1、Printed in U.S.A.A SS EAMERICAN SOCIETY OFSAFETY ENGINEERSAMERICAN NATIONAL STANDARDANSI/ASSE A10.13 2011American National Standardfor Construction and Demolition OperationsANSI/ASSE A10.13 2011ANSI/ASSE A10.13 2011Safety Requirementsfor Steel ErectionThe information and materials contained in this
2、publication have been developed from sources believed to be reliable. However, the American Society of Safety Engineers (ASSE) as secretariat of the ANSI accredited A10 Committee or individual committee members accept no legal responsibility for the correctness or completeness of this material or it
3、s application to specific factual situations. By publication of this standard, ASSE or the A10 Committee does not ensure that adherence to these recommendations will protect the safety or health of any persons, or preserve property. ANSI ANSI/ASSE A10.13 2011 American National Standard Construction
4、and Demolition Operations Safety Requirements for Steel Erection Secretariat American Society of Safety Engineers 1800 East Oakton Street Des Plaines, Illinois 60018-2187 Approved: April 21, 2011 Effective Date: August 15, 2011 American National Standards Institute, Inc. Approval of an American Nati
5、onal Standard requires verification by ANSI that the requirements for due process, consensus, and other criteria for approval have been met by the standards developer. Consensus is established when, in the judgment of the ANSI Board of Standards Review, substantial agreement has been reached by dire
6、ctly and materially affected interests. Substantial agreement means much more than a simple majority, but not necessarily unanimity. Consensus requires that all views and objections be considered, and that a concerted effort be made toward their resolution. The use of American National Standards is
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9、ion should be addressed to the secretariat or sponsor whose name appears on the title page of this standard. Caution Notice: This American National Standard may be revised or withdrawn at any time. The procedures of the American National Standards Institute require that action be taken periodically
10、to reaffirm, revise, or withdraw this standard. Purchasers of American National Standards may receive current information on all standards by calling or writing the American National Standards Institute. Published May, 2011 by: American Society of Safety Engineers 1800 East Oakton Street Des Plaines
11、, Illinois 60018-2187 (847) 699-2929 www.asse.org Copyright 2011 by the American Society of Safety Engineers All Rights Reserved. No part of this publication may be reproduced in any form, in an electronic retrieval system or otherwise, without the prior written permission of the publisher. Printed
12、in the United States of America American National Standard Foreword (This Foreword is not a part of American National Standard A10.13-2011.) This standard is one of a series of safety standards that have been formulated by the Accredited Standards Committee on Safety in Construction and Demolition O
13、perations, A10. It is expected that the standards in the A10 series will find a major application in industry, serving as a guide to contractors, labor, and equipment manufacturers. For the convenience of users, a list of existing and proposed standards in the A10 series for Safety Requirements in C
14、onstruction and Demolition Operations follows. A10.1 Pre-Project/Pre-Task Safety a walking/working surface; a form for concrete slabs; a support for roofing systems; and a finished floor or roof. 3.36 Mill Work. Work performed in operating industrial plants. 3.37 Multiple Lift Rigging. A rigging ass
15、embly manufactured by wire rope rigging AMERICAN NATIONAL STANDARD A10.13-2011 14 suppliers or assembled by a competent person that facilitates the attachment of up to five independent loads to the hoist rigging of a crane. 3.38 Opening. A void or gap 30 or more inches (76.2cm) high and 18 or more i
16、nches (45.7cm) wide in a vertical surface such as a wall or partition through which people may fall. 3.39 Permanent Floor. A structurally completed floor at any level or elevation (including slab on grade). 3.40 Personal Fall Arrest System. A system used to arrest an employee in a fall from a workin
17、g level. A personal fall arrest system consists of an anchorage, connectors, body harness and may include a lanyard, deceleration device, lifeline or suitable combination of these. 3.41 Pre-Engineered Metal Building. A field-assembled building system consisting of framing, roof and wall coverings, a
18、nd generally made of steel. Typically, in a pre-engineered metal building, many of these components are cold-formed shapes. These individual parts are fabricated in one or more manufacturing facilities and shipped to the job site for assembly into the final structure. Engineering design of the syste
