32AustinCircle12 beam calcKeyBeam® Calculation
Work Order
Phone: 303-443-20686707 Winchester CircleEWPjobs@keymark.com
Fax: 303-443-2196Boulder, CO 80301www.keymark.com
Bill To Information: Date Received: 07/08/2013 Required: 07/10/2013
Contact Person :Bill Ingham
Company Name :Roseburg Forest Products
PO Box 922
South Hadley, MA 01075
Phone / Fax :4134273233 / 8772711080
Email :billi@rfpco.com;davea@rfpco.com
Shipping Info :US Mail
# Wet Seals Required :1
# Wet Seals to Bill for :0
State Seal Required :Massachusetts
Ship-To Information :
Ship-To Contact :Stephen Carr
Ship-To Company :Seven D
Ship-To Phone / Fax :8008006894 /
Ship-To Shipping :Standard Email ()
Ship-To Email :plans@degol.com
Fax a Copy to Us :[ ]Fax a Copy to Client :[ ]
KeyBeam® Calculation
Work Order
Phone: 303-443-20686707 Winchester CircleEWPjobs@keymark.com
Fax: 303-443-2196Boulder, CO 80301www.keymark.com
Joist and Review Information
Job Description :32AustinCircle1 Number of Component Members :1
Confirmation Number :0708074525 1st Review :__________ Final Check Off :__________
Comments
Billing Information
__________ Joists @ _______________
__________ Copies @ _______________
Total Bill Amount: ___________________
Approved By: ___________ Date: ___________
EmployeeDateTech Hrs.Eng Hrs.
---07/08/20130.000.25
________________________________________________
KeyBeam® Calculation
07/08/13
05:45:34
1 of 4
Keymark Engineering, Inc.
6707 Winchester Circle
Boulder, CO 80301
Phone: 303-443-2068
EWPjobs@keymark.com
All product names are trademarks of their respective owners.
Copyright (c) 2012 by Simpson Strong-Tie Company, Inc. ALL RIGHTS RESERVED.
This drawing is an integral part of a floor joist component document as defined in theattached General Notes. This drawing is not completewithout the accompanying General Notes.The Engineer's Seal on this drawing indicates only that the floor joist component shownon this drawing meets applicable design criteria for Loads, Loading Conditions, and Spanslisted on this sheet. This design assumes product installation according to themanufacturer's specifications.
---Keymark Engineering
Cover Sheet
Job :32AustinCircle1
Confirmation # :0708074525
Contact Person :Bill Ingham
Company Name :Roseburg Forest Products
PO Box 922
South Hadley, MA 01075
Phone / Fax :4134273233 / 8772711080
Email :billi@rfpco.com;davea@rfpco.com
Ship-To Contact :Stephen Carr
Ship-To Company :Seven D
Ship-To Phone / Fax :8008006894 /
Ship-To Email :plans@degol.com
Member Information
( 1)- 07_03_13_Joist1.KYB
Comments
KeyBeam® Calculation
07/08/13
05:45:34
2 of 4
Keymark Engineering, Inc.
6707 Winchester Circle
Boulder, CO 80301
Phone: 303-443-2068
EWPjobs@keymark.com
All product names are trademarks of their respective owners.
Copyright (c) 2012 by Simpson Strong-Tie Company, Inc. ALL RIGHTS RESERVED.
This drawing is an integral part of a floor joist component document as defined in theattached General Notes. This drawing is not completewithout the accompanying General Notes.The Engineer's Seal on this drawing indicates only that the floor joist component shownon this drawing meets applicable design criteria for Loads, Loading Conditions, and Spanslisted on this sheet. This design assumes product installation according to themanufacturer's specifications.
