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Home My WebLink About HD Fowler Storage Shed CZC A-2015-0056CERTIFICATE OF ZONING COMPLIANCE REPORT CAVI E IDIAN-- DATE: November 19, 2015 TO: Superior Paint and Construction FROM: C.Jay Coles, Assistant City Planner SUBJECT: HD Fowler Storage Shed - CZC - A-2015-0056 OWNER: CAIR PARAVEL LLC DESCRIPTION OF APPLICANT'S REQUEST The applicant, Superior Paint and Construction, requests Certificate of Zoning Compliance (CZC) approval of a dry storage building on 4.91 acres of land in the I -L zoning district. The site is located at 123 S. Baltic Avenue. Because the proposed building is internal to the site and its visibility is limited, Stafffinds administrative design review is not required. DECISION The applicant's request for Certificate of Zoning Compliance and Design Review is approved with the conditions listed in this report. Note: This is not a building permit Please contact Building Services at (208) 887-22II to verify if you need a building permit and/or inspection. If you do need a building permit, you must complete that process before you commence the use or construction. Please contact Building Services for additional details about building permits and inspections. Site Conditions of Approval 1. Structure shall not encroach on the existing City of Meridian Sewer and Water Easement Instrument No. 114048095 as shown on the plat of Baltic Place Addition Subdivision. 2. Applicant shall submit site plan showing location of building (with the building drawn on the plan) and the location of the City of Meridian Sewer and Water Easement Instrument No. 114048095 with the Building Division Submittal to ensure building is outside of easement. Process Conditions of Approval 1. No signs are approved with this application. Prior to installing any signs on the property, the applicant shall submit a sign permit application consistent with the standards in UDC Chapter 3 Article D and receive approval for such signs. 2. The applicant shall complete all improvements related to public life, safety, and health as set forth in UDC 11 -5C -3B. A surety agreement may be accepted for other improvements in accord with UDC 11 -5C -3C. 3. The site plan prepared by Cole Architects on February 20, 2014, labeled A100, is approved as shown in Exhibit B. 4. The elevations prepared by Superior Painting and Construction on 10/15/2015, are approved as shown in Exhibit C. Conditions Document 1 HD Fowler Storage Shed - CZC - A-2015.0056 5. The approved site plan, landscape plan and/or elevations may not be altered without prior written approval of the City of Meridian Planning Division. 6. The applicant shall pay any applicable impact fees prior to the issuance of a building permit. 7. If any changes must be made to the site plan to accommodate ACHD requirements; the applicant shall submit a new site plan to the City of Meridian Planning Division for approval prior to issuance of the building permit. 8. The applicant shall complete all required improvements prior to issuance of a Certificate of Occupancy. It is unlawful to use or occupy any building or structure until the Building Official has issued a Certificate of Occupancy. Ongoing Conditions of Approval 1. The applicant and/or assigns shall have the continuing obligation to provide irrigation that meets the standards as set forth in UDC 11-3B-6 and to install and maintain all landscaping as set forth in UDC 11-3B-5, UDC 11-3B-13 and UDC 11-3B-14. 2. The applicant shall comply with the outdoor storage as an accessory use standards as set forth in UDC 11-3A-14. 