simpson strong frame ordinary moment framec-sf10
TRANSCRIPT
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STRONG FRAME™
ORDINARY MOMENT FRAME
C-SF10
(800) 999-5099www.strongtie.com
The expiration date of this document has been extended until 12/31/12.
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ATERAL
The 2009 NEESWood Capstone test is the largest full-scale earthquake test
in history. It featured a seven-story, 40' x 60' condominium tower that was
outfitted with Simpson Strong-Tie ® lateral systems products and subjected
to the ground motions equivalent to a 7.5 magnitude quake.
Learn more at www.strongtie.com/capstonetest.
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As the leading manufacturer of seismic
holdowns for site-built shearwalls, it
was natural for Simpson Strong-Tie
to apply our expertise to structural
systems that resist lateral forces from
seismic and high-wind events. Our
Wood and Steel Strong-Wall® products
are a result of our research efforts to
improve the efficiency of shearwalls,
as is our Anchor Tiedown System
for multi-story structures.
Our latest addition, the Strong Frame™
ordinary moment frame, rounds out our
lateral-systems offering and provides
specifiers and builders a cost-effective
alternative to site-built moment frames.
All of our lateral systems product
lines allow designers the freedom
to include larger window and door
openings as well as open spaces in
their designs while still meeting
the requirements of the building codes.
There is no other company in the
industry that offers such a wide variety
of lateral systems solutions – solutions
our customers use to make buildings
safer and stronger.
To learn more, visit:
www.strongtie.com/lateralsystems
Strong-Wall® shearwalls Strong Frame™ moment frames Anchor Tiedown Sys
Combining design flexibility with structural performance
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Strong Frame™
Introduction
Tom FitzmyersChief Executive Officer
Terry KingsfatherPresident
We help people build safer structures economically. We do this bydesigning, engineering and manufacturing “No Equal” structuralconnectors and other related products that meet or exceed ourcustomers’ needs and expectations. Everyone is responsible forproduct quality and is committed to ensuring the effectiveness of theQuality Management System.
The Simpson Strong-Tie Quality Policy
All Rights Reserved. This catalog may not be reproduced in whole or in part without the prior written approval of Simpson Strong-Tie Company Inc.
For more than 50 years, Simpson Strong-Tie has focused on creatingstructural products that help people build safer and stronger homesand buildings. A leader in structural systems research and technology,Simpson Strong-Tie is one of the largest suppliers of structural buildingproducts in the world. The Simpson Strong-Tie commitment to productdevelopment, engineering, testing and training is evident in the consistentquality and delivery of its products and services. Simpson Strong-Tie® product lines include:
• Structural connectors for wood and cold-formed-steel construction
• Strong-Wall® prefabricated shearwalls
• Strong Frame™ ordinary moment frames
• ATS Anchor Tiedown systems for multi-story buildings
• Quik Drive® auto-feed screwdriving systems
• Stainless-steel and corrosion-resistant fasteners
• Simpson Strong-Tie Anchor Systems® anchors and fasteners forconcrete and masonry
For more information, visit the company’s Web site at www.strongtie.com .
The Simpson Strong-Tie Company Inc. “No Equal” pledge includes:
• Quality products value-engineered for the lowest installed cost atthe highest rated performance levels
• Most thoroughly tested and evaluated products in the industry
• Strategically-located manufacturing and warehouse facilities
• National code agency listings
• Largest number of patented connectors in the industry
• European locations with an international sales team
• In-house R&D, and tool and die professionals
• In-house product testing and quality control engineers
• Member of AITC, ASTM, ASCE, AWPA, ACI, AISC, CSI, ICFA,NBMDA, NLBMDA, SETMA, STAFDA, SREA, NFBA, WTCA and localengineering groups.
Getting Fast Technical Support
When you call for engineering technical support, we can helpyou quickly if you have the following information at hand.This will help us to serve you promptly and efficiently.
• Which Simpson Strong-Tie catalog are you using?(See the front cover for the catalog number)
• Which Simpson product are you using?
• What is your load requirement?
Our toll-free technicalengineering support number is
800-999-5099
Visit our website at
www.strongtie.comSimpson Strong-Tie is an ISO 9001-2008registered company. ISO 9001-2008 is aninternationally-recognized quality assurancesystem which lets our domestic and internationalcustomers know that they can count on theconsistent quality of Simpson Strong-Tieproducts and services.
We Are ISO 9001-2008 Registered
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Strong Frame™
C - S F 1 0 © 2 0 1 0 S I M
P S O N S T R O N G - T I E C O M P A N Y I N C .
What's New
172 New Standard Strong Frame™ ModelsOur customers asked for more versatility and we’ve responded by expanding our Strong Frame ordinary moment frame productline to include 28 new opening sizes resulting in 172 new models. Now our factory-built moment frame is available in sizes up to20' wide and 19' tall encompassing a total of 56 total opening sizes and 368 models.
Custom Strong Frame Sizes™ If one of our standard sizes of Strong Frame ordinary moment frame doesn’t suit your project, have no fear – we now offercustom sizes to fit almost any project. Using our standard Strong Frame column and beam profiles we can now manufactureframes to your size specifications in clear-opening widths ranging from 6' to 20'-4" and clear-opening heights from 6' to19'-101 ⁄ 2". Now you can get just the right size Strong Frame moment frame for your new or retrofit project. Call your localSimpson Strong-Tie representative at (800) 999-5099 for more details on the ordering process and lead times.
New Strong Frame™ Ordinary Moment Frame Selector SoftwareTo help Designers with specification, we’ve created the new Strong Frame Selector software. The user inputs desired loads as wellas the height, width and available space for columns and the program suggests a list of available frames ranked according to cost.will also suggest anchorage-solution options. To download a FREE copy visit www.strongtie.com/strongframe.
Changes To This CatalogIn order to make this catalog a more effective design tool, we have re-formatted the layout to bet ter work with the design process.All of the design concepts and details are summarized, and are color coded to match the section in the catalog where those itemare explained in detail. We have also included alternate loading detail sheets (also available on www.strongtie.com/strongframe) soDesigners can input loads for needs not addressed in the catalog and then fax them to Simpson Strong-Tie for frame design assistancWe also have enhanced design example pages to make it easier to design and select the most economical frame to fit your needs.
Visit www.strongtie.com for updates and new information on our Strong Frame moment frame product line.
Table of Contents
Important Information and General Notes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6–
Introduction to the Strong Frame™ Ordinary Moment Frame. . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8–
Product Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10–
Strong Frame Selector Software. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Strong Frame Installation Information. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Bolt-Tightening Requirements. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Retrofit Applications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Design Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17–
Frame Selection Procedure . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .Tension Anchorage Selection Procedure . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2
Shear Anchorage Selection Procedure. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2
Allowable Loads 8 ft. Nominal Heights . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .22–2 9 ft. Nominal Heights . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .24– 10 ft. Nominal Heights . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26– 12 ft. Nominal Heights . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 28–2 14 ft. Nominal Heights . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30–3 16 ft. Nominal Heights . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .32–3 18 ft. Nominal Heights . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 34–3 19 ft. Nominal Heights . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36–3
Introduction to Anchorage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3Tension Anchorage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3
OMFSL Anchorage Assembly . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
OMFSL Shear Anchorage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .41–4
OMFAB Anchorage Assembly . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
OMFAB Shear Anchorage. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4
Anchorage Installation Accessories . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 45–4
Anchor Bolt Layout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Design Examples . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .48–5
Top-Flange Joist Hangers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
Installation and Anchorage Details. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 53–6
Alternate Loading Worksheet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
Custom Frame Worksheet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6
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Strong Frame™
Important Information and General Notes
The following Warnings, Notes, Instructions and product information applyonly to the specific products listed in this catalog. If you use any otherSimpson Strong-Tie Company Inc. products, read the Warnings, Notes,Instructions and product information in the applicable catalog and consultwww.strongtie.com for the latest catalogs, bulletins and product information.
Simpson Strong-Tie Company Inc. structural connectors, anchors, and otherproducts are designed and tested to provide specified design loads. To obtainoptimal performance from Simpson Strong-Tie Company Inc. products and
achieve maximum allowable design load, the products must be properlyinstalled and used in accordance with the installation instructions and designlimits provided by Simpson Strong-Tie Company Inc. To ensure properinstallation and use, designers and installers must carefully read the followingGeneral Notes, General Instructions For The Installer and General InstructionsFor The Designer, as well as consult the applicable catalog pages for specificproduct installation instructions and notes.
Proper product installation requires careful attention to all notes andinstructions, including these basic rules:
Be familiar with the application and correct use of the product.a.
Install all required fasteners per installation instructions provided byb.Simpson Strong-Tie Company Inc.: a) use proper fastener type; b) useproper fastener quantity; c) fill all fastener holes; d) ensure screws arecompletely driven; and e) ensure bolts are completely tightened.
In addition to following the basic rules provided above as well as all notes,warnings and instructions provided in the catalog, installers, designers,engineers and consumers should consult the Simpson Strong-Tie Company Inc.website at www.strongtie.com to obtain additional design and installationinformation, including:
Instructional builder/contractor training kits containing an instructional video,•an instructor guide and a student guide in both English and Spanish
Information on workshops Simpson Strong-Tie conducts at various training•centers throughout the country
Product specific installation videos•
Specialty catalogs•
Code reports•
Technical fliers and bulletins•Master format specifications•
Material safety data sheets•
Corrosion information•
Simpson Strong-Tie• ® Autocad® menu
Answers to frequently asked questions and technical topics.•
Failure to follow fully all of the notes and instructions provided bySimpson Strong-Tie Company Inc. may result in improper installation ofproducts. Improperly installed products may not perform to the specificationsset forth in this catalog and may reduce a structure’s ability to resist themovement, stress, and loading that occurs from gravity loads and loading fromevents such as earthquakes and high velocity winds.