19、m is normally the responsibility of the pre-engineered metal building manufacturer. 3.42 Project Structural Engineer of Record. The registered, licensed professional responsible for the design of structural steel framing and whose seal appears on the structural contract documents. 3.43 Purlin (in Pr
20、e-Engineered Metal Buildings). A “Z” or “C” shaped member formed from sheet steel spanning between primary framing and supporting roof material. 3.44 Qualified Person. One who, by possession of a recognized degree, certificate or professional standing, or who by extensive knowledge, training and exp
21、erience, has successfully demonstrated the ability to solve or resolve problems relating to the subject matter, the work, or the project. 3.45 Safety Deck Attachment. An initial attachment that is used to secure an initially placed sheet of decking to keep proper alignment and bearing with structura
22、l support members. 3.46 Seat. A structural attachment mounted to a structural member beneath a connection point, designed to support an incoming member that is to be connected to the first member. 3.47 Shear Connector. Headed steel studs, steel bars, steel lugs and similar devices, which are attache
23、d to a structural member for the purpose of achieving composite action with concrete. 3.48 Skip Box. A container to hold and transport material and equipment. Usually an open top with rigging to maintain its levelness when being hoisted. 3.49 Snug Tight. The full effort of a person using a spud wren
24、ch. 3.50 Softener. Material that is used to protect slings and equipment from damage. 3.51 Sorting Hooks. Hooks on rigging (spreaders) that have long tapered ends so as to fit into bolt holes for lifting material during a sorting operation. Usually there is no safety latch and therefore they are not
25、 used for hoisting. 3.52 Spud Wrench. An open-end wrench made of steel with a tapered handle approximately 12 inches (30.5cm) long. 3.53 Steel Erection. The process of installing, handling, fitting, fastening, AMERICAN NATIONAL STANDARD A10.13-2011 15 reinforcing and dismantling structural steel, st
26、eel plate, steel joists and metal deck at the final in-place field site during construction, maintenance and dismantling operations. 3.54 Steel Joist Girder. An open web, primary load-carrying member, designed by the manufacturer, suitable for the support of floors and roofs. This does not include s
27、tructural steel trusses. 3.55 Steel Joist. An open web, secondary load-carrying member of 144 feet (43.9m) or less suitable for the support of floors and roofs. This does not include structural steel trusses or cold-formed joists. 3.56 Steel Truss. An open web member designed of structural steel com
28、ponents by the project structural engineer of record. For the purposes of this standard, a steel truss is considered equivalent to a solid web structural member. 3.57 Tag Line. A line that is used to control a load. 3.58 Tier Building. A multiple-story building. 3.59 Unprotected Sides and Edges. Any
29、 side or edge (except at entrances to points of access) of a walking/working surface, e.g., floor, roof, ramp or runway, where there is no wall or guardrail system at least 39 inches (1.0m) high. 3.60 Working Floor. An elevated floor of a building or structure that has been designated to receive hoi
30、sted pieces of steel or fasteners prior to final placement of same. 4. JOB PLANNING 4.1 Survey of Work to Be Per-formed. Prior to the start of work, the steel erector shall make a survey of the work to be done. 4.1.1 Safe Access and Movement. 1. Workers. The following items shall be considered in th
31、e survey: a. Work area. b. Walkways, runways and passageways. c. Ladders, stairways and elevators. d. Illumination. e. Fire protection and evac-uation routes. f. Overhead protection, i.e., items falling on workers below. g. Scaffolding and aerial lifts. h. Crane suspended work platforms. i. Personal
32、 protective equipment. j. Hoisting equipment (ANSI B30.5, Mobile and Locomotive Cranes). k. Rigging apparatus. l. Assembly or disassem-bly. m. Public safety (ANSI/ ASSE A10.34). 2. Vehicles. The following items shall be considered in the survey: a. Roads. b. Turn space. c. Parking space. d. Mud area
33、s. e. Ramps. f. Signs and signals to route vehicles on the job site. g. Provision for mainte-nance and repair of vehicles. h. Provisions for safe con-duct of pedestrian and vehicular traffic at entrances and exits to public thoroughfares. i. Crane access and set up. AMERICAN NATIONAL STANDARD A10.13
34、-2011 16 3. Existing Utilities, Structures and Services. The following items shall be considered in the survey: a. Underground structures such as, vaults, pipelines, sewer lines and electrical lines. b. Overhead electrical lines and pipelines and the clearance required. c. Surface utilities particu-