3. The project is subject to all current City of Meridian ordinances and previous conditions of approval associated with this site (CZC-14-009). 4. The issuance of this CZC does not release the applicant from any previous requirements of the other permits issued for the site. 5. The applicant and/or property owner shall have an ongoing obligation to prune all trees to a minimum height of six feet above the ground or sidewalk surface to afford greater visibility of the area. 6. The applicant shall have an ongoing obligation to maintain all pathways. 7. The applicant has a continuing obligation to comply with the outdoor lighting provisions as set forth in UDC 11-3A-11. 8. The applicant and/or property owner shall have an ongoing obligation to maintain all landscaping and constructed features within the clear vision triangle consistent with the standards in UDC 11-3A-3. CITY COUNCIL REVIEW The applicant or a party of record may request City Council review of a decision of the Director. All requests for review shall be filed in writing with the Planning Division on or before December 4, 2015, within fifteen (15) days after the written decision is issued, and contain the information listed in UDC 11 -5A -6B. If City Council review of the decision is not requested, the action of the Director represents a final decision on a land use application. You have the right to request a regulatory taking analysis under Idaho Code 67-8003. EXPIRATION Certificates of Zoning Compliance issued in conjunction with a proposed use shall expire if the use has not commenced within one year of the date of issuance of the Certificate of Zoning Compliance. Certificates of Zoning Compliance issued in conjunction with construction or alteration of a structure shall expire if the construction or alteration has not commenced within one year of the date of issuance of the Certificate of Zoning Compliance. In accord with the above provisions, the subject Certificate of Zoning Compliance is valid until November 19, 2016. Conditions Document 2 HD Fowler Storage Shed - CZC - A-2015-0056 EXHIBITS A. Vicinity Map B. Site Plan (dated: February 20, 2014) C. Elevations (dated: 10/15/2015) Conditions Document 3 HD Fowler Storage Shed - CZC - A-2015-0056 A. Vicinity Map Vicinity Map o 0.125 0.25 Aft 550 603 630 690012 '360 810 3fi5 50 The information shorn an lhbmapls umpAetl Rom various Legend l_ .� ass sources and . so5lee+ tp 'nothand, R,,.an_ ,ria c" al _ I tl X wamanoy nargoamMtt N y Area f p ct F mo clonal,- I' Pkmnea N ny I N n&la 43 . 1 E 0 legal separated, ! The Parc Mane., 4 BH9_ _ ml nw contained h map. r 599 fi21 33 55': 0]Oi 00 Up -_9� 000 6 9g W Soo E05 6,10,So 960 aB0 lfi��_ 1300 Ba i 910 r 399 113 5+7 575 5] 50 t 1350 1311 ei fvus 1 .••� fei' 6a � � �R40 �// �e FpeKt too R-15 scc 550' I n i �� iHEs j - E L -ante, J I]bl 149 01 80 ill i�% _ 1 ; 185 5 � I 195 C iN 1 175 !yy �1yn 1350 r 2x➢ 1 1+5+ / EK.Hscni St 300 38 - EKaIe,e66i r-- E Schllleri - 330 p tr�I I +,.597�1 tie innn+ ^1pYR,SlN11339RIS 9+2nr 1-"smpxc 9]a +090 lo9fj 1.0 t3oo Ix6c'' nxz aoa+as(1 +s+o sdo ' lal 471 515 to Ica Ic07 Inds 1147 E IDiT IAN,— PnM Oete: 11/1612016 Conditions Document 4 HD Fowler Storage Shed - CZC - A-2015-0056 B. Site Plan (dated: February 20, 2014) 'i c,a, Conditions Document 5 HD Fowler Storage Shed - CZC - A-2015-0056 C. Elevations (dated: 10/15/2015) Conditions Document 6 FED Fowler Storage Shed - CLC - A-2015-0056 w a W a c m�Cm10 a mn 10 �pn Lw..m uwA v„ �v u�oN 'KtiEo O K WN N JN�v 0 O a' IppIsI C,d.