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FCIA Firestop Manual of Practice, Complete Edition
FCIA Firestop Manual of Practice, Complete Edition Chapter 6 6.1 Introduction and Background This Page Intentionally Left Blank 6.2 Scope of Work & Responsibilities 6.3 Special Inspection Process 6.4 Documentation & Firestopping Maintenance 6.5 Firestop Inspection Agency Accreditation & Individual Competence Requirements 6.6 Supplemental Resources FCIA Firestop Manual of Practice Chapter 6, Section 1, Page 1 Revision Date: January, 2018 This Page Intentionally Left Blank FCIA Firestop Manual of Practice Chapter 6, Section 1 Introduction and Background Firestop Inspections—Introduction Firestop inspection is an important part of the total installation process for firestopping. The true cost of firestopping is the price to purchase materials, transport both material and people to the jobsite, install and quality control a firestop installation that becomes a system when installed to the listing and manufacturers installation instructions. Firestopping inspection can be performed to ASTM E 2174, Standard Practice for On-Site Inspection of Installed Firestops and ASTM E 2393, Standard Practice for the On-Site Inspection of Installed Fire-Resistive Joint Systems and Perimeter Fire Barriers or other methods. In this document there is information about when the ASTM Firestop Inspection Standards are used, why inspection takes place, possible methods, and much more. This Page Intentionally Left Blank Key elements to firestop inspection include and are not limited to: • ASTM E 2174, ASTM E 2393 Firestop Inspection Standards. • Listings from an Approved Source such as UL, FM Approvals, Intertek or other testing laboratory directory. • Guide Information from the directory that might be used during the installation and inspection. • Engineering Judgements or Equivalent Fire-Resistance-Rated Assemblies (EFRRA’s). -
Firestopping Plastic Pipes
Firestopping Plastic Pipes The Right Products With The Right Installation A Properly Designed Smoke Seal Stops All The Smoke! Designs And Methods Make Protection Of Combustible Penetrants Smoke Safe And Easy! Seal The use of plastic pipes in construction is increasing with each passing year. Most people are aware of the economies of using plastic pipes as well as some of the benefits... Plastic pipes are easier to install. They are significantly lighter in weight and they are durable in that they won’t Smoke Seals built into the collar may cut off This design places the seal at the top of the open- rust or corrode. The down side is smoke from the room below, but will not stop the ing, above the area of the pipe that is burning. smoke eminating from the burning pipe itself. This not only prevents the passage of smoke that these pipes are combustible from the room below, but also from the decom- and can pose a fire hazard if not position of the pipe itself! properly firestopped! Understanding The Hazards: Plastic pipes when How Intumescent Materials Work: It’s important to exposed to fire will react differently according to the type understand how intumescent materials function when of material they are made from. Some will soften and designing a firestop system. Intumescent materials then char as the fire progresses. Others will soften and contain ingredients that expand and increase in volume melt. If not properly firestopped, these pipes may burn as they are heated. This increase in volume is used to out and leave a passage for fire into adjoining rooms and exert pressure on surrounding surfaces to help fill voids cause a fire to quickly propagate. -
Effect of Fire-Retardant Coatings and Accelerated-Weathering on the Flammability of Wood-Based Materials in Wildland-Urban Interface (WUI) Communities