Simpson Strong-Tie Company Inc. does not guarantee the performanceor safety of products that are modified, improperly installed or not used inaccordance with the design and load limits set forth in this catalog.
Autocad is a registered trademark of Autodesk.
Simpson Strong-Tie Company Inc. reserves the right to changea.specifications, designs, and models without notice or liability for suchchanges.
Steel used for each Simpson Strong-Tieb. ® product is individually selectedbased on the product’s steel specifications, including strength, thickness,formability, finish, and weldability. Contact Simpson Strong-Tie for steelinformation on specific products.
Unless otherwise noted, dimensions are in inches, loads are in pounds.c.
8d (0.131"x2½"), 10d (0.148"x3" ), and 16d (0.162"x3½") speci fy commond.
nails that meet the requirements of ASTM F1667.Do Not Overload. Do not exceed catalog allowable loads, which woulde.jeopardize the product.
All references to bolts or machine bolts (MBs), unless otherwise noted,f.are for structural qualit y through bolts (not lag screws or carriage bolts)equal to or better than ASTM Standard A307, Grade A. Anchor rods forOMFSL, OMFAB, OMF-ATR5EXT-LS and OMF-ATR5EXT-LSG are ASTMF1554 Grade 36 or A36; OMFSL-HS, OMFAB-HS OMF-ATR5EXT-HS andOMF-ATR5EXT-HSG are ASTM A449; bolts for OMF beam-to-columnconnection are ASTM A325.
Wood shrinks and expands as it loses or gains moisture. Dimensionsg.given to face of wood nailers in this catalog may vary slightly due tomoisture content. Capacities provided that include wood nailers are
based on a moisture content of less than 19 percent at time of fastenerinstallation, and a minimum specific gravity of 0.50. Nailers are DFL #2.
Some model configurations may differ from those shown in this catalog.h.Contact Simpson Strong-Tie for details.
For field welding options see page 7 note “j”.i.
These general notes are provided to ensure proper installation of Simpson Strong-Tie Company Inc. products and must be followed fully.
Warning
General Notes
Provide temporary diagonal bracing of Strong Frame as required untila.frame is tied in to the floor or roof framing above.
All specified fasteners must be installed according to the instructions inb.this catalog. Incorrect fastener quantity, size, placement, type, material,
or finish may cause the connection to fail.Fill all fastener holes as specified in the installation instructions for thatc.product. Some pre-installed items may not use all holes.
Use the materials specified in the installation instructions. Substitution ofd.or failure to use specified materials may cause the product to fail.
Do not add holes or otherwise modify Simpson Strong-Tie Company Inc.e.products except as noted in this catalog. The performance of modifiedproducts may be substantially weakened. Simpson Strong-Tie will notwarrant or guarantee the performance of such modified products.
Install products in the position specified in the catalog.f.
Do not alter installation procedures from those set forth in this catalog.g.
Install all specified fasteners before loading the frame.h.
Use proper safety equipment.i.
Nuts shall be installed such that the end of the threaded rod or bolt is atj.least flush with the top of the nut.
Local and/or regional building codes may require meeting specialk.
conditions. Building codes often require special inspection of anchorsinstalled in concrete and masonry. For compliance with theserequirements, it is necessary to contact the local and/or regional buildingauthority. Except where mandated by code, Simpson Strong-Tie® products do not require special inspection.
High-strength bolts in fully pre-tensioned Strong Frame beam tol.column connections may require special inspection to verify installationpre-tension. For compliance with these requirements, it is necessaryto contact the local and/or regional building authority. Direct TensionIndicating (DTI) washers are included in the Strong Frame installation kitsto verify installation pre-tension. Contact Simpson Strong-Tie for FastenerAssembly Certificates of Conformity .
General Instructions for the Installer
These general instructions for the installer are provided to ensure proper selection and installation of Simpson Strong-Tie Company Inc. products and must befollowed carefully. These general instructions are in addition to the specific installation instructions and notes provided for each particular product, all of whichshould be consulted prior to and during installation of Simpson Strong-Tie Company Inc. products.
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Strong Frame™
C - S F 1 0 © 2 0 1 0 S I M
P S O N S T R O N G - T I E C O M P A N Y I N C .
Important Information and General Notes
Simpson Strong-Tie Company Inc. warrants catalog products to be free fromdefects in material or manufacturing. Simpson Strong-Tie Company Inc. productsare further warranted for adequacy of design when used in accordance with designlimits in this catalog and when properly specified, installed, and maintained. Thiswarranty does not apply to uses not in compliance with specific applications andinstallations set forth in this catalog, or to non-catalog or modified products, orto deterioration due to environmental conditions.
Simpson Strong-Tie® connectors are designed to enable structures to resistthe movement, stress, and loading that results from impact events such asearthquakes and high velocity winds. Other Simpson Strong-Tie products aredesigned to the load capacities and uses listed in this catalog. Properly-installedSimpson Strong-Tie products will perform in accordance with the specificationsset forth in the applicable Simpson Strong-Tie catalog. Additional performancelimitations for specific products may be listed on the applicable catalog pages.
Due to the particular characteristics of potential impact events, the specificdesign and location of the structure, the building materials used, the quality of
construction, and the condition of the soils involved, damage may nonethelessresult to a structure and its contents even if the loads resulting from theimpact event do not exceed Simpson Strong-Tie catalog specifications andSimpson Strong-Tie connectors are properly installed in accordance with applicabuilding codes.
All warranty obligations of Simpson Strong-Tie Company Inc. shall be limited, atthe discretion of Simpson Strong-Tie Company Inc., to repair or replacement of tdefective part. These remedies shall constitute Simpson Strong-Tie Company Incsole obligation and sole remedy of purchaser under this warranty. In no event wiSimpson Strong-Tie Company Inc. be responsible for incidental, consequential, ospecial loss or damage, however caused.
This warranty is expressly in lieu of all other warranties, expressed orimplied, including warranties of merchantability or fitness for a particularpurpose, all such other warranties being hereby expressly excluded. This
warranty may change periodically – consult our website www.strongtie.comfor current information.
Limited Warranty
Terms and Conditions of Sale
Product Use
Products in this catalog are designed and manufactured for the specificpurposes shown, and should not be used with other connectors not approvedby a qualified Designer. Modifications to products or changes in installationsshould only be made by a qualified Designer. The performance of such modifiedproducts or altered installations is the sole responsibility of the Designer.
Indemnity
Customers or Designers modifying products or installations, or designingnon-catalog products for fabrication by Simpson Strong-Tie Company Inc.shall, regardless of specific instructions to the user, indemnify, defend, and holdharmless Simpson Strong-Tie Company Inc. for any and all claimed loss or
damage occasioned in whole or in part by non-catalog or modified products.
Non-Catalog and Modified Products
Consult Simpson Strong-Tie Company Inc. for applications for which there isno catalog product, or for connectors for use in hostile environments, withexcessive wood shrinkage, or with abnormal loading or erection requirements
Non-catalog products must be designed by the customer and will be fabricateby Simpson Strong-Tie in accordance with customer specifications.
Simpson Strong-Tie cannot and does not make any representations regardingthe suitability of use or load-carrying capacities of non-catalog products.Simpson Strong-Tie provides no warranty, express or implied, on non-catalogproducts. F.O.B. Shipping Point unless otherwise specified.
General Instructions for the Designer
Design for Strong Frame™ ordinary moment frame is in accordancea.with the following:
• 2006 and 2009 International Building Code
• Minimum Design Loads for Buildings and Other Structures (ASCE/SEI 7-05)• 2005 AISC Specification for Structural Steel Buildings (ANSI/AISC 360-05)• 2005 AISC Seismic Provisions (ANSI/AISC 341-05)• 2004 RCSC Specification for Structural Joints Using ASTM A325 or A490 Bolts • Building Code Requirements for Structural Concrete (ACI318-05, ACI318-08)
Moment frames are designed using Load and Resistance Factored Design(LRFD) methodology for determining frame drift and strength limits.Allowable Stress Design (ASD) shear and drift are determined as VASD = 0.7 xVLRFD and driftASD = 0.7 x driftLRFD for seismic load combinations and VASD =VLRFD /1.6 for wind load combinations.
Building codes have specific design requirements for use of ordinaryb.moment frames. Designer shall verify structural design meets theapplicable code requirements. See design examples or contactSimpson Strong-Tie for more information.
Strong Frame moment frames provide a key component of a structure’sc.lateral force resisting system only when incorporated into a continuous
load-transfer path. The Designer must specify the required componentsof the complete load transfer path including diaphragms, shear transfer,chords and collectors and foundations.
The term “Designer” used throughout this catalog is intended to meand.a licensed/certified building design professional, a licensed professionalengineer, or a licensed architect.
All connected members and related elements shall be designed by thee.Designer.
All installations should be designed only in accordance with the allowablef.load values set forth in this catalog.
Simpson Strong-Tie will provide upon request code testing data on allg.products that have been code tested.
Local and/or regional building codes may require meeting specialh.conditions. Building codes often require special inspection of anchorsinstalled in concrete and masonry. For compliance with theserequirements, it is necessary to contact the local and/or regional buildingauthority. Except where mandated by code, Simpson Strong-Tie® products do not require special inspection.