-3 p ,W y co fi N N V l b M m 40 O U u D 1273 Via. iN., 3m m xgNh C�Ffl=i pHA. LL 0:6 REAR ELEVATII]N R �, 2o� L VIOEm O W O z WU � a L N 72' N M U U R a � plsllt zl W � � FRONT ELEVATION"""neo wND Conditions Document 6 FED Fowler Storage Shed - CLC - A-2015-0056 w a c m�Cm10 a mn 10 �pn Lw..m uwA v„ a O K C,d.-3 p ,W y nu N N V l b M m 40 O U u D 1273 Via. iN., 3m m xgNh C�Ffl=i pHA. LL 0:6 REAR ELEVATII]N d oN Conditions Document 6 FED Fowler Storage Shed - CLC - A-2015-0056 X Owner address: �)� C5 - ra C X 1 b U Email: ECEIVE Planning Division `�: t� DEVELOPM D T REVIEW APPLICATION BY: STAFF USE ONLY: I Project name: a rodieR, S4,!2o4e�j(d0 File number(s): A i7 L l t/9,O Assigned Planner: (,-.Jay Related files: Tyeylew Requested (check all that ccessory Use C Administrative Design Review ❑ Alternative Compliance ❑/i'mlexation and Zoning 0 Certificate of Zoning Compliance ❑ City Council Review ❑ Comprehensive Plan Map Amendment ❑ Comprehensive Plan Text Amendment ❑ Conditional Use Permit ❑ Conditional Use Modification Director/Commission (circle one) ❑ Development Agreement Modification ❑ Final Plat ❑ Final Plat Modification Information Ll Planned Unit Development ❑ Preliminary Plat ❑ Private Street ❑ Property Boundary Adjustment ❑ Rezone ❑ Short Plat ❑ Time Extension: Director/ Commission/Council (circle one) ❑ UDC Text Amendment ❑ Vacation: Director/ Council (circle one) ❑ Variance ❑ Other Applicant name 64x-' (7.e N� �4 � Phone: �C/ Applicant address:G2(aSS V ^1, Ki//LL/Z i4/ Email: City: 4 //' State: Zip:, (� / AppicanYs interest in property: ❑ Own ❑ Rent ❑ Optioned e0ther x4 Owner name:`(-c-._� < Qc. rc_ue_ � Phone: l4 J-5 -'14 F - 6 X City: Firm 1 Agent City: _ Primary contact is: (e.g., Information 15 -- P.CCl n State: `%J 4 Zip: C7 G o n ti representative): / L` Phone: �U1f' �7 — �o / l Email:_��11�1��lflfL?((t(1�,U7f-%Qin% ❑ Owner ❑ Agent/Contact State -2,6---- Zip: Location/street address: I / -'2 1 ^}1 1),4 l fle�G I-WZ-- Township, range, section: .-) I V I W 12 Assessor's parcel number(s): 1 `I �1� DQ 1 Total acreage: �'"1 f Zoning district: Community Development . Planning Division a 33 E. Broadway Avenue, Ste. 102 Meridian, Idaho 83642 Phone: 208-884-5533 Pax: 208-888-6854 www.meridiancitv.ora/planning -1- (Rev. 0 611 212 0 1 4) Project/subdivision name:. General description of proposed project/request: Proposed zoning district(s): Acres of each zone proposed: Type of use proposed (check all that apply): ❑ Residential ❑ Office ❑ Commercial ❑ Employment IJl'Industrial ❑ Other Who will own & maintain the pressurized irrigation system in this development?, Which irrigation district does this property lie within? Primary irrigation source: Secondary: Square footage of landscaped areas to be irrigated (if primary or secondary point of connection is City water): Residential Project Summary (if applicable) Number of residential units: Number of common lots: Number of building lots: Number of other lots: Proposed number of dwelling units (for multi -family developments only): 1[:S 4 • n 2-3 bedrooms: Minimum square footage of structure (excl, garage): Minimum property size (s.f): 4 or more bedrooms: Maximum building height: - Average property size (s.f.): Gross density (Per UDC 11-1A-1): Net density (Per UDC 11-1A-1): Acreage of qualified open space: Percentage of qualified open space: Type and calculations of qualified open space provided in acres (Per UDC 11 -3G -3B): Amenities provided with this development (if applicable): Type of dwelling(s) proposed: ❑ Single-family Detached ❑ Single-family Attached ❑ Townhouse ❑ Duplex ❑ Multi -family ❑ Vertically Integrated ❑ Other Non-residential Project Summary (if applicable) Number of building lots: Common lots: Other lots: Gross floor area proposed: Hours of operation (days and hours): Total number of parking spaces provided: Authorization VPrint applicant name: VZ Existing (if applicable): Building height: Number of compact spaces provided: Date: /v -3,o-t5 i Development . Planning Division . 