NIST Technical Note 2094 Effect of Fire-Retardant Coatings and Accelerated-Weathering on the Flammability of Wood-Based Materials in Wildland-Urban Interface (WUI) Communities Laura Dubrulle Mauro Zammarano Rick D. Davis This publication is available free of charge from: https://doi.org/10.6028/NIST.TN.2094 NIST Technical Note 2094 Effect of Fire-Retardant Coatings and Accelerated-Weathering on the Flammability of Wood-Based Materials in Wildland-Urban Interface (WUI) Communities Laura Dubrulle Mauro Zammarano Rick D. Davis Fire Research Division Engineering Laboratory This publication is available free of charge from: https://doi.org/10.6028/NIST.TN.2094 May 2020 U.S. Department of Commerce Wilbur L. Ross, Jr., Secretary National Institute of Standards and Technology Walter Copan, NIST Director and Undersecretary of Commerce for Standards and Technology Certain commercial entities, equipment, or materials may be identified in this document in order to describe an experimental procedure or concept adequately. Such identification is not intended to imply recommendation or endorsement by the National Institute of Standards and Technology, nor is it intended to imply that the entities, materials, or equipment are necessarily the best available for the purpose. National Institute of Standards and Technology Technical Note 2094 Natl. Inst. Stand. Technol. Tech. Note 2094, 30 pages (May 2020) CODEN: NTNOEF This publication is available free of charge from: https://doi.org/10.6028/NIST.TN.2094 Abstract A study of a limited number of commercial fire-retardant coatings (FRCs) designed for wood in outdoor applications, film-forming or non-film forming (stains), and top-coatings (used in combination with a FRC to increase its durability) were characterized by microscale combustion calorimetry (MCC) and cone calorimetry (50 kW/m2). -
Passive Fire Protection Intumescent Vs
Passive Fire Protection Intumescent Vs. Lightweight Cementitious Passive Fire Protection Intumescent Vs Lightweight Cementitious The refi nery environment exposes assets to highly fl ammable commodities, corrosive chemical attack, high pressure, and a broad range of operating temperatures from cryogenic to elevated. To mitigate the risk of loss of life, assets and production from a rapid rise hydrocarbon fi re, an investment in FIRETEX® epoxy intumescent fi reproofi ng will provide asset owners with long life protection with little or no maintenance, which is a business necessity. For decades, the standard approach to fi re protection has been with cementitious fi reproofi ng. Oil and gas processing facilities have recognised that this approach proves to be of high maintenance, short life cycle, provides little to no corrosion protection, and conceals corrosion under fi reproofi ng (CUF). Lightweight cementitious fi reproofi ng requires continued maintenance every three to fi ve years. The porosity of concrete and cracks provide avenues for moisture and contaminates to penetrate leading to degradation of the asset and a compromised fi reproofi ng system. Remove the unnecessary risks! There is a better, proven Lloyd’s Register, Det Norske Veritas, ABS and UL. You can be way to maintain your fi reproofi ng – one that prevents corrosion confi dent that FIRETEX® products meet the most stringent rather than contributing to it. Sherwin-Williams’ world-respected industry test standards for jet fi re, pool fi re, boiling liquid, FIRETEX® series of intumescent coatings is formulated with expanding vapour explosion, and blast resistance. high quality corrosion-resistant resins. The number one FIRETEX® epoxy coatings offer a high performance system that permanent solution for anti-corrosion passive fi re protection will last the design life of the asset with minimal maintenance. -
Localized Fire Protection Assessment for Vehicle Compressed Hydrogen Containers DISCLAIMER
DOT HS 811 303 March 2010 Localized Fire Protection Assessment for Vehicle Compressed Hydrogen Containers DISCLAIMER This publication is distributed by the U.S. Department of Transportation, National Highway Traffic Safety Administration, in the interest of information exchange. The opinions, findings, and conclusions expressed in this publication are those of the authors and not necessarily those of the Department of Transportation or the National Highway Traffic Safety Administration. The United States Government assumes no liability for its contents or use thereof. If trade names, manufacturers’ names, or specific products are mentioned, it is because they are considered essential to the object of the publication and should not be construed as an endorsement. The United States Government does not endorse products or manufacturers. 