High-strength bolts in fully pre-tensioned Strong Frame beam toi.column connections may require special inspection to verify installationpre-tension. For compliance with these requirements, it is necessaryto contact the local and/or regional building authority. Direct TensionIndicating (DTI) washers are included in the Strong Frame installation kitsto verify installation pre-tension. Contact Simpson Strong-Tie for FastenerAssembly Certificates of Conformity .
No welding permitted in the area in the drawing below. Welding shall bej.in accordance with AWS D1.1 and AWS D1.8 (as applicable for seismic).Welds shall be as specified by the Designer. Provide welding specialinspection as required by local building department.
Holes in base plates fork. 5 ⁄ 8" φ anchor bolts are 7 ⁄ 8" φ. Designer mustevaluate effects of oversized holes and provide plate washer with11 ⁄ 16" holes welded to base plate where required.
Design of Strong Frame moment frames assumes a pinned conditionl.at the base of columns.
See design information on pages 17–18 for additional information.m.
These general instructions for the Designer are provided to ensure proper selection and installation of Simpson Strong-Tie Company Inc. products and must befollowed carefully. These general instructions are in addition to the specific design and installation instructions and notes provided for each particular product, allof which should be consulted prior to and during the design process.
Weld to column cap plate okay
Weld to column flange okay
No welding Welding allowed
W e
l d i n g a
l l o w e
d
1 5 "
N o w e
l d i n g
8"
Weld to top or bottom beam flange okay
Note: Wood Nailers not shown for clarity
Welding Limits
No welding,unless otherwise specif
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Strong Frame™
Introduction to the Strong Frame™ Ordinary Moment Frame
For years steel moment frames have been a common methodof providing high lateral-force resistance when limited wall
space and large openings control the structural design.Moment frames consist of beams and columns, typicallyconnected by a combination of bolts and welds to formrigid joints. The frames resist lateral loads primarily throughbending in the beams and columns.
Stronger than site-built or factory-built shearwalls, momentframes allow larger openings and smaller wall sections while stillproviding the loads structural designers need. Moment framesare commonly used in applications such as garage fronts, largeentry ways, walls with large, numerous windows, tuck-underparking and great-rooms.
Traditionally, moment frames have been time-intensive to designand labor-intensive to install. Simpson Strong-Tie has taken
these factors into consideration and has created a cost-effectivealternative to traditional frames – the Strong Frame™ ordinarymoment frame.
Use of ordinary moment frames is permitted in Seismic DesignCategories A, B and C without limitations and Seismic DesignCategories D, E and F, subject to the limitations set forth inASCE 7-05 Sections 12.2.5.6, 12.2.5.7 and 12.2.5.8. Ordinarymoment frames may also be combined with other lateral-force resisting systems in accordance with ASCE 7-05 Section12.2.2 and 12.2.3.
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Strong Frame™
C - S F 1 0 © 2 0 1 0 S I M
P S O N S T R O N G - T I E C O M P A N Y I N C .
Introduction to the Strong Frame™ Ordinary Moment Frame
Pre-designed moment frame solutions:• Designers can choofrom 368 engineered frames, in sizes up to 20 feet wide and19 feet tall, rather than having to spend hours designing oneSolutions provided for wind and seismic areas.
100% bolted connections:• Install frames faster with no fieldwelding required. No need to have a welder on site, or aspecial welding inspector. A standard socket or spud wrenchis all that is required to make the connection.
Pre-installed wood nailers:• Eliminate the need to drill andbolt nailers in the field.
Strong Frame ordinary moment frames are thecost-effective solution for your next project
Frames fit in a standard 2x6 wall:• No thicker walls, noadditional framing or furring required.
Pre-drilled holes for utilities:• 1" diameter holes in the flangesand 3" holes in the column webs simplify the installation ofelectrical and plumbing elements.
Greater quality control:• Frames are manufactured in aproduction environment with comprehensive quality-controlmeasures. Field-bolted connections eliminate questionsabout the quality of field welds. Direct-tension-indicatorwashers included.
Convenient to store, ship and handle:• Unassembled framesare more compact, allowing for easier shipping and fewerdeliveries. And, there are no big pre-welded frames to wrestwith on the jobsite.
Pre designed anchorage solutions:• See pages 38–44.
• New Custom Sizes: Now we offer custom beam lengthsand column heights made to order, ideal for new or retrofitprojects.
• Now Code Listed: Strong Frame Ordinary MomentFrames are now code-listed under the 2006 and 2009 IRC/ IBC (IAPMO ES ER-164). The code listing includes 368 frammodels as well as anchorage solutions. Now it is even easieto specify a Strong Frame moment frame – no calculationpackages are required for the building department (but theyare still available upon request).
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Strong Frame™
Clear opening widthwood to wood
Extend field-installedsingle top plate and
connect to beam nailer Top of Strong Frame™
wood nailer
"
Anchor rods
All heights assume
1½" non-shrink grout
1 3 "
( 9 " b e a m s
)
1 6 ½ "
( 1 2
" b e a m s
)
( i n c
. n a i l e r s
)Field-installed
double top plate
9", 12", 15" or 18"
(inc. nailers) N o m
i n a
l m o m e n
t f r a m e
h e
i g h t
C6
C9
C12
C15
6" 9"
9" 12"
12" 15"
" holes, typical
18"15"
5 ½ "
5 ½ "
5 ½ "
5 ½ "
5 ½ "
5 ½ "
5 ½ "
5 ½ "
B9 BeamB12 Beam
5½"
1 ½ "
3 "
8 ½ "
1 3 "
1 ½ "
3 "
1 6 ½ "
1 2 "
5½"
Assembly Elevation
The Strong Frame™ ordinary moment frame is a factory-built moment frame consisting oftwo columns, a beam and a connection kit. The columns are anchored to the foundationusing anchor bolts and are connected to the beam using high-strength bolts. The 368available models of the Strong Frame moment frame are created by combining varioussizes of columns (in pairs) with various sizes of beams. Columns are 6", 9", 12" and 15"inches wide and beams are 81 ⁄ 2" and 12" deep (dimensions do not include wood nailers).
Product Information – Standard Sizes
Ordinary moment frame beams and columns are manufactured with pre-installed 2x6 wood nailers.
OrdinaryMoment Frame
Column size(6", 9", 12", or 15")
Beam size9 = 9" nominal beam
12 = 12" nominal beam
OMF1212-16x8
Nominal frame height(8, 9, 10, 12, 14, 16, 18, or 19-ft)
Nominal frameclear-opening width(8, 10, 12, 14, 16, 18 or 20-ft)
Naming Scheme
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Strong Frame™
C - S F 1 0 © 2 0 1 0 S I M
P S O N S T R O N G - T I E C O M P A N Y I N C .
OrdinaryMoment Frame
Column size(6", 9", 12", or 15")
Beam size9 = 9" nominal beam
12 = 12" nominal beam
OMF1212-16x8
Nominal frame height(8, 9, 10, 12, 14, 16, 18, or 19-ft)
Nominal frameclear-opening width(8, 10, 12, 14, 16, 18 or 20-ft)
Naming Scheme
Strong Frame Ordinary Moment Frame Models by Opening Width and Nominal Height
ClearOpening
Width
Nominal Moment Frame Height
8 feet 9 feet 10 feet 12 feet 14 feet 16 feet 18 feet 19 feet
Model No. Model No. Model No. Model No. Model No. Model No. Model No. Model No.