33 E. Broa Ave'hue S� 102 M r dihn,��Tio 83642 a v Phone: 208-884-5533 Fax: 208-888-6854, rg/pdarvmm -2- (Rev. 0611212014) Superior Painting & Construction RCT -32869 2850 N River RD Payette, Id 83661 To whom it concerns The 24' x 72' (pole building type) structure at HD Fowler will be for dry storage. This building is strictly to keep inventory that is affected by prolonged exposure to the elements from becoming damaged in the yard. Virginia G Gordon Any further questions please contact me at: (208)816-6962 C.Jay Coles From: Terri Ricks Sent: Tuesday, November 17, 2015 1:49 PM To: C.Jay Coles Subject: AV: 123 S. Baltic Ave. 11/17/15 Address Verification: HD Fowler Storage Building Note: Address for storage building could change if additional buildings are constructed on site Address: 123 S BALTIC AVE, MERIDIAN, ID 83642 Save Reset Cancel Help Parcel Data!] District Parcel # , Parcel States - Primary R0797740010 Enabled v Yes v Lot Black Subdivision 1 D1 BALTIC PLACE ADDITION Terri Ricks Addressing Specialist City of Meridian Land Development 208-887-2211 tricks@meridiancity.org 1 When Recorder] I{rlstio E, Bjorkr HAWLEY TRO P.O. Box 1617 Boise, Idaho 83' AOA COUNTY RECORDER Christopher D. Rich AMOUNT16,00 3 BOISE IDAHO 11/06/2013 10:32 AM DEPUTY Victoria Bailey SimpUffie_.em' RECORDEleetroide ED-TZLQUAST OF I1111111111111111111111lull 11111111111111111111111111111111IN TITLEONE BOISE 113122566 By and 'n to: ENNIS & HAWLEYLLP WARRANTY DEED SPACE ABOVE THIS LW FUA UMU)EA• 8 USE ONLY POR V LUE RECEIVED, L.C. Development, Inc„ an Idaho corporation ("Grantor" ), does he gr rt, bargain, sell and convey unto Cair Paravel LLC, an Idaho limited liability company, whos current address is P. 0. Box 160, Bellevue, WA, 98009-0160 (the "Grantee"), the following deperibed premises, to -wit: TO Rk Grantee, its hei said Grantee, th all encumbranel made, suffered, casements, righl for the current whatsoever. DATED GRANTOR: See Exhibit "A" attached hereto, 'E AND TO HOLD the said premises, with their appurtenances unto the said s and assigns forever. And the Grantor does hereby covenant to and with the t it is the owner in fee simple of said premises; that said premises are free from >, EXCEPT those to which this conveyance is expressly made subject and those or done by the Grantee; and subject to reservations, restrictions, dedications, i -of -way of record or visible on the premises and general taxes and assessments year, and that it will warrant and defend the same ftom all lawful claims i I i WARRANTY DEED - I I as of the �° Nday of November, 2013, LC. DEVELOPMENT, INC., an Idaho corporation —� E�� J By: F Ilen ae Centers, its President 44998.0005,6125721.1 State of Idaho ss. County of Ada On this Of day of November, in the year of 2013, before me, a Notary Public in and fox said State, peronally appeared Allen Lee Centers, known or identified to me to be the President of L.C.Development, Inc,, the corporation that executed the instrument or the person who executed t,ze instrument on behalf of said corporation, and acknowledged to me that such corporation executed the same. ^4„rYeneb>eq' o ° c Notary Public for Idaho .