1. Report No. 2. Government Accession No. 3. Recipient's Catalog No. DOT HS 811 303 4. Title and Subtitle 5. Report Date Localized Fire Protection Assessment for Vehicle Compressed Hydrogen Containers March 2010 6. Performing Organization Code NHTSA/NVS-321 7. Author(s) 8. Performing Organization Report No. Craig Webster – Powertech Labs, Inc. 9. Performing Organization Name and Address 10. Work Unit No. (TRAIS) 11. Contract or Grant No. 12. Sponsoring Agency Name and Address 13. Type of Report and Period Covered National Highway Traffic Safety Administration Final 1200 New Jersey Avenue SE. 14. Sponsoring Agency Code Washington, DC 20590 15. Supplementary Notes 16. Abstract Industry has identified localized flame impingement on high pressure composite storage cylinders as an area requiring research due to several catastrophic failures in recent years involving compressed natural gas (CNG) vehicles. Current standards and regulations for CNG cylinders require an engulfing bonfire test to assess the performance of the temperature activated pressure relief device (TPRD). -
Section 230517
NORTHWESTERN UNIVERSITY PROJECT NAME ____________ FOR: ___________ JOB # ________ ISSUED: 03/29/2017 SECTION 23 0517 - SLEEVES AND SLEEVE SEALS FOR HVAC PIPING PART 1 - GENERAL 1.1 RELATED DOCUMENTS A. Drawings and general provisions of the Contract, including General and Supplementary Conditions and Division 01 Specification Sections, apply to this Section. 1.2 SUMMARY A. Section Includes: 1. Sleeves. 2. Sleeve-seal systems. 3. Sleeve-seal fittings. 4. Grout. 1.3 ACTION SUBMITTALS A. Product Data: For each type of product indicated. PART 2 - PRODUCTS 2.1 SLEEVES A. Cast-Iron Wall Pipes: Cast or fabricated of cast or ductile iron and equivalent to ductile-iron pressure pipe, with plain ends and integral waterstop unless otherwise indicated. B. Galvanized-Steel Wall Pipes: ASTM A 53/A 53M, Schedule 40, with plain ends and welded steel collar; zinc coated. C. Galvanized-Steel-Pipe Sleeves: ASTM A 53/A 53M, Type E, Grade B, Schedule 40, zinc coated, with plain ends. D. Galvanized-Steel-Sheet Sleeves: 0.0239-inch (0.6-mm) minimum thickness; round tube closed with welded longitudinal joint. E. Molded-PE or -PP Sleeves: Removable, tapered-cup shaped, and smooth outer surface with nailing flange for attaching to wooden forms. 2.2 SLEEVE-SEAL SYSTEMS A. Manufacturers: Subject to compliance with requirements, provide products by one of the following: SLEEVES AND SLEEVE SEALS FOR HVAC PIPING 23 0517 - 1 NORTHWESTERN UNIVERSITY PROJECT NAME ____________ FOR: ___________ JOB # ________ ISSUED: 03/29/2017 1. Advance Products & Systems, Inc. 2. CALPICO, Inc. 3. Metraflex Company (The). 4. Pipeline Seal and Insulator, Inc. -
Guideline on Through Penetration Firestopping
GUIDELINE ON THROUGH-PENETRATION FIRESTOPPING SECOND EDITION – AUGUST 2007 SHEET METAL AND AIR CONDITIONING CONTRACTORS’ NATIONAL ASSOCIATION, INC. 4201 Lafayette Center Drive Chantilly, VA 20151-1209 www.smacna.org GUIDELINE ON THROUGH-PENETRATION FIRESTOPPING Copyright © SMACNA 2007 All Rights Reserved by SHEET METAL AND AIR CONDITIONING CONTRACTORS’ NATIONAL ASSOCIATION, INC. 4201 Lafayette Center Drive Chantilly, VA 20151-1209 Printed in the U.S.A. FIRST EDITION – NOVEMBER 1996 SECOND EDITION – AUGUST 2007 Except as allowed in the Notice to Users and in certain licensing contracts, no part of this book may be reproduced, stored in a retrievable system, or transmitted, in any form or by any means, electronic, mechanical, photocopying, recording, or otherwise, without the prior written permission of the publisher. FOREWORD This technical guide was prepared in response to increasing concerns over the requirements for through-penetration firestopping as mandated by codes, specified by system designers, and required by code officials and/or other authorities having jurisdiction. The language in the model codes, the definitions used, and the expectations of local code authorities varies widely among the model codes and has caused confusion in the building construction industry. Contractors are often forced to bear the brunt of inadequate or confusing specifications, misunderstandings of code requirements, and lack of adequate plan review prior to construction. This guide contains descriptions, illustrations, definitions, recommendations on industry practices, designations of responsibility, references to other documents and guidance on plan and specification requirements. It is intended to be a generic educational tool for use by all parties to the construction process. Firestopping Guideline • Second Edition iii FIRE AND SMOKE CONTROL COMMITTEE Phillip E. -
USG Firecode® Compound Submittal Sheet (English)