8'-2" OMF69-8x8 OMF69-8x9 OMF69-8x10 OMF69-8x12 OMF69-8x14 OMF69-8x16 OMF69-8x18 OMF69-8x19
8'-2" OMF612-8x8 OMF612-8x9 OMF612-8x10 OMF612-8x12 OMF612-8x14 OMF612-8x16 OMF612-8x18 OMF612-8x19
8'-2" OMF99-8x8 OMF99-8x9 OMF99-8x10 OMF99-8x12 OMF99-8x14 OMF99-8x16 OMF99-8x18 OMF99-8x19
8'-2" OMF912-8x8 OMF912-8x9 OMF912-8x10 OMF912-8x12 OMF912-8x14 OMF912-8x16 OMF912-8x18 OMF912-8x198'-2" OMF129-8x8 OMF129-8x9 OMF129-8x10 OMF129-8x12 OMF129-8x14 OMF129-8x16 OMF129-8x18 OMF129-8x19
8'-2" OMF1212-8x8 OMF1212-8x9 OMF1212-8x10 OMF1212-8x12 OMF1212-8x14 OMF1212-8x16 OMF1212-8x18 OMF1212-8x19
8'-2" OMF1512-8x8 OMF1512-8x9 OMF1512-8x10 OMF1512-8x12 OMF1512-8x14 OMF1512-8x16 OMF1512-8x18 OMF1512-8x19
10'-2" OMF69-10x8 OMF69-10x9 OMF69-10x10 OMF69-10x12 OMF69-10x14 OMF69-10x16 OMF69-10x18 OMF69-10x19
10'-2" OMF612-10x8 OMF612-10x9 OMF612-10x10 OMF612-10x12 OMF612-10x14 OMF612-10x16 OMF612-10x18 OMF612-10x19
10'-2" OMF99-10x8 OMF99-10x9 OMF99-10x10 OMF99-10x12 OMF99-10x14 OMF99-10x16 OMF99-10x18 OMF99-10x19
10'-2" OMF912-10x8 OMF912-10x9 OMF912-10x10 OMF912-10x12 OMF912-10x14 OMF912-10x16 OMF912-10x18 OMF912-10x19
10'-2" OMF129-10x8 OMF129-10x9 OMF129-10x10 OMF129-10x12 OMF129-10x14 OMF129-10x16 OMF129-10x18 OMF129-10x19
10'-2" OMF1212-10x8 OMF1212-10x9 OMF1212-10x10 OMF1212-10x12 OMF1212-10x14 OMF1212-10x16 OMF1212-10x18 OMF1212-10x1
10'-2" OMF1512-10x8 OMF1512-10x9 OMF1512-10x10 OMF1512-10x12 OMF1512-10x14 OMF1512-10x16 OMF1512-10x18 OMF1512-10x1
12'-4" OMF69-12x8 OMF69-12x9 OMF69-12x10 OMF69-12x12 OMF69-12x14 OMF69-12x16 OMF69-12x18 OMF69-12x19
12'-4" OMF612-12x8 OMF612-12x9 OMF612-12x10 OMF612-12x12 OMF612-12x14 OMF612-12x16 OMF612-12x18 OMF612-12x19
12'-4" OMF99-12x8 OMF99-12x9 OMF99-12x10 OMF99-12x12 OMF99-12x14 OMF99-12x16 OMF99-12x18 OMF99-12x19
12'-4" OMF912-12x8 OMF912-12x9 OMF912-12x10 OMF912-12x12 OMF912-12x14 OMF912-12x16 OMF912-12x18 OMF912-12x1912'-4" OMF129-12x8 OMF129-12x9 OMF129-12x10 OMF129-12x12 OMF129-12x14 OMF129-12x16 OMF129-12x18 OMF129-12x19
12'-4" OMF1212-12x8 OMF1212-12x9 OMF1212-12x10 OMF1212-12x12 OMF1212-12x14 OMF1212-12x16 OMF1212-12x18 OMF1212-12x1
12'-4" OMF1512-12x8 OMF1512-12x9 OMF1512-12x10 OMF1512-12x12 OMF1512-12x14 OMF1512-12x16 OMF1512-12x18 OMF1512-12x1
14'-4" OMF69-14x8 OMF69-14x9 OMF69-14x10 OMF69-14x12 OMF69-14x14 OMF69-14x16 OMF69-14x18 OMF69-14x19
14'-4" OMF612-14x8 OMF612-14x9 OMF612-14x10 OMF612-14x12 OMF612-14x14 OMF612-14x16 OMF612-14x18 OMF612-14x19
14'-4" OMF99-14x8 OMF99-14x9 OMF99-14x10 OMF99-14x12 OMF99-14x14 OMF99-14x16 OMF99-14x18 OMF99-14x19
14'-4" OMF912-14x8 OMF912-14x9 OMF912-14x10 OMF912-14x12 OMF912-14x14 OMF912-14x16 OMF912-14x18 OMF912-14x19
14'-4" OMF129-14x8 OMF129-14x9 OMF129-14x10 OMF129-14x12 OMF129-14x14 OMF129-14x16 OMF129-14x18 OMF129-14x19
14'-4" OMF1212-14x8 OMF1212-14x9 OMF1212-14x10 OMF1212-14x12 OMF1212-14x14 OMF1212-14x16 OMF1212-14x18 OMF1212-14x1
14'-4" OMF1512-14x8 OMF1512-14x9 OMF1512-14x10 OMF1512-14x12 OMF1512-14x14 OMF1512-14x16 OMF1512-14x18 OMF1512-14x1
16'-4" OMF69-16x8 OMF69-16x9 OMF69-16x10 OMF69-16x12 OMF69-16x14 OMF69-16x16 OMF69-16x18 OMF69-16x19
16'-4" OMF612-16x8 OMF612-16x9 OMF612-16x10 OMF612-16x12 OMF612-16x14 OMF612-16x16 OMF612-16x18 OMF612-16x19
16'-4" OMF99-16x8 OMF99-16x9 OMF99-16x10 OMF99-16x12 OMF99-16x14 OMF99-16x16 OMF99-16x18 OMF99-16x19
16'-4" OMF912-16x8 OMF912-16x9 OMF912-16x10 OMF912-16x12 OMF912-16x14 OMF912-16x16 OMF912-16x18 OMF912-16x1916'-4" OMF129-16x8 OMF129-16x9 OMF129-16x10 OMF129-16x12 OMF129-16x14 OMF129-16x16 OMF129-16x18 OMF129-16x19
16'-4" OMF1212-16x8 OMF1212-16x9 OMF1212-16x10 OMF1212-16x12 OMF1212-16x14 OMF1212-16x16 OMF1212-16x18 OMF1212-16x1
16'-4" OMF1512-16x8 OMF1512-16x9 OMF1512-16x10 OMF1512-16x12 OMF1512-16x14 OMF1512-16x16 OMF1512-16x18 OMF1512-16x1
18'-4" OMF69-18x8 OMF69-18x9 OMF69-18x10 OMF69-18x12 OMF69-18x14 OMF69-18x16 OMF69-18x18 OMF69-18x19
18'-4" OMF612-18x8 OMF612-18x9 OMF612-18x10 OMF612-18x12 OMF612-18x14 OMF612-18x16 OMF612-18x18 OMF612-18x19
18'-4" OMF99-18x8 OMF99-18x9 OMF99-18x10 OMF99-18x12 OMF99-18x14 OMF99-18x16 OMF99-18x18 OMF99-18x19
18'-4" OMF912-18x8 OMF912-18x9 OMF912-18x10 OMF912-18x12 OMF912-18x14 OMF912-18x16 OMF912-18x18 OMF912-18x19
18'-4" OMF129-18x8 OMF129-18x9 OMF129-18x10 OMF129-18x12 OMF129-18x14 OMF129-18x16 OMF129-18x18 OMF129-18x19
18'-4" OMF1212-18x8 OMF1212-18x9 OMF1212-18x10 OMF1212-18x12 OMF1212-18x14 OMF1212-18x16 OMF1212-18x18 OMF1212-18x1
18'-4" OMF1512-18x8 OMF1512-18x9 OMF1512-18x10 OMF1512-18x12 OMF1512-18x14 OMF1512-18x16 OMF1512-18x18 OMF1512-18x1
20'-4" OMF612-20x8 OMF612-20x9 OMF612-20x10 OMF612-20x12 OMF612-20x14 OMF612-20x16 OMF612-20x18 OMF612-20x19
20'-4" OMF912-20x8 OMF912-20x9 OMF912-20x10 OMF912-20x12 OMF912-20x14 OMF912-20x16 OMF912-20x18 OMF912-20x19
20'-4" OMF1212-20x8 OMF1212-20x9 OMF1212-20x10 OMF1212-20x12 OMF1212-20x14 OMF1212-20x16 OMF1212-20x18 OMF1212-20x1
20'-4" OMF1512-20x8 OMF1512-20x9 OMF1512-20x10 OMF1512-20x12 OMF1512-20x14 OMF1512-20x16 OMF1512-20x18 OMF1512-20x1
Product Information – Standard Sizes
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Strong Frame™
C6
C9
C12
C15
6" 9"
9" 12"
12" 15"
" holes, typical
18"15"
5 ½ "
5 ½ "
5 ½ "
5 ½ "
5 ½ "
5 ½ "
5 ½ "
5 ½ "
New! Strong Frame™ ordinary moment frames are now available in custom sizes tosuit almost any project. Using our standard Strong Frame column and beam profiles,we now offer frames manufactured to your size specifications in clear-openingwidths ranging from 6' to 20'-4" and clear-opening heights from 6' to 19'-101 ⁄ 2".You can have the exact size you need on your next project.
And to make frame selection easier, our custom sizes are included in our StrongFrame Selector software. Just enter the desired frame size and required loads andthe software will suggest frame options to suit your project.Download the software free at www.strongtie.com.
Product Information – Custom Sizes
W1(clear-opening width)
Extend field-installedsingle top plate andconnect to beam nailer Top of Strong Frame™
wood nailer
" Anchor rods
All heights assume1½" non-shrink grout
1 3 "
( 9 "
b e a m s
)
1 6 ½ "
( 1 2 "
b e a m s
)
( i n c
. n a
i l e r s )Field-installed
double top plate
9", 12", 15" or 18"
(inc. nailers) M o m e n t
f r a m e c o l u m n
h e
i g h t
( H 1
- 6 " )
H 1
( T o p o
f c o n c r e t e t o t o p o
f f i e l d
- i n s t a
l l e
d t o p p
l a t e
)
Beam lengthsteel to steel
(W1 + 3")
Assembly Elevation
B9 BeamB12 Beam
5½"
1 ½ "
3 "
8 ½ "
1 3 "
1 ½ "
3 "
1 6 ½ "
1 2 "
5½"
OrdinaryMoment Frame
Column size(6", 9", 12", or 15")
Custom sizemoment frame
Beam size9 = 9" nominal beam12 = 12" nominal beam
OMFX1212-140.00x96.50Column height,bottom of base plateto top of cap plate(80 1 ⁄ 2" to 247")
Beam length(75" to 247")
Custom Naming Scheme
When specifying or ordering use the following nomenclature:
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Strong Frame™
C - S F 1 0 © 2 0 1 0 S I M
P S O N S T R O N G - T I E C O M P A N Y I N C .
The Strong Frame Selector software has been created to helpDesigners select an appropriate Simpson Strong-Tie® StrongFrame™ ordinary moment frame quickly. The program allowsDesigners to easily design a moment frame to meet theirspecific geometry and loading requirements.
Input Geometry:
Only minimum input geometries are required for theStrong Frame Selector software to select an appropriateframe for the available space.