° IrinTARr °o &iE9dOSpl ;POISE, 10 Residing at s. ly2Q,1 ®° My Commission expires L IAUaL1� .l lPT°af OF ID A II {I i f f { i I i fi f f i i i i r WARRANTY OEED-2 44998.0005.6125721.1 A parcel loca North, Range follows; EXHIBIT A TO WARRANTX DEL, D in the Northwest quarter of the Northeast quarter of Section 18, Township 3 East, Boise .Meridian, Ada County, Idaho, and more particularly described as Commencing atla brass cap monument marking the Northwest corner of the Northeast quarter of said Section 18, ii'orn which a brass cap monument marling the Northeast corner of said Section 18 bears North 49°46'09" East a distance of 2654.20 feet; thence North 89'46'091I' East along the Northerly boundary of said Section 18 a distance of 1327.17 feet to a 5/8 inch diameter iron pin marking the Northeast corner of said Northwest quarter of the Northeast auartjr:thence South 0°29'30" West along the Easterly boundary and the prolongation thereof of Baltic Place Subdivision No. 1 as shown in Book 93 of Plats on Page 11188, records of Ada County, Idaho, a distance of 293 11 feet to a 5/8 inch diameter iron pin marking the Southeast corner of said Baltic Place Su division No. 1 and the Point of Beginning; thence South 0'29'30" West along the Easterly boundary of said Northwest quarter of the Northeast quarter a distan e of 1038,99 feet to a 5/8 inch diameter iron pin marking the Southeast corner of Medimont Sub ivision No. 2 as shown in Book 79 of Flats on Page 8453, records of Ada County, Idaho; t ence leaving said Easterly boundary North 51 °25'38' West a distance of 132,86 feet to a point in the Hunter Lateral; thence North 63'27'15' West a distance of 404,00 feet to a 5/8 inch diameter iron pin; thence North 0°39'10" West a distance of 680.07 feet to a 5/8 inch diameter iron pin marling the Southwest corn r of said Baltic Place Subdivision No. 1; thence along the Southerly boundary of said Baltic Plac4 Subdivision No, 1 the following described courses; North 89121'26 North 45029'15 North 0'29'15" South 89'30'45 North 0'29'15" South 89130'45' WARRANTY � East a distance of 129,05 feet to a 5/8 inch diameter iron pin; thence 'East a distance of 25.60 feet to a 5/8 inch diameter iron pin; thence East a distance of 57.99 feet to a 5/8 inch diameter iron pin; thence East a distance of 54.00 feet to a 5/8 inch diameter iron pin; thence 3ast a distance of 21.00 feet to a 5/8 inch diameter iron pin; thence East a distance of 279.98 feet to the Point of Beginning. —EXHIBIT "A" 44998.0005.6125721.1 AFFIDAVIT OF LEGAL INTEREST STATE OF IDAHO COUNTY OF ADA '�Pc_,esyel —�)• (3 6 OX 16 U /I (name) (address) (city) (state) being first duly sworn upon, oath, depose and say: That I am the record owner of the property described on the attached, and I grant my permission to: LU suuurrr urc au;uurparryurg appueauucr�s2 pcnaauuig to yuan pruperry. 2. I agree to indemnify, defend and hold the City of Meridian and its employees harmless from any claim or liability resulting from any dispute as to the statements contained herein or as to the ownership of the property which is the subject of the application. 3. I hereby grant permission to City of Meridian staff to enter the subject property for the purpose of site inspections related to processing said application(s). Dated this 1:1 c+— day of C) G k c toe C 120 15 (Signature) SUBSCRIBED AND SWORN to before me the day and year first above written. Nn' 4 r=OT A,p. V I (Notary Pu ' or daho) Residing at: 49 \'.0V OMy Commission Expires: OF _.,,r Community Development a Planning Division a 33 E. Broadway Avenue, Ste. 102 Meridian, Idaho 83642 Phone: 208-884-5533 Fax: 208-888-6854 wuryv.meridianc.orn/nlamrin¢ w= '1 m �Rs g$ �s 9 � Mpg€22 Er -i 3' $ LJ o nos. 