USG Interior Panel & SUBMITTAL SHEET Finishing Solutions USG SHEETROCK® BRAND FIRECODE® COMPOUND High-performance, economical fi restop material eff ectively stops spread of fi re and smoke at through-penetrations • Eff ective in numerous UL systems for through-penetrations and head-of-wall applications • Enhances smoke and fi re protection in curtain wall safi ng applications of Thermafi ber® Life-Safety Fire Containment System • Fast and easy to mix and apply • Distinctive red color makes inspection and installation confi rmation easy • GREENGUARD Gold certifi ed and qualifi es as a low VOC emitting material (CDPH Standard Method V1.1, also known as CA Section 01350) DESCRIPTION Cost Eff ective. USG Sheetrock® Brand Firecode® Compound is more economical than competitive products, especially for large-scale jobs with lots of diff erent penetrations. Intumescent materials can cost as much as 600% higher. Less Waste. Caulking tube products are frequently discarded with some compound left, leaving costly waste. With USG Sheetrock® Brand Firecode Compound, you mix only what’s needed for the application at hand (mix powder-type with water). Surface Burning Characteristics. Flame spread 0, smoke developed 0, when tested in accordance with UL ASTM E84. Nontoxic. There are no silicones, solvents, halogens, PCBs, asbestos or inorganic fi bers of any kind. Rated nontoxic in accordance with the sixth draft of the University of Pittsburgh test method and the LC50 calculated using the Weil method. Tough, Durable Firestop. USG Sheetrock® Brand Firecode Compound forms a very tough, very durable fi restop once it has hardened. It has withstood the thermal and mechanical shock of high-pressure hose stream testing. -
When Properly Installed and Maintained, a Building's Passive Fire
when Passive is Hard at Work… when properly installed and maintained, a building’s passive fire protection (PFP) systems can save Lives; Assets; and the Building Itself The information included in this presentation is designed to provide helpful information on the subject Wednesday, January 9, 2019 matter discussed. It is not meant to be used without being verified by the user for their specific project needs. The information does not necessarily reflect the official policy or position of CSI; the CSI Metro NY Chapter or the Program Panelists. The Construction Specifications Institute is a Registered Provider with The American Institute of Architects Continuing Education Systems. Credit earned on completion of this program will be reported to CES Records for AIA members. Certificates of Completion for non-AIA members available on request. This program is registered with the AIA/CES for continuing professional education. As such, it does not include content that may be deemed or construed to be an approval or endorsement by the AIA of any material of construction or any method or manner of handling, using, distributing, or dealing in any material or product. Questions related to specific materials, methods, and services will be addressed at the conclusion of this presentation. learning objectives: 1. Identify the four (4) main areas of Passive Fire Protection 2. Demonstrate the difference between materials & products and tested systems & assemblies 3. Explain the importance of constant & thorough maintenance of a building’s Passive Fire Protection Systems 4. Explain the Roles & Responsibilities of the following teams in the design, engineering, fabrication, installation, and testing of passive fire protection systems: ▪ The Owner Team: Inspection Agencies/Facility Manager/Building Engineer ▪ The Design Team: Architect/Specifier/Life Safety Consultant/Engineering Consultants ▪ The Contractor Team: Product-System Manufacturer/Installer(s) tonight’s game plan: 1. -
PLUMBING DICTIONARY Sixth Edition
as to produce smooth threads. 2. An oil or oily preparation used as a cutting fluid espe cially a water-soluble oil (such as a mineral oil containing- a fatty oil) Cut Grooving (cut groov-ing) the process of machining away material, providing a groove into a pipe to allow for a mechani cal coupling to be installed.This process was invented by Victau - lic Corp. in 1925. Cut Grooving is designed for stanard weight- ceives or heavier wall thickness pipe. tetrafluoroethylene (tet-ra-- theseveral lower variouslyterminal, whichshaped re or decalescensecryolite (de-ca-les-cen- ming and flood consisting(cry-o-lite) of sodium-alumi earthfluo-ro-eth-yl-ene) by alternately dam a colorless, thegrooved vapors tools. from 4. anonpressure tool used by se) a decrease in temperaturea mineral nonflammable gas used in mak- metalworkers to shape material thatnum occurs fluoride. while Usedheating for soldermet- ing a stream. See STANK. or the pressure sterilizers, and - spannering heat resistantwrench and(span-ner acid re - conductsto a desired the form vapors. 