P09 卫生、安全、劳动保护 标准查询与下载

BS 6164:2001 建筑工业中隧道开挖作业安全实用规程

This British Standard makes recommendations for and gives guidance on health and safety practices in shaft sinking and tunnelling. Guidance on health and safety in the maintenance, renovation and repair of shafts and tunnels is also included. The standard includes health and safety recommendations that are also relevant to cut-and-cover tunnelling and immersed tube tunnels. The recommendations are not specifically intended to apply to the construction of shafts or tunnels for the purpose of winning minerals. NOTE 1 The design, manufacture and use of plant and machinery are referred to only where safety considerations are affected. Various European Standards relating to the design of tunnel boring machines (TBMs) are currently in preparation. NOTE 2 A list of current legislation relating to tunnel construction is given in Annex A.

Code of practice for safety in tunnelling in the construction industry

ANSI/ASSE A10.34-2001 施工现场及其邻近公众的保护

This standard provides the recommended elements and activities on construction projects to provide protection for the Public.

Protection of the Public on and Adjacent to Construction Sites

ASTM D6670-01 室内材料/产品排放的挥发性有机物质的全室测定的标准实施规程

1.1 This practice is intended for determining volatile organic compound (VOC) emissions from materials and products (building materials, material systems, furniture, consumer products, etc.) and equipment (printers, photocopiers, air cleaners, etc.) under environmental and product usage conditions that are typical of those found in office and residential buildings.1.2 This practice is for identifying VOCs emitted and determining their emission rates over a period of time.1.3 This practice describes the design, construction, performance evaluation, and use of full-scale chambers for VOC emission testing.1.4 While this practice is limited to the measurement of VOC emissions, many of the general principles and procedures (such as methods for evaluating the general performance of the chamber system) may also be useful for the determination of other chemical emissions (for example, ozone, nitrogen dioxide). Determination of aerosol and particle emissions is beyond the scope of this document.

Standard Practice for Full-Scale Chamber Determination of Volatile Organic Emissions from Indoor Materials/Products

ASTM E2121-01 在已有的低层住宅建筑中安装氡减轻系统的标准实施规程

1.1 This practice describes methods for reducing radon entry into existing attached and detached residential buildings three stories or less in height. This practice is intended for use by trained, certified or licenced, or both, or otherwise qualified individuals.1.2 These methods are based on radon mitigation techniques that have been effective in reducing radon levels in a wide range of residential buildings and soil conditions. These fan powered mitigation methods are listed in Appendix X1. More detailed information is contained in references cited throughout this practice.1.3 This practice is intended to provide radon mitigation contractors with a uniform set of practices that will ensure a high degree of safety and the likelihood of success in retrofitting low rise residential buildings with radon mitigation systems.1.4 The methods described in this practice apply to currently occupied or formerly occupied residential buildings, including buildings converted or being converted to residential use, as well as, residential buildings changed or being changed by addition(s), or alteration(s), or both. The radon reduction activities performed on new dwellings, while under construction, before occupancy, and for up to one year after occupancy, are covered by Guide E1465. 1.5 This practice also is intended as a model set of practices, which can be adopted or modified by state and local jurisdictions, to fulfill objectives of their specific radon contractor certification or licensure programs. Radon mitigation performed in accordance with this practice is considered ordinary repair.1.6 The methods addressed in this practice include the following categories of contractor activity: general practices, building investigation, systems design, systems installation, materials, monitors and labeling, post-mitigation testing, and documentation.1.7 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. See Section 6 for specific safety hazards.

Standard Practice for Installing Radon Mitigation Systems in Existing Low-Rise Residential Buildings

JGJ 128-2000 建筑施工门式钢管脚手架安全技术规范

Technical code for safety of frame scaffoldings with steel tubules in construction

ANSI A10.42-2000 建筑工业中起重设备的合格鉴定和可靠性

This standard establishes minimum criteria of knowledge and performance requirements for a qualified rigger in the construction industry. It is designed to assist in achieving reasonable safety of all persons and materials during the process of or as the