Based on input geometry, the software will review the 368 availablestandard frames to suggest a handful of possible solutions.
If the opening dimensions are outside of standard Strong Framemoment frame sizes, the Designer can enter their specificopening dimensions and the Strong Frame Selector softwarewill provide possible custom solutions.
Download the Strong Frame Selector software free at www.strongtie.com
Strong Frame Selector Software
Loading:
An easy-to-use input screen and drop down buttons make itsimple for the Designer to input lateral and gravity loads.
Both wind and seismic loads can be entered and the StrongFrame Selector software will determine possible frame sizes thmeet the Designer’s input requirements.
Uniform, partial uniform as well as point loads can be placed
anywhere along the span of the beam.
Output:
The output is in a concise format containing the importantinformation needed for moment frame design. More detailedoutputs are also available if desired.
Minimal input is required for anchorage design.
Foundation forces are summarized to aid the Designer indesigning their own foundations.
Projects generated can be saved, printed or emailed.
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Strong Frame™
Suggested Installation Instructions
Install anchorage into the footing per the Designer’s specifications.1.
Remove the form template OMF-TPL and install2. 5 ⁄ 8" diameter heavyhex nuts onto the anchors, lowering them all the way down to the concrete;these will be used to level the frame.
Lay out the components of the Strong Frame3. ™ moment frame horizontallyfor assembly prior to positioning onto the anchor bolts.
Bolt the columns and beam together using high-strength bolts and washers4.(included) in accessible holes. DTI washers are also included and shouldbe used (see page 15) . DO NOT FULLY TIGHTEN AT THIS TIME.
Lift the frame5. (using proper equipment) and position it onto the anchor bolts,so that it rests on the first set of 5 ⁄ 8" heavy hex nuts. The top nailer should be
11 ⁄ 2" below the top of adjoining walls (see figure at right) . Install remaining 7 ⁄ 8" bolts.Provide temporary diagonal bracing of the moment frame, as required,6.until it is tied into the floor or roof framing above.
Install the remaining bolts connecting the columns and beam,7.do not fully tighten at this time (see page 15) .
Plumb one column and adjust the temporary bracing8.as required. Install the 5 ⁄ 8" heavy hex nuts and washersonto the anchor bolts and fully tighten with wrench( 1 ⁄ 2 turn past finger tight) (see figure at right) .Note: A 3 ⁄ 4"–2" gap is required under each baseplatefor non-shrink grout (11 ⁄ 2 " typical)
Plumb the second column and level the beam, making9.sure to keep the column plumb. Install the remaining5 ⁄ 8" heavy hex nuts onto the anchor bolts, finger-tightagainst the base plate (see figure at right) .
Return to the first column and fully tighten10.all 7 ⁄ 8" column-to-beam bolts (see page 15) .
Check that the beam is still level and the second column is11.plumb, and adjust the temporary bracing as required.
Fully tighten the12. 7 ⁄ 8" column-to-beam bolts using 1 7 ⁄ 16" wrench on second columnand then the nuts on the anchor bolts on the second column (see page 15) .
Install non-shrink grout (5000 psi minimum) under each base plate13.( 3 ⁄ 4 " minimum) following the manufacturer’s instructions and localbuilding codes (may require inspection) (see figure at right) .
Install wood nailer blocks on top of each column, using the carriage bolts14.
provided (12" and 15" columns have four bolt holes, only two bolts required) .
Each Strong Frame™ ordinarymoment frame includes all thehardware necessary for assembly:
Block notincluded
Non-shrink grout(may requireinspection) min. 5000 psi
Step 13
Adjust nutsto plumbcolumn andlevel beam
Adjust nutsto plumbcolumn
¾" min.to 2" max.(1½"typical)
Step 8 Step 9
(16)• 7 ⁄ 8"x3" high-strength boltsASTM A325
(16)• 7 ⁄ 8" diameter heavy hex nuts
(16)• 7 ⁄ 8" diameter hardenedwashers
(16) Direct Tension Indicator•(DTI) washers
(16) Finger shims•
(1) 0.015" feeler gauge•
(8)• 5 ⁄ 8" diameter cut washers
(12)• 5 ⁄ 8" diameter heavy hex nuts
(4)• 5 ⁄ 8"x3" carriage bolts
(1) Installation sheet•(Technical bulletin T-SFINSTALL)
Heavyhex nut
Hardenedwasher
Shim(whereneeded)
DTI washer(silicone side
facing steel beam)
⁷₈" A325bolt
Top of adjoining wall
Hardened washerDTI washer
Step 4
Strong Frame Installation Information
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Strong Frame™
C - S F 1 0 © 2 0 1 0 S I M
P S O N S T R O N G - T I E C O M P A N Y I N C .
Bolt-Tightening Requirements
General Bolt Installation Instructions
All hardware must be protected from dirt and moisture. Do not1.remove hardware from packaging until it is ready for installation.
The performance of bolt assemblies2. (bolt, nut, hardened washerand DTI washer) has been verified through pre-installation verificationtesting. (IMPORTANT: Do not substitute any components.)
Lubrication is critical to proper installation. Do not remove lubricant3. on bolt assemblies or apply additional lubricant.
High-strength bolts which have been fully tightened may only be4.reused if the nut can still be threaded onto the bolt by hand.
The type of joint5. (snug-tight or pretensioned) shall be determined bythe Designer. (See page 17 for more information.)
Snug-Tight Joints
Install a DTI washer under the bolt head, with the protrusions against1.the bolt head. Slide the bolt through the connection holes. Install thehardened washer and nut on opposite side (see Figure 1).
Tighten all bolts to snug-tight condition, making sure the bolt head does2.not turn while the nut is turned (see Figure 2). Snug-tight condition is
the tightness attained by either a few impacts of an impact wrench orthe full effort of a worker with an ordinary spud wrench that brings thebeam end plate and column flange into firm contact. (Little or no orangesilicone from the DTI washer should be visible at this time; see Figure 3).
Pretensioned Joints
Install a DTI washer under the bolt head, with the protrusions against1.the bolt head. Slide the bolt through the connection holes. Install thehardened washer and nut on opposite side (see Figure 1).
Tighten all bolts to snug-tight condition, making sure the bolt head does2.not turn while the nut is turned (see Figure 2). Snug-tight condition isthe tightness attained by either a few impacts of an impact wrench orthe full effort of a worker with an ordinary spud wrench that brings thebeam end plate and column flange into firm contact. Little or no orangesilicone from the DTI washer should be visible at this time (see Figure 3).
Once all bolts are snug-tight, calibrate the DTI washers by fully3.tightening one of the four inside bolts (see Figure 4). Proper installationpretension is reached when the 0.015" feeler gauge can no longer beinserted all the way into the bolt shank at three or more of the fivenotches between the silicon markers (see Figure 5). Remember to makesure the bolt head does not turn while the nut is turned.
Tighten all bolts, starting with the most rigid part of the joint (typically4.the three remaining inside bolts, and then the four bolts above andbelow the beam) (see Figure 4). The proper installation pretension isreached when the amount of squirt from the silicon markers matchesthe washer from the calibration in Step 3. When tightening bolts, makesure the bolt head does not turn while the nut is turned.
Verify that at least four of the silicon markers have squirted at each bolt.5.Completely flattened DTI washers are acceptable.
Column flangeBeam end plate
Finger shim(when required)
Gapacceptable
in theseareas
Tightenthesebolts
second
Inside bolts:tighten thesebolts first
Figure 4
Siliconemarkers
DTI washer
Insert feelergauge between
DTI washerand bolt head at
notch betweenprotrusions
0. 0 1 5
Figure 5
DTI protrusionsagainst bolt head
DTI washerunder bolt head
Nut
Hardenedwasher
Figure 1
Hold bolt head to keep it fromturning when the nut is turned
Turn nut
DTIwasher
Figure 2
DTIwasher
Orangesilicone forsnug-tight
bolt
Figure 3
Connection-Plate Gaps And Finger Shims
The finger shims provided may be used to adjust the connection betweenthe beam end plate and column flange. For a gap of 1 ⁄ 8" or less under thebolt head (see Figure 4) , draw plates together by tightening the bolts untilplates are in firm contact. If the gap exceeds 1 ⁄ 8", shims must be installed.Gaps away from the bolt heads are permitted. If the connection platescannot be drawn together sufficiently by tightening the bolts, additionalshims are required. Total thickness of shims under each bolt head mustnot exceed 1 ⁄ 4". To install shims, loosen connection bolts and slide providedshims around the bolts where necessary. Make sure shims do not protrude
beyond the outer edges of the connection plates, and re-tighten bolts.
Finger shim
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Strong Frame™
Suggested Installation Instructions for Retrofit Applications
Install anchorage into the footing per the Designer’s specifications.1.
Install2. 5 ⁄ 8" heavy hex nuts onto the anchors, lowering them all the waydown to the concrete. These will be used to level the frame.
Place the Strong Frame3. ™ columns onto the anchors so that they sit onthe leveling nuts.
Plumb both columns, and install temporary bracing on each,4.perpendicular to the building line. Install the remaining 5 ⁄ 8" heavy hexnuts, finger-tight against the base plate.
Raise the Strong Frame beam straight up between the two columns5.until the tops of the connection plates are flush. The interior columnwood nailers may need to be removed and replaced after the beam isin place.
Bolt the beam to the columns using6. 7 ⁄ 8" A325 high-strength bolts andwashers (included). DTI washers are also included and should be usedwhere required. Fully tighten the nuts with a wrench, tightening all thebolts on one side of the beam, and then the other. (See page 15.)