5. a tooldirectly used al ingthrough copper a rangeand inalloys which when a mixed with phosphoric acid.- wrench)sistant plastics 1. one ofsuch various as teflon. tools to setthe theouter teeth air. of Sometimesaatmosphere circular or exhaust vent. See change in a structure occurs. Also used for soldering alumi forAbbr. tightening, T.F.E. or loosening,chiefly Brit.: orcalled band vapor, saw. steam,6. a tool used to degree of hazard (de-gree stench trap (stench trap) num bronze when mixed with nutsthermal and bolts.expansion 2. (water) straightenLOCAL VENT. -
DASNY Firestopping Design Requirements
DASNY Firestopping Design Requirements FIRESTOPPING DESIGN REQUIREMENTS A. DESCRIPTION 1. To help prevent the rapid spread of fire through fire-rated construction within a building, certain walls, floors and joints are required to meet a specific fire resistance rating – the period of time during which a building component has been tested to confine a fire or continue to perform a structural function or both. Through and membrane penetrations, perimeter barriers and fire resistive joints created during the construction process require the installation of firestop systems in order to bring the building component back to its original fire rating. 2. Through and membrane penetration firestopping is a specific construction consisting of all materials required to fill the opening around penetrating items such as cables, cable trays, conduits, ducts, pipes, steel beams, bar joists, etc. and their means of support through the building component to prevent spread of fire. 3. Fire Resistive/Construction joint and perimeter barrier firestopping is an integral part of the fire resistive assembly that allows for movement in the construction joints such as floor to wall, perimeter barrier, curtain wall joints, head of wall, etc. B. SPECIFICATIONS 1. The standard Dormitory Authority Firestopping Specification Section 078400 shall be utilized and edited to reflect the specific project requirements. 2. Provide reference from specific trade sections (Mechanical, Plumbing & Electrical) to the above section 078400. C. DESIGN REQUIREMENTS 1. The Design Professional shall review DASNY’s Design Professional’s Submission Requirements located in the Design Professional Guide on the DASNY website: www.dasny.org. 2. The Architectural life safety drawings should indicate fire resistance rating designations for building components. -
Drywall Fastener Systems
FASTENERS FOR EXTERNAL THERMAL FASTENERS FOR FLAT ROOF FRAME AND GENERAL SELFDRILLING SCREWS FOR LIGHTWEIGHT INSULATION SYSTEM THERMAL INSULATION PURPOSE FASTENERS WALL AND ROOF CLADDING AND WATERPROOFING SYSTEM 2016 POLISH POLISH POLISH POLISH PRODUCER PRODUCER PRODUCER PRODUCER SCREWS AND FASTENERS SCREWS AND FASTENERS CHEMICAL FOR WOODEN STRUCTURES FOR WINDOWS AND DOORS ANCHORING SYSTEMS 2016 DRYWALL FASTENER SYSTEMS POLISH POLISH PRODUCER PRODUCER +48 34 326 1300 +48 34 326 1300 2017 +48 34 326 13 00 www.wkret-met.com Production plant no. 1 - area of 20.000 square meters The largest manufacturer of fastening systems in Poland Klimas Wkręt-Met is the largest manufacturer Klimas Wkręt-Met sends its products to over The area intended for new investments of high quality fastening systems in Poland 60 countries. The company started its opera- covers as much as 100.000 square meters. and Eastern and Central Europe. For years, tions in 1990. It was developed as a contin- the company has set standards in fastening uation of a family-run business dealing in Wkręt-Met was the fi rst company in Poland technology. Our off er includes screws for in- production of plastic elements. to have been granted a European Technical stallation in PVC; window and door fi xings; Initially, it was a site of 300 square meters Approval for building products in 2005 and frame and expansion anchors; fasteners for with several production machines and lim- today the company holds 20 such approvals. thermal insulation systems being an im- ited storage facilities. Much has changes Our other products have national technical portant element of passive houses; hard- since that time.