Rigging Qualifications and Responsibilities in the Construction Industry

ASTM F2006-00 非紧急出口和营救窗口用窗下落防护装置的标准安全规范

1.1 This safety specification establishes requirements for devices intended to address the risk of injury and death associated with accidental falls from windows by children five years old and younger.1.2 This safety specification applies only to window fall prevention devices that are to be used on windows that are not intended for escape (egress) and rescue (ingress).Note 1Provisional Safety Specification PS120 addresses window fall prevention devices (releasable) for windows intended for emergency escape and rescue and any other window not covered by this standard.1.3 This safety specification applies only to devices intended to be applied to windows installed at heights of more than 75 ft (23 m) above ground level in multiple family dwelling buildings. This safety specification is not intended to apply to windows below 75 ft (23 m) because all windows below 75 ft (23 m) that are operable could be used as a possible secondary means of escape.This standard does not purport to address all 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 to determine the applicability of regulatory limitations prior to use.1.4 The values stated in inch-pound units are to be regarded as the standard. The SI values given in parentheses are for information only.

Standard Safety Specification for Window Fall Prevention Devices for Non-Emergency Escape (Egress) and Rescue (Ingress) Windows

ASTM F2006-00(2005) 非紧急出口和营救窗口用窗下落防护装置的标准安全规范

1.1 This safety specification establishes requirements for devices intended to address the risk of injury and death associated with accidental falls from windows by children five years old and younger.1.2 This safety specification applies only to window fall prevention devices that are to be used on windows that are not intended for escape (egress) and rescue (ingress).Note 1Provisional Safety Specification PS120 addresses window fall prevention devices (releasable) for windows intended for emergency escape and rescue and any other window not covered by this standard.1.3 This safety specification applies only to devices intended to be applied to windows installed at heights of more than 75 ft (23 m) above ground level in multiple family dwelling buildings. This safety specification is not intended to apply to windows below 75 ft (23 m) because all windows below 75 ft (23 m) that are operable could be used as a possible secondary means of escape.This standard does not purport to address all 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 to determine the applicability of regulatory limitations prior to use.1.4 The values stated in inch-pound units are to be regarded as the standard. The SI values given in parentheses are for information only.

Standard Safety Specification for Window Fall Prevention Devices for Non-Emergency Escape (Egress) and Rescue (Ingress) Windows

DB50/ 5010-1999 白蚁防治施工技术规程

本标准规定了建筑物白蚁防治、堤坝白蚁防治、林木白蚁灭治的施工技术及其质量要求。本标准适用于建筑物、堤坝、林木等受白蚁、散白蚁、黑翅土白蚁危害的预防和灭治。

The technical regulation for termite control construction

JGJ 59-1999 建筑施工安全检查标准

Standard for safety inspection of building construction

HB 10166-1999 作业安全.第5版

Safety at Work - 5th edition

BOCA CHAPTER 7 NFPC-1999 应急规划和准备

To serve governmental units, code administration personnel, and related building industry professionals by providing authoritative technical, educational and informational services relating to all specialty mas of code administration and enforcement.

Emergency Planning and Preparedness

BS 5607:1998 建筑业爆炸物安全使用的实用规程

Provides general and special use recommendations for good practice in the handling, transport and storage of explosives. Legislative aspects, the management of safety and training needs are emphasised.

Code of practice for the safe use of explosives in the construction industry

ANSI A10.7-1998 建筑施工和拆除.商业炸药和起爆剂.运输、存储、装卸和使用的安全要求

Provides the construction industry with reasonable minimum recommendations for establishing and maintaining a level of health and safety with regard to the transportation, storage, handling, and use of commercial explosives and blasting agents.

Commercial Explosives and Blasting Agents - Safety Requirements for Transportation, Storage, Handling and Use

ANSI/ASSE A10.12-1998 挖土的安全性要求

Safety Requirements for Excavation

DL 5061-1996 水利水电工程劳动安全与工业卫生设计规范

Design code for labour safety and industrial sanitation of water conservancy and hydropower projects