Rotate the nuts on the base plate to the top of the anchors and, working7.from side to side, raise the leveling nuts until the moment frame topplate is at proper elevation.
Retrofit Applications
Making sure that all leveling nuts are fully seated against the bottom of8.the base plate, fully tighten the baseplate nuts (½ turn past finger tight).Install non-shrink grout per instructions.
Re-install the ordinary moment frame column wood nailers using9.carriage bolts, if removed.
Strong Frame Ordinary Moment Frame Retrofit ApplicationsThe Strong Frame™ ordinary moment frame is an excellent option for retrofitting a moment frame into an existing structure. And withour new expanded range of standard as well as custom sizes, we can provide a moment frame for practically any field condition. It is theinstaller’s responsibility to safely and adequately temporarily shore the existing structure per OSHA and jurisdictional recommendationsduring the moment frame installation process. Check with the local building department for requirements.
Notes: This schematic is intended to illustrate one option for utilizing Strong Frame™ ordinary moment frame in a soft-story retrofit of a typical tuck-under parking application. Not all detailsfor a complete design are shown, nor is this the only way to accomplish such a retrofit. Structural analysis must be performed by a qualified design professional. See installation details.
Existingwall framing
Existing framing
Existing floorsheathing
Edgenailing
Existing floorframing
Shear transferby others(Simpson Strong-Tie® LTP4 shown)
Strong Frame™ moment frameinstalled behind existing framing(interior solution shown)
Shear
blocking
Existing soft-story building New Simpson Strong-Tie® Strong Frame™ ordinary moment frame
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Strong Frame™
C - S F 1 0 © 2 0 1 0 S I M
P S O N S T R O N G - T I E C O M P A N Y I N C .
Simplified DesignSimpson Strong-Tie® Strong Frame™ ordinary moment frames are pre-engineered and simplify design for a wide variety of applications:
Beams are designed as unbraced – no beam bracing required within•the span.
Frame designed assuming pinned-base condition.•
Allowable loads applicable to wind and seismic loads – no need to•
convert.
Use in the same manner as any other ordinary steel moment frame –•can be used in vertical and horizontal combinations with other lateral-force-resisting elements in accordance with the IBC and ASCE 7-05.
Designs are based on calculation – no test reports required; easily•adaptable to alternate installations. Calculation packages are availablefor each frame, contact Simpson Strong-Tie, if required.
Details are provided (in this catalog) to adjust the height of the top of•the frame when the frame height does not match the structure.
Details are provided (in this catalog) to allow additional beam and•column penetrations to simplify the installation of utilities.
Frames may be used as an alternative to braced-wall panels required•by the IBC and IRC. For more information, see the Strong Frame“Wall Bracing” section at www.strongtie.com.
Using this Catalog as a Design ToolThe selection of a complete moment frame design solution is easyusing the Strong Frame ordinary moment frame. A step-by-stepdescription of the design process is included in this catalog onpages 19–21, and design examples on pages 48–51 provide furtherinformation. After completing these steps, Designers will have all of theinformation necessary to properly specify the Strong Frame ordinarymoment frame and detail its installation:
Appropriate Strong Frame model•
Bolt tightening requirements (snug-tight or pretensioned)•Appropriate fasteners for the top-plate-to-nailer connection•
Anchorage assembly•
Type – OMFSL or OMFABo
Strength – standard or high strengtho
Anchor bolt rod length – 14", 18", 24", 30", or 36"o
Extension kit (where required)o
Minimum footing width and embedment depth for anchorage•
Inside and outside end distances for OMFSL anchorage assembly•
Tie or hairpin reinforcement for OMFAB anchorage assembly•
Design Information
For additional detailed information on the design and proper use ofStrong Frame ordinary moment frames, see General Notes on page 6and General Instructions for the Designer on page 7.
Bolt Tightening RequirementsIn order for the Strong Frame ordinary moment frame to achieve its ratecapacity, the connection plates must have firm contact and the bolts
must be properly tightened. Bolts shall be tightened in compliance withthe Specification for Structural Joints Using ASTM A325 or A490 Bolts ,published by the Research Council of Structural Connections (RCSC). TDesigner shall specify whether the installation requires snug-tight jointsor pretensioned joints.
For design of structures assigned to Seismic Design Category D, E, or F•pretensioned bolts are required.
For design of structures assigned to Seismic Design Category A, B, or •snug-tight bolts may be used when seismic design is based on R ≤ 3.
For design of structures assigned to Seismic Design Category A, B, or •pretensioned bolts are required when seismic design is based on R > 3
The Direct Tension Indicator (DTI) washers provided with each framemake verification of proper bolt installation easy for both snug-tight a
pretensioned bolts and are recommended for all installations. If the DTwashers are not used in connections that require pretensioned bolts,an alternate pretensioning method must be specified by the Designer,including pre-installation verification testing of the complete fastenerassembly and inspection procedures. For detailed information on theuse of the DTI washers provided, see page 15.
Base Plates and Non-Shrink GroutThe Strong Frame ordinary moment frame has been designed toaccommodate a 1 ½" grout pad below the column base plates in orderto facilitate plumbing and leveling of the frame. Proper performanceof the base connection and anchorage of the frame requires that non-shrink grout with a minimum compressive strength of 5,000 psi be
placed below the column base plates. The thickness of the grout padmay vary based on field conditions, but must be a minimum of ¾" thicand no more than 2" thick. Frame height dimensions throughout thiscatalog are based on a grout thickness of 1 ½" and must be adjusted foother grout pads. The Designer may specify installation of base platesdirectly on concrete (without grout) provided they are set level, to thecorrect elevation, and with full bearing.
Base plate design is based on 5 ⁄ 8" diameter anchor rods, which areincluded with the Simpson Strong-Tie OMFSL and OMFAB anchorageassemblies. Base plate holes are 7 ⁄ 8" diameter to allow for tolerances inplacement of the anchor rods. The Designer must evaluate the effects the oversized hole and provide plate washers with 11 ⁄ 16" diameter holeswelded to the base plate where required.
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Design Information
Anchorage DesignSimpson Strong-Tie offers pre-engineered anchorage solutions tosimplify the design process. Pages 39–44 provide solutions for bothtension and shear anchorage for all of the Strong Frame™ ordinarymoment frame models.
Tension Anchorage•Anchorage solutions for tension loads provide minimum anchor
rod embedment and footing size. Where additional uplift from windoccurs, Table 1.2 on page 39 may be used to design an anchoragesolution.
OMFSL and OMFAB Anchorage Assemblies•Simpson Strong-Tie offers two different pre-assembled anchorageassemblies. The OMFSL anchorage assembly places the frame flushwith the edge of concrete allowing it to fit into a standard 2x6 wallwithout bump-outs or furring. The OMFAB anchorage assembly withadditional concrete reinforcement is an economical alternative forapplications where 2½” (or greater) edge distance exists.
Flexible Anchorage Solutions•Both Simplified and Detailed options are provided for anchoragedesign in order to allow ease of design and specification as well asrefined design for project-specific load conditions. For simplified
anchorage solutions, after selecting a frame, all that is needed todetermine the required anchorage is the column size and nominalframe height. For cases where more economical anchorage isdesired, Detailed anchorage solutions provide capacities of theanchorage assemblies. Simply use the maximum reactions tabulatedin the allowable load tables for the selected frame, and find therequired anchorage with a capacity that exceeds the reactions. Foreven further economy, select an anchorage solution using reactionscalculated for project-specific loads as described in the footnotes ofthe allowable load tables
Anchorage Design Notes•The steel strength calculations for anchor shear and anchor tensionare per ACI 318-05 and 318-08 Appendix D. Tension and shearanchorage are designed as follows:
Element Code Section
Anchor rod strength in tension ACI 318, D.5.1
Anchor breakout strength in tension ACI 318, D.5.2Anchor pullout strength in tension ACI 318, D.5.3
Anchor rod strength in shear ACI 318, D.6.1
Embedded plate bending strength AISC Chapter F
Concrete shear strength – shear lug AISC Design Guide 1
Concrete shear strength – tied anchorage ACI 318, chapter 10
Anchorage Designs are based on LRFD loads. For designs under the2006 IBC, tension anchorage for seismic loads complies with ACI318-05 Appendix D; design includes application of 0.75 factor onconcrete strengths (Section D.3.3.3) and the strength is governedby a ductile steel element (Section D.3.3.4) or is based on 2.5 xfactored loads (Section D.3.3.5 with modifications contained in 2006IBC section 1908.1.16). For designs under the 2009 IBC, tension
anchorage for seismic loads complies with ACI 318-08 AppendixD; design includes application of 0.75 factor on concrete strengths(Section D.3.3.3), and strength is governed by a ductile steel element(Section D.3.3.4) or is based on 2.5 x factored loads (Section D.3.3.6).
Anchorage designs are based on embedment for tension into thefoundation, while shear design is based on resistance within thecurb or slab. For other conditions, the designer must consider theinteraction of tension and shear concrete failure surfaces.
InspectionsInspection requirements for the Strong Frame ordinary moment frameare no different than for any other ordinary steel moment frame. TheDesigner must designate what inspections are required in accordancewith the local code, based on building occupancy, concrete strength,requirements of the local building official, and other considerations.
Because the Strong Frame ordinary moment frame includes pre-manufactured components, all welding inspections are completed duringthe manufacturing process. Welding of the frame members is performedon the premises of a fabricator registered and approved in accordancewith the requirements of IBC Section 1704.2.2 for fabricator approval,so special inspections contained in IBC Section 1704 are not required.Special inspection for seismic resistance required by IBC Section 1707for welding is completed during the manufacturing process.
