded separately as standard. 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. 1.8 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 Measuring and Calculating Building Loss Features That Take Up Floor Area in Buildings

ASTM C1321-09 建筑物内部辐射控制涂层系统(IRCCS)的安装和使用的标准实施规程

This practice recognizes that effectiveness, safety, and durability of an IRCCS depends not only on the quality of the materials, but also on the proper installation. Improper installation of an IRCCS will reduce its thermal effectiveness, cause fire risks and other unsafe conditions, and promote deterioration of the structure in which it is installed. Specific hazards that can result from improper installation include: heat buildup in recessed lighting fixtures, deterioration of failure of electrical wiring components, and deterioration of wood structures and paint failure due to moisture accumulation. This practice provides recommendations for the installation of IRCCS materials in a safe and effective manner. Actual conditions in existing buildings will vary greatly. This practice presents requirements that are general in nature and considered practical. They are not intended as specific recommendations. Consult the manufacturer for recommended application methods. 1.1 This practice has been prepared for use by the designer, specifier, and applicator of IRCCS (Interior Radiation Control Coating Systems) for use in building construction. The scope is limited to recommendations related to the use and installation of IRCCS, including a surface(s) having a far-infrared emittance of 0.25 or less that is sprayed or painted. Some examples that this practice is intended to address include: (1) low emittance surfaces in vented building envelope cavities intended to retard radiant transfer across the vented airspace; (2) low emittance surfaces at interior building surfaces intended to retard radiant transfer to or from building inhabitants; and (3) low emittance surfaces at interior building surfaces intended to reduce radiant transfer to or from heating or cooling systems. See Fig. 1 and Fig. 2 for typical applications. 1.2 This practice covers the installation process from pre-installation inspection through post-installation. It does not cover the production of the Interior Radiation Control Coating Materials. 1.3 This practice is not intended to replace the manufacturer''s installation instructions, but it shall be used in conjunction with such instructions. This practice is not intended to supersede local, state, or federal codes. 1.4 This practice assumes that the installer possesses a good working knowledge of the application codes and regulations, safety practices, tools, equipment, and methods necessary for the installation of Interior Coating Materials. It also assumes that the installer understands the fundamentals of building construction that affect the installation of an IRCCS. 1.5 When the installation or use of Interior Radiation Control Coating Materials, accessories, and systems pose safety or health problems, the manufacturer shall provide the user appropriate current information regarding any known problems associated with the recommended use of the company''s products and shall also recommend protective measures to be employed in their safe utilization. The user shall establish appropriate safety and health practices and determine the applicability of regulatory requirements prior to use. 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 Installation and Use of Interior Radiation Control Coating Systems (IRCCS) in Building Construction

BS DD CEN/TS 15810:2008 综合建筑自动化设备用图形符号

This document provides a synopsis of graphical symbols which are intended to be placed on building equipments and/or technical documentation of products in order to instruct the person(s) using the equipments. These graphical symbols are primary intended:  to identify control or automation or technical management equipments or part of these equipments: electronic devices (e.g. controller, scheduler, optimiser, etc.), sensors, actuators,  to indicate functions and their operating modes,  to indicate settings for modes and functions parameters introduction,  to designate connexions,  to provide instruction to users (professional and/or end user) for the operation of the equipment. The graphical symbols in this document are not primarily intended for:  safety signs,  public information,  schematics for systems principles.

Graphical symbols for use on integrated building automation equipment

BS 6100-5:2009 建筑和土木工程.词汇.土木工程.水工程、环境工程和管线

This part of BS 6100 defines terms for civil engineering that relate to: a) water engineering; b) inland waters, coastal and maritime engineering; c) public health and environmental engineering; d) pipelines and ducts.

Building and civil engineering - Vocabulary Part 5: Civil engineering - Water engineering, environmental engineering and pipelines

BS PD 6688-1-7:2009 BS EN 1991-1-7标准的结构设计建议

This Published Document gives non‑contradictory complementary information for use with BS EN 1991-1-7:2006 and its UK National Annex.

Recommendations for the design of structures to BS EN 1991-1-7