ASTM E1851-97 持久刚性墙重新定位结构电磁遮蔽功效的标准试验方法

1.1 The test method described in this standard can be used to determine the electromagnetic shielding effectiveness of durable relocatable shielded enclosures. 1.1.1 The intended application of this test method is for virgin shielded enclosures that do not have any equipment or equipment racks. It is recommended that tests be conducted before the interior finish work begins. However, the shield assembly including all enclosure penetrations shall be completed and required penetration protection devices shall be installed in accordance with the design specification. The test method can also be used on existing shielded enclosures after repair work is done to verify workmanship, but it may be necessary to remove equipment or equipment racks to gain access to a test area. 1.1.2 The test procedures delineated in this document are comprehensive and may require several days to complete for a room-size shielded enclosure. A user can apply this test method for a first article test that requires proof of concept and validation of design and fabrication technique. Appendix B provides guidance in choosing test points so shielding effectiveness tests on a room-size shielded enclosure may be completed in about one-half day for which it applies to shielded enclosures coming off an assembly line. 1.2 This test method is for use in the following frequency ranges: 140 to 160 kHz, 14 to 16 MHz, 300 to 500 MHz, 900 to 1000 MHz, and 8.5 to 10.5 GHz. Specific test frequencies within these ranges are required (see 10.1.1 and 10.2.1). Additional measurements in the range of 10 kHz to 10.5 GHz may be performed. For specific applications, the frequency range may be extended from 50 Hz to 40 GHz. Appendix A provides guidance on selecting measurement frequencies. 1.3 This test method is not applicable to individual components such as separate walls, floors, ceilings, or shielded racks. 1.4 This standard may involve hazardous materials, operations, equipment, or any combination. 1.5 The values stated in SI units are to be regarded as the standard. The values in parentheses are for information only. 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 Test Method for Electromagnetic Shielding Effectiveness of Durable Rigid Wall Relocatable Structures

ASTM D5116-97 小型环境室室内装修材料/产品有机物排放量测定的标准导则

1.1 The use of small environmental test chambers to develop emission characteristics of indoor materials and products is still evolving. Modifications and variations in equipment, testing procedures, and data analysis are made as the work in the area progresses. Until the interested parties agree upon standard testing protocols, differences in approach will occur. This guide will provide assistance by describing equipment and techniques suitable for determining organic emissions from indoor materials. Specific examples are provided to illustrate existing approaches; these examples are not intended to inhibit alternative approaches or techniques that will produce equivalent or superior results. 1.2 Small chambers have obvious limitations. Normally, only samples of larger materials (for example, carpet) are tested. Small chambers are not applicable for testing complete assemblages (for example, furniture). Small chambers are also inappropriate for testing combustion devices (for example, kerosene heaters) or activities (for example, use of aerosol spray products). For some products, small chamber testing may provide only a portion of the emission profile of interest. For example, the rate of emissions from the application of high solvent materials (for example, paints and waxes) via brushing, spraying, rolling, etc. are generally higher than the rate during the drying process. Small chamber testing can not be used to evaluate the application phase of the coating process. 1.3 The guide does not provide specific guidance for determining emissions of formaldehyde from pressed wood products, since large chamber testing methods for such emissions are well developed and widely used. It is possible, however, that the guide could be used to support alternative testing methods. 1.4 While the ultimate purpose of any evaluation of indoor materials is to determine whether the emissions can contribute to health or comfort problems, this guide is only applicable to the determination of the emissions themselves. The effect of the emissions (for example, toxicity) is beyond the scope of the guide. 1.5 As an ASTM guide, options are described, but specific courses of action are not recommended. The purpose of this guide is to increase the awareness of the user to available techniques for evaluating organic emissions from indoor materials/products via small chamber testing and to provide information from which subsequent evaluation and standardization can be derived. 1.6 Within the context of the limitations discussed in this section, the purpose of this guide is to describe the methods and procedures for determining organic emission rates from indoor materials/products using small environmental test chambers. The techniques described are useful for both routine product testing by manufacturers and testing laboratories and for more rigorous evaluation by indoor air quality (IAQ) researchers. Appendix X1 provides additional references for readers wishing to supplement the information contained in this guide. 1.7 The values stated in SI units are to be regarded as standard. 1.8 This standard does not purport to address the safety problems 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 Guide for Small-Scale Environmental Chamber Determinations of Organic Emissions from Indoor Materials/Products

DL/T 5053-1996（条文说明） 火力发电厂劳动安全和工业卫生设计规程

Design code of labour safety and industrial hygiene for fossil fuel power plants(explanation)

BS 8008:1996 打桩工程及其它目的用机械钻孔轴结构及坡道安全防护和制造程序

Guidance on safety and procedures to be taken where it is required to lower personnel into a shaft greater than 750 mm diameter.

Safety precautions and procedures for the construction and descent of machine-bored shafts for piling and other purposes