---Keymark Engineering
Floor Joist, Beam, and Girder Component General Notes
1. FLOOR JOIST, BEAM, AND GIRDER COMPONENT DOCUMENT
A Member Component Document is defined herein as being composed of a cover letter, this set of general notes, individual floor joist, beam, or girder design drawings. The cover letter lists the contents of the Member Component Document. Each sheet of this Member
Component Document is an integral part of the whole, and shall be used only for the specific job name listed on the cover letter. This
Member Component Document is the exclusive property of Keymark Engineering, and shall not be copied, transferred, or reproduced, in
whole or in part, without the written consent of Keymark Engineering, Inc. Copyright Keymark Engineering, Inc., 2010, all rights reserved.
2. COMPONENT DESIGN
This design is for an individual building member component and has been based on information provided by the client. The Member
Component Designer disclaims any responsibility for damages as a result of faulty or incorrect information, specifications, and/or designs
furnished to the Member Component Designer by the client and the correctness or accuracy of this information as it may relate to a specific
project. The Member Component Designer accepts no responsibility and exercises no control with regard to fabrication, handling, shipment,
and installation of member components. Each member component specified herein has been designed as an individual building
component. Each component shall be incorporated as part of the building design by a Building Designer (registered architect or
professional engineer, as applicable). The Building Designer shall review the design loading, member component geometry, and all other
aspects of each component design to ensure that the data shown are in agreement with the local building codes, local climatic records for snow or wind loads, project specifications, or special applied loads.
3. FABRICATION NOTES
Prior to fabrication, the fabricator shall review this Member Component Document to verify that this Member Component Document is in
conformance with the fabricator’s plans and to realize a continuing responsibility for such verification. Fabrication of member components
shall not proceed until the fabricator has certified drawings in hand.
4. PRECAUTIONARY NOTES
Refer to the manufacturer’s recommendations for instructions on handling, bundling, and delivery of the member components specified
herein.
5. MODIFICATION OF COMPONENT MEMBERS
Refer to the manufacturer’s recommendations for instructions on allowable modifications of the member components specified herein.
6. MEMBER COMPONENT TO MEMBER COMPONENT CONNECTION DESIGN
The design of any connections between member components and other member components is not provided with the component designs
specified herein. Web stiffener requirements at hangered connections depend on the connection style and are not included in this design.
Supported components attached to the side of this member with reactions greater than 400 lbs shall be attached in such a way to preclude
twisting of this member.
7. MEMBER COMPONENT TO STRUCTURE CONNECTION DESIGN
The design of any connections between the member component and other elements of the overall structure is not provided with the
component designs specified herein.
8. UPLIFT REACTIONS
Floor joists, beams or girders with multiple spans may generate uplift reactions due to gravity loads. The reactions shown in these
calculations assume that all of the bearings are infinitely stiff. The Building Designer shall review all reaction forces and ensure that the
structure can resist any uplift reactions appropriately.
9. LATERAL BRACING
All lateral bracing requirements apply along the entire length of the component member. The design of the individual component member
brace and the anchorage of the brace is the responsibility of the Building Designer. Design assumes that the component member is braced
top and bottom at all bearing locations.
KeyBeam® Calculation
07/08/13
05:45:34
3 of 4
Keymark Engineering, Inc.
6707 Winchester Circle
Boulder, CO 80301
Phone: 303-443-2068
EWPjobs@keymark.com
All product names are trademarks of their respective owners.
Copyright (c) 2012 by Simpson Strong-Tie Company, Inc. ALL RIGHTS RESERVED.
This drawing is an integral part of a floor joist component document as defined in theattached General Notes. This drawing is not completewithout the accompanying General Notes.The Engineer's Seal on this drawing indicates only that the floor joist component shownon this drawing meets applicable design criteria for Loads, Loading Conditions, and Spanslisted on this sheet. This design assumes product installation according to themanufacturer's specifications.
---Keymark Engineering
10. MULTI-PLY COMPONENTS
Multi-ply components shall be connected together in accordance with the manufacturer’s recommendations
11. BEARING LENGTH
The “Input Brg. Length” listed on the individual floor joist, beam, or girder design drawing is the actual length of bearing at that location. The“Minimum Brg. Length” on the individual floor joist, beam, or girder design drawing is the minimum required length of bearing at that location.