If required, inspection of fastener assemblies (high-strength bolt, DTIwasher, hardened washer, and heavy hex nut) for the bolted beam-to-column connections is easy. Fastener assembly lots are randomlysampled and pre-installation verification testing is performed to confirminstallation procedures and performance of the fastener components.
The easy-to-use Direct-Tension-Indicator (DTI) washers included withevery Strong Frame moment frame installation kit make it easy toverify proper bolt pretensioning in the field – see page 15 for furtherinformation on use of the DTI washers. For projects where inspectionof the bolts is required, Certificates of Conformity for the fastenerassemblies may be obtained for each hardware kit lot number underLot Control for Structural Fastener Assemblies on the Strong FrameMoment Frame page at www.strongtie.com. The lot number is locatedon the beam and on the hardware box.
Additional InformationFor additional information on the design and use of Strong Frameordinary moment frames, see Installation Details on pages 53–65, andFrequently Asked Questions in the Strong Frame moment frame sectionat www.strongtie.com.
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Frame Selection
Step 1Check if OMF ispermitted
Determine if an ordinary steel moment frame is permitted for your structure. For structures designed in accordance with ASCE 7-05Ordinary steel moment frames may be used in Seismic Design Categories A, B and C without limitations•Ordinary steel moment frames may be used in Seismic Design Categories D, E and F subject to limitations set forth in•Sections 12.2.5.6, 12.2.5.7, and 12.2.5.8
Step 2 Check R value If seismic loads are calculated using R > 3.5, convert loads by multiplying by the R used in design and dividing by 3.5.
Step 3Select nominalheight and width
Select the nominal height (8', 9', 10', 12', 14', 16', 18', or 19') for your structure where the frame will be installed and find thecorresponding allowable load table on pages 22–37. Next select the frame clear-opening width (8'-2", 10'-2", 12'-4", 14'-4", 16'-4", 18'-4", or 20'-4") that will accommodate the required wall penetration.
Step 4Check verticalloading
Compare vertical loads on your frame with the limits listed in footnotes 2 and 3 of the allowable load tables:If the beam is loaded with only uniformly distributed vertical loads and the allowable stress design (ASD) uniform loads•are all less than the limits listed in footnote 2, use “Maximum Shear” values. If S DS > 1.0, check if uniform dead load mustinclude additional vertical seismic load effects (see allowable load tables, footnote 2).If the beam is loaded with uniform vertical loads that exceed the limits, a single vertical point load at mid-span, or multiple•
point loads applied symmetrically about mid-span, use “Minimum Shear" values.If your vertical loading does not meet these criteria, use the Simpson Strong-Tie• ® Strong Frame™ Ordinary Moment FrameSelector software or contact Simpson Strong-Tie to perform a design for custom loading or complete alternate loadingworksheet on page 66.
Step 5SelectStrong Framemodel
Using the Maximum Shear or Minimum Shear as determined in Step 4, select a frame with a tabulated allowable ASD shear thatexceeds the applied load. For wind design, check that the tabulated drift meets drift limits established for the project. Drift may belinearly reduced if the applied load is less than the tabulated frame capacity. (See footnote 16 on allowable load tables.)
Step 6 Check WmaxFor frames selected using Minimum Shear values, check that the maximum total vertical load based on ASD load combinations isless than the tabulated value of Wmax. If not, select a different frame and re-check.
Step 7CheckStrong Framedimensions
Using nominal height and width tables above the allowable load tables, verify that the Strong Frame selected will accommodatethe required wall opening:
Check that the clear-opening width (W1) is equal to or greater than the wall opening width.•Check that the outside frame width (W2) fits within the available wall space.•Check that the frame's clear-opening height (H3) is equal to or greater than that required (remember to add the curb/ •stemwall height to H3 for installations with the frame base above the floor level).
Step 8Select bolttighteningrequirements
Determine if snug-tight or pretensioned bolts are required for the end plate connections:In Seismic Design Categories D, E, or F, pretensioned bolts are required•In Seismic Design Category A, B, or C, snug-tight bolts may be used when seismic design is based on R ≤ 3, otherwise•pretensioned bolts are required.
Step 9Select top platefasteners
In the allowable load tables, select between the nail (16d commons) and screw (1/4"x3-1/2" SDS) options for attaching a field-installed top plate to the frame nailers. For seismic design, quantity of fasteners must be increased if the connection is requiredto be designed as a collector for load combinations with overstrength (see ASCE 7-05, Section 12.10.2.1).
Strong Frame™ Ordinary Moment Frame and Anchorage Selection
Frame Selection Procedure
Selection of a Strong Frame Ordinary Moment Frame and accompanying anchorage is easy using the information provided in thiscatalog. Tables are provided that include the information Designers need to properly select, specify and detail a frame and anchoragethat meets their project requirements. The information below provides the Designer with a step-by-step selection procedure. Thedesign examples on pages 48-51 illustrate the procedure with reference to each step. To further aid the Designer, the color bands nextto the steps correspond with the colored tabs on the pages with the corresponding tables and design information.
This key illustrates where to find the information in the tableson pages 22–37 for selection steps.
Strong Frame™ Ordinary Moment Frame – 8 ft. Nominal Heights
Model
Allowable ASD ShearLoad V (lbs) 1, 8
MaximumTotal
GravityLoad,
Wmax 3, 9
(lbs)
Drift atAllowShear
Load V7 (in.)
ShearReactionFactor,
X4
Maximum Column Reactions (lbs) 10Top Plate to Nailer
Connection6Approx.
TotalFrameWeight(lbs)
Tension5
Shear for Wind& Seismic
with R ≤ 3.0 13
Shear for Seismicwith R = 3.5 14,15
MaximumShear 2,12
MinimumShear3, 12
16dOption
¼"x3½"SDS Screw
OptionDue tow+V 4
Due toWmax+V 4
Ωo=2.5 Ωo=3.0
Height = 8'-0¾", Drift limit = 0.56" 16
OMF69-8x8 5,585 5,245 38,500 0.56 0.081 4,545 3,235 6,190 9,580 10,870 25 11 835
OMF612-8x8 6,950 6,580 40,000 0.56 0.054 5,695 3,770 5,750 10,230 11,850 31 13 865
OMF99-8x8 9,540 9,395 22,000 0.56 0.117 7,675 5,420 7,630 11,435 11,435 43 18 850
OMF912-8x8 13,575 13,195 40,000 0.56 0.092 10,995 7,300 10,790 15,335 15,335 61 25 885
OMF129-8x8 12,355 12,160 25,500 0.56 0.138 9,710 6,970 10,095 14,825 14,825 55 23 920
OMF1212-8x8 19,670 19,355 33,500 0.56 0.120 15,580 10,525 14,265 20,015 20,015 88 37 950
OMF1512-8x8 23,940 23,905 12,500 0.56 0.139 18,505 12,785 13,925 21,140 21,140 107 45 975
Step 5 Step 6 Step 3 Step 9
NominalHeight
H1 H2Bottom Nailer Height, H3
with 9" Beam with 12" Beam
8' 8'-0 3 ⁄ 4" 7'-11 1 ⁄ 4" 6'-10 1 ⁄ 4" 6'-6 3 ⁄ 4"9' 9'-0 3 ⁄ 4" 8'-11 1 ⁄ 4" 7'-10 1 ⁄ 4" 7'-6 3 ⁄ 4"
10' 10'-0 3 ⁄ 4" 9'-11 1 ⁄ 4" 8'-10 1 ⁄ 4" 8'-6 3 ⁄ 4"12' 12'-0 3 ⁄ 4" 11'-11 1 ⁄ 4" 10'-10 1 ⁄ 4" 10'-6 3 ⁄ 4"
14' 14'-0 3 ⁄ 4" 13'-11 1 ⁄ 4" 12'-10 1 ⁄ 4" 12'-6 3 ⁄ 4"16' 16'-0 3 ⁄ 4" 15'-11 1 ⁄ 4" 14'-10 1 ⁄ 4" 14'-6 3 ⁄ 4"18' 18'-2 3 ⁄ 4" 18'-1 1 ⁄ 4" 17'-0 1 ⁄ 4" 16'-8 3 ⁄ 4"19' 19'-2 3 ⁄ 4" 19'-1 1 ⁄ 4" 18'-0 1 ⁄ 4" 17'-8 3 ⁄ 4"
All heights assume 1-1 ⁄ 2" non-shrink grout below the column.
H1 assumes a single 2x6 on top of the pre-installed beam nailers.
Step 7
NominalWidth
W1Outside Frame Width, W2
C6 C9 C12 C15
8' 8'-2" 9'-8" 10'-2" 10'-8" 11'-2"
10' 10'-2" 11'-8" 12'-2" 12'-8" 13'-2"
12' 12'-4" 13'-10" 14'-4" 14'-10" 15'-4"
14' 14'-4" 15'-10" 16'-4" 16'-10" 17'-4"
16' 16'-4" 17'-10" 18'-4" 18'-10" 19'-4"
18' 18'-4" 19'-10" 20'-4" 20'-10" 21'-4"
20' 20'-4" 21'-10" 22'-4" 22'-10" 23'-4"
All widths assume single 2x6 nailer on each column flange
Step 7
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Tension Anchorage
Step 1Determineconcrete condition
Determine whether uncracked or cracked concrete is applicable for anchorage design (see ACI 318, Appendix D). Assumingcracked concrete is conservative.