35、larly overhead crane electrical conductors, ser-vice feeders, gas and other pipelines. 4. Other Site Conditions. The following items shall be considered in the survey: a. Lay-down area for struc-tural steel. b. Storage area for: - Tools and equipment. - Consumables. - Fasteners. - Fuel and combustib
36、les. - Paint or other coatings. - Trash storage prior to removal. 4.2 Site Specific Safety Plan. After a thorough survey is performed, a plan shall be developed to protect the employees. The plan shall also be developed to protect others where applicable. The plan shall include appropriate action/in
37、struction for all application of the material outlined in Section 4.1. 4.3 Pre-Construction Meeting. A pre-construction meeting shall be held between the controlling contractor and the erector before the erection begins. The purpose of the conference is to review the erection plan and site condition
38、s and the safe operation of the project. 4.4 Commencement of Steel Erection. The controlling contractor shall ensure that the steel contractor is provided the following before the commencement of steel erection: 1. Concrete in the footings, piers and walls and the mortar in the masonry piers and wal
39、l have attained at least 75% of the attended minimum compression design strength. 2. Any repairs, replacements and modifications to the anchor bolts were approved by the structural engineer of record. 5. GENERAL 5.1 Workers and Supervisors. Arrangements shall be provided for the following: 1. Safety
40、 and health training in the recognition and avoidance of hazards. The safety plan shall be communicated to all workers and supervisors. 2. Stimulating and maintaining interest in safety through: a. Recognition for groups or individuals with excellent safety performance. b. Investigation and report-i
41、ng of incidents and near misses. c. Promotion of knowledge of safety rules and regu-lations. d. Regularly scheduled safety meetings. e. Specific safety instruc-tions for new employees prior to job or work assignment. 3. Necessary temporary build-ings, change houses, sanitary facilities and drinking
42、water. AMERICAN NATIONAL STANDARD A10.13-2011 17 4. Adequate emergency treat-ment of injured or ill employees. Qualified and trained first-aid personnel shall be available on site or in the near vicinity. 5.2 Communications. The controlling contractor shall coordinate the activities of all entities
43、connected with the project. 6. STRUCTURES 6.1 Buildings. 6.1.1 Permanent floors shall be installed as soon as possible as the erection of structural steel members progresses. The sequence of erection, bolting, temporary guying, riveting and welding shall be such as to maintain the stability of the s
44、tructural frame at all times during the construction. Consideration shall be given to the dead weight of the structure, the weight and working reactions of all construction equipment placed thereon, and all external forces that may be applied. 6.1.2 The floor shall be planked or decked or netted as
45、outlined in Section 10. 6.1.3 Where planking or safety nets would interfere with the erection of a structure, the use of safety harnesses with lanyards or other fall arrest systems shall be accepted as alternative protection. 6.1.4 In elevator shafts, a tight platform of planks or other barrier as o
46、utlined in Section 10 shall be installed not more than two stories or 30 feet (9.1m), whichever is less, below the level at which people are working. 6.1.5 During the construction of a multi-tiered building, there shall be at least two stairways or a personnel hoist complying with the requirements o
47、f ANSI/ASSE A10.4, Safety Requirements for Personnel Hoists and Employee Elevators for Construction and Demolition Operations, installed to within four floors or 60 feet (18.3m) (whichever is less) of the uppermost working floor. Stairways shall not be located adjacent to each other, but shall be no
48、 more than 150 feet (45.7m) apart. A stairway may consist of steel scaffold with stairs. 6.1.6 Temporary stairways shall have treads constructed of wood planks not less than 2 x 10 inches (5.1cm x 25.4cm) in size, or of metal, not less than 10 inches (25.4cm) in width, of equivalent strength. Such t
49、emporary stairways shall not be less than 3 feet (.9m) in width, rigidly braced, and of sufficient strength to support a load of 100 pounds per square foot (488.2kg per square meter). 6.1.7 Stairways with steel treads, pan type stairs and landings without permanent surfaces, or both, shall be provided with adequate wooden treads, grating and landings fitted securely in place to eliminate tripping hazards. Stairways that are not safe or ready for pedestrian traffic shall be barricaded to prevent usage. 6.1.8 Every stairway shall be provided with handrails on both sides of a heigh