The length of the bearing is measured along the length of the member. The width of the bearing is measured perpendicular to the length of
the member. Each ply of the member shall be supported for the full member width, for the full required minimum length of the bearing.
12. POINT LOADS OVER A BEARING
Point loads applied over a bearing are assumed to be carried not by the I-joist, beam, or girder, but instead by rim board, squash blocks, or
some other means. Therefore the points loads over the bearings will be included in the bearings and reactions summary, but will not be
considered when evaluating the interior and end reactions and is indicated on the drawings by “Pass-thru” framing is required at point loads
over bearings.
13. PONDING WARNING
Where components are used in roof systems, these components have not been investigated for the effects of ponding. The Building
Designer shall ensure that adequate drainage has been provided, and that the roof system as a whole is not susceptible to ponding.
KeyBeam® Calculation
07/08/13
05:45:34
4 of 4
Keymark Engineering, Inc.
6707 Winchester Circle
Boulder, CO 80301
Phone: 303-443-2068
EWPjobs@keymark.com
All product names are trademarks of their respective owners.
Copyright (c) 2012 by Simpson Strong-Tie Company, Inc. ALL RIGHTS RESERVED.
This drawing is an integral part of a floor joist component document as defined in theattached General Notes. This drawing is not completewithout the accompanying General Notes.The Engineer's Seal on this drawing indicates only that the floor joist component shownon this drawing meets applicable design criteria for Loads, Loading Conditions, and Spanslisted on this sheet. This design assumes product installation according to themanufacturer's specifications.
---Keymark Engineering
KeyBeam® 4.600dkmBeamEngine 4.6026Materials Database 1418
JOEY @ BOILARDSNEW ENGLAND EQUITIES32 AUSTIN CIR, FLORENCE, MA
7- 3-13 4:40pm Seal: Massachusetts
Member Data
Description:Member Type: JoistApplication: Floor
Top Lateral Bracing: ContinuousBottom Lateral Bracing: Continuous
Standard Load:Moisture Condition: DryBuilding Code: IBC/IRC
Live Load: 40 PSFDeflection Criteria: L/480 live, L/240 total
Dead Load: 10 PSFDeck Connection: Glued & Nailed
Filename: KYB1
Other Loads
Type
(Description)SideBeginEnd
Other
StartEnd
Dead
StartEndCategory
Replacement Uniform (PSF)Top 0' 0.00" 24' 0.00" 30 15 Live
1 2 24 0 0
24 0 0
Bearings and Reactions
InputMinGravityGravity
LocationTypeMaterialLengthRequiredReactionUplift
1 0' 0.000" Wall N/AN/A1.750" 724# -- 2 24' 0.000" Wall N/AN/A1.750" 724# --
Maximum Load Case Reactions
Used for applying point loads (or line loads) to carrying members LiveDead
1483#(362plf)241#(181plf)
2483#(362plf)241#(181plf)
Design spans
24' 1.750"
Product:16" RFPI-90 16.0" O.C.PASSES DESIGN CHECKS
Minimum 1.75" bearing required at bearing # 1 Minimum 1.75" bearing required at bearing # 2
Design assumes continuous lateral bracing along the top chord.
Design assumes continuous lateral bracing along the bottom chord. Lateral support is required at each bearing.
Allowable Stress Design
ActualAllowableCapacityLocationLoading
Positive Moment 4373.'# 13865.'# 31% 12' Total Load D+L
Shear 724.# 2330.# 31% 0' Total Load D+LTL Deflection 0.3562" 1.2073"L/813 12' Total Load D+L
LL Deflection 0.2374" 0.6036"L/999+ 12' Total Load L
Control: LL Deflection
DOLs: Live=100% Snow=115% Roof=125% Wind=160%
07/08/2013