Step 2Select anchoragedesign method
Determine which method to use for selecting anchorage solutions:Simplified – This is the quickest and easiest method, requiring only the column size and frame height to select the•anchorage. This method can result in a conservative design for some frames and loading conditions. The Simplified methodis not applicable for seismic designs that use R = 3.5.
Detailed – This method uses column reactions and anchorage assembly capacities to select a solution. The maximum•
column reactions tabulated in the allowable load tables may be used, or for further economy, the reactions calculated for theproject-specific design loads can be used (see footnotes 4 and 5 of the allowable load tables on pages 23–37).
Step 3Determine tensionreaction
Determine the maximum tension reaction for tension anchorage design:For Simplified anchorage design, no calculation of react ions is required. Solutions presented in Table 1.1 on page 39•consider maximum tension reaction for each group of frames.For Detailed anchorage design, use maximum tension reaction tabulated in the allowable load table for the frame selected, or•calculate tension reaction based on design loads in accordance with footnote 5 of the allowable load tables on pages 23–37.
Step 4Select minimumfooting size fortension
Determine minimum embedment and footing size for tension anchorage:For Simplified anchorage design, select embedment and footing width from Table 1.1 on page 39 based on column size and•nominal frame height.For Detailed anchorage design, use the Tension Anchorage Allowable Loads Table 1.2 on page 39 to select embedment and•footing width with a capacity that exceeds the tension reaction.
Step 5Determineanchorage
assembly strength
Standard strength anchorage assemblies are adequate for tension except where shown in the anchorage tables:For Simplified anchorage design, installations requiring high strength anchorage are determined as a part of shear•anchorage design (see footnote 8 of Table 1.1 on page 39)
For Detailed anchorage design, installations requiring high strength anchorage are designated in footnote 6 of Table 1.2•
on page 39.
Step 6Determine rodlength and footingsize
Add the step height (height of concrete above the top of footing) to the minimum required embedment, de, and select ananchorage assembly model number with an embedded rod length, le, that is equal or greater. If this value exceeds the maximumembedded rod length for the anchorage assembly, select an extension kit to achieve the necessary rod length. Note that theembedded rod length is different for OMFSL and OMFAB anchorage assemblies with the same total rod length. See Step 1 ofGeneral Shear Anchorage Design for selection of anchorage assembly type.
Tension-Anchorage Selection Procedure
Anchorageassembly
S t e p
h e i g h t
de min.
4 "
m i n .
½ W ½ W
W
le
Section at Slab on Grade
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Shear-Anchorage Selection Procedure
General Shear Anchorage
Step 1Select anchorageassembly type
Select which anchorage assembly you want to use:The OMFSL anchorage assembly is easier to install and allows the frame to be installed flush with the edge of concrete, but•may require additional end distance.The OMFAB anchorage assembly offers higher shear capacities without increasing concrete strength or end distance, but•requires an increased edge distance and additional tie or hairpin reinforcement.
Step 2Select anchoragedesign method
Determine which method to use for selecting anchorage solutions:
Simplified – This is the quickest and easiest method, requiring only the column size and frame height to select the•anchorage. This method can result in a conservative design for some frames and loading conditions. The Simplified methodis not applicable for seismic designs that use R = 3.5.Detailed – This method uses column reactions and anchorage assembly capacities to select a solution. The maximum•column reactions tabulated in the allowable load tables may be used, or for further economy, the reactions calculated for theproject-specific design loads can be used (see footnotes 4 and 5 of the allowable load tables on pages 23–37).
Step 3Determine shearreactions
Determine the maximum shear reaction for shear anchorage design:For Simplified anchorage design, no calculation of reactions is required. Solutions presented in Table 2.1 (page 41) and•Table 3.1 (page 44) consider maximum shear reaction for each group of frames.For Detailed anchorage design, use maximum column shear reaction tabulated in the allowable load table for the frame•selected, or shear reaction calculated using footnote 4 of the allowable load tables on pages 23–37. For OMFSL, determine shearreaction at both tension and compression columns. For OMFAB, only the shear reaction at the compression column is required
OMFSL Shear Anchorage
Step 4
Determine inside
and outside enddistance
Determine the minimum inside and outside end distance in concrete:For Simplified anchorage design, determine directly from Table 2.1 on page 41.•
For Detailed anchorage design, use the shear reactions from Step 3 and the OMFSL shear capacities in Table 2.2 or 2.3.•Select an inside end distance with a capacity that exceeds the tension column shear reaction, and an outside end distancewith a capacity that exceeds the compression column shear reaction.
Step 5Determineanchorageassembly strength
If high strength anchorage is required for tension, specify a high strength OMFSL anchorage assembly. Otherwise, standardstrength anchorage assemblies are adequate for OMFSL except for shaded regions of the anchorage tables.
Step 6VerifyStrong Framedimensions
If additional studs are required for end distances, check that modified OMF dimensions will accommodate the required wall openingIf inside end distance exceeds that corresponding to the pre-installed nailer installed flush with inside end of curb, subtract•the thickness of additional studs required at each column from the clear-opening width, W1, and check that this still exceedthe required opening width.If outside end distance exceeds that corresponding to the pre-installed nailer installed flush with outside end of curb, add•the thickness of additional studs required at each column to the outside frame width, W2, and check that this still fits withinthe available wall space.
OMFAB Shear Anchorage
Step 4 Determinereinforcement
Determine the minimum concrete reinforcement required:
For Simplified anchorage design, determine directly from Table 3.1 on page 44.•For Detailed anchorage design, use the compression column shear reaction from Step 3 and the OMFAB shear capacities in•Table 3.2 on page 44 to select tie or hairpin reinforcement with a capacity that exceeds the shear reaction.
Step 5Determineanchorageassembly strength
If high strength anchorage is required for tension, specify a high strength OMFAB anchorage assembly. Otherwise, standardstrength anchorage assemblies are adequate for OMFAB except for shaded regions of the anchorage tables.
Outside enddistance
Inside enddistance
Pre-attachednailer
Additionalstud as
required
End of curbas occurs
1¼"Minimum
edge distance
C
u r b
w
i d t h
Plan View – Stemwall/Curb(OMFSL)
2 ½ " m
i n .
e d g e
d i s t a n c e
8 "
m i n
.
c u r b
End
distance
Plan View – Curb/Stemwall(OMFAB)
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8 ft. Nominal Heights: Allowable Loads
Strong Frame™ Ordinary Moment Frame – 8 ft. Nominal Heights
Model
Allowable ASD ShearLoad V (lbs) 1, 8
MaximumTotal
GravityLoad,
Wmax3, 9
(lbs)
Drift atAllowShear
Load V7 (in.)
ShearReactionFactor,
X4
Maximum Column Reactions (lbs) 10Top Plate to Nailer
Connection 6Approx.
TotalFrameWeight(lbs)
Tension5
Shear for Wind& Seismic
with R ≤ 3.0 13
Shear for Seismicwith R = 3.5 14,15
MaximumShear 2,12
MinimumShear 3, 12
16dOption
¼"x3½"SDS Screw
OptionDue tow+V 4
Due toWmax+V
4 Ωo=2.5 Ωo=3.0
Height = 8'-0¾", Drift limit = 0.56" 16
OMF69-8x8 5,585 5,245 38,500 0.56 0.081 4,545 3,235 6,190 9,580 10,870 25 11 835
OMF612-8x8 6,950 6,580 40,000 0.56 0.054 5,695 3,770 5,750 10,230 11,850 31 13 865
OMF99-8x8 9,540 9,395 22,000 0.56 0.117 7,675 5,420 7,630 11,435 11,435 43 18 850
OMF912-8x8 13,575 13,195 40,000 0.56 0.092 10,995 7,300 10,790 15,335 15,335 61 25 885
OMF129-8x8 12,355 12,160 25,500 0.56 0.138 9,710 6,970 10,095 14,825 14,825 55 23 920
OMF1212-8x8 19,670 19,355 33,500 0.56 0.120 15,580 10,525 14,265 20,015 20,015 88 37 950
OMF1512-8x8 23,940 23,905 12,500 0.56 0.139 18,505 12,785 13,925 21,140 21,140 107 45 975
OMF69-10x8 5,290 5,040 32,500 0.56 0.109 3,460 3,370 6,555 9,750 10,945 24 11 890
OMF612-10x8 6,760 6,410 40,000 0.56 0.075 4,470 3,880 6,630 10,885 12,465 30 13 930
OMF99-10x8 8,765 8,665 18,500 0.56 0.150 5,725 5,400 7,485 11,435 11,435 39 17 910
OMF912-10x8 12,915 12,665 31,000 0.56 0.121 8,530 7,280 10,620 15,335 15,335 58 24 950
OMF129-10x8 11,080 10,935 22,500 0.56 0.172 7,115 6,735 9,885 14,825 14,825 50 21 980
OMF1212-10x8 18,340 18,095 28,000 0.56 0.153 11,915 10,235 13,935 20,015 20,015 82 34 1,020
OMF1512-10x8 21,960 21,925 14,000 0.56 0.173 13,995 12,205 13,720 21,140 21,140 98 41 1,040
OMF69-12x8 4,990 4,810 27,500 0.56 0.140 2,665 3,690 6,805 9,830 10,945 23 13 955
OMF612-12x8 6,550 6,335 29,500 0.56 0.100 3,555 4,070 6,540 10,795 12,360 30 13 1,000
OMF99-12x8 8,010 7,960 16,500 0.56 0.185 4,320 5,510 7,465 11,435 11,435 36 15 975
OMF912-12x8 12,220 12,055 25,000 0.56 0.155 6