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II — I ° I� �p$ I J'll Flo lir—_—� 1 L � RS yj .i k 1 000 000000 § R p p6 qqqq _ gyy�� yygggggg sst33 g ¢im�SsS� €Eg Its I a gLLLU ❑_I S9 I PRFLMIMRY 3 oq\. qq 3E3pep 0� $ 2mat E 11 /I{/��/ MEANINI .pr (Uxpu7ED)nEo) uryPuilEo _ n A . r l I I 9(LCNI I i I � tl "� i i 1X61AC p Ff =i5e)eo a tl'RBRS. FM�[Ol d -� § r N q.. I / E1 ISN III L_z m I µ l I / ILII w I j 5 ba _ _ _ _ L T ' '� m I +i MF$IMOM SIIBb. i{0.2 GgFN.AG [9/ g 41, MEOIMONi 9180. N0. 1 Il �' � III 6e 2 f g — '• s 9 u 5 �'zg °e g §§ 33 ` A' $ gu •€- € S as SSSS a Ss acII R§ S€ p z €? A § ? R k E Y 'F $ 3Ayy ID$ p5 tl°' 0€mss c Rt?=Php! 3 a` k " "RF �e g �F §i " €s' €�e &�q � -q�€x � x ? kS"x�a F11C9 § y SS i 4 P e $ �`� gg 4� � 8e3 ��' €pR�E g€g1100x,' d �a=R" it gga 29l'z € I§q „8€5 0 a 0 a 'g€jj dR kP § F.. ; §B$l3q�s'�dggw �70 Pia Sd2A5 k lam- 11 9! fig€ 9 it ��IIII ®86O c qq Q 111 a7 �� I ®®ggI®®®® g 5 gI g"€sAg GRELIMINAR ^ R€i 3 e - ♦" a g esww gSEy z €p¢ a £ �g ly A _3 . %4i4Xci4 R . BA S4 q �S3 099" gad @ _ Aeff cs m 8 2S y3 .�$a s s £ Fy`££ F E z � ': �¢s°s F�-£ sf 1 9_1s=� 1f ZO P e 6 P P Ili !top! £ g €S a s £o R P WSg s`d"" g g£ � -�i §9 y"• rs ��ggaEB€ IM 8 %F aR,yi -�S R Q� aR� 'v.°cc=s ��eIyAp u �£Gy^k9M 3 R`4�$$es�aP 3 F#B�R�d R.p m�mmme Fpp uwwa m`�urz� n. V 6 $I8g&� rRaaeS xa; ss =� �6 L �s[gi _6t?� 4m i>.acerRif Hill BPPPPP QPP ffB Bdd�B F R � e A• g e n �" 6F i7aP Q9 ° me FS a nN YS F+ e _ ®v 3m corn fr R g( kFE p A�W � zzge€ me FS a nN YS F+ e _ ®v 3m corn s m 3£ Structural Calculations For 24' x 72' POLE BARN 123 S Baltic Meridian, Idaho 83642 Prepared, for: Superior Painting & Construction 3590 NW 1st Ave New Plymouth, Idaho 83655 Job No. 15018.006 Rogue Richardson, PE 2114 E Greenhurst — Nampa, Idaho 83686 (208)577-7071 roguerichardson@yahoo.com Revision # Prepared by Project # 0 Rogue Richardson, PE 15018.006 DESIGN CRITERIA: CODE: 2012 INTERNATIONAL BUILDING CODE LOCATION: MERIDIAN, IDAHO Wind Load: 115 MPH Seismic: Ss=0.291. S1=0.102 (23 pages of Calculations) TABLE OF CONTENTS Calculations Seismic Coefficients Calculated Wind and Seismic Forces 2 Purlin Loading 7 Purlin Bending Check 8 Purlin Hanger Check - LB26 10 Truss Support Blocks 11 Shear Values for 16d Nails used in Douglas Fir 12 Wind Load on Columns - Field Columns 1; Column Check - Field Columns 14 Wind Load on Columns - End Columns 16 Column Check - End Columns 17 Wind Load on Columns - Front/Rear Columns 19 Column Check - Front/Rear Columns 20 Pole Footing Embedded in Soil - 6x8 Columns 22 .gUOU0 L0001911 Y F%=10%01 16 ser—Specified input milding Code Reference Document 2012 International Building Code Site Coordinates 43.607961N, 116.39023OW Site Soil Classification Site Class D - "Stiff Soil" Risk Category 1/11/11I Ill CnI A is Bol eridian Nampa A M L R I C`A rl 02015 1114"St Some data 020159DIp ® MapQuest SGS—Provided Output S, = 0.291 g SMS = 0.456 g S,, = 0,304 g S1 = 0.102 g SMI = 0.244 g SDI = 0.163 9 ir information on how the SS and S1 values above have been calculated from probabilistic (risk -targeted) and ?terministic ground (notions in the direction of maximum horizontal response, please return to the application and !lett the '2009 NEHRP" building code reference document. MCEFt Response Spectrum 0.45 J.4'. 0.215 Ch J,30 Z5 VI 0 CIS 1 "0 6.00 0.20 0.40 0.0 0.9-1 1.00 I.Dv 1.0 1.60 1.9v Period, T I sac) 111- r, -,I- P� � ji-- 0.32 0.22 Design Response Spectrum 24 61, 0.12 0.09 0.04 0.1111 0.00 0—C, �1.40 4.64 0_8311 LOW, 1.20 L40 L0 1.3. Period. T (sac) Rogue Richardson, PE 2114 E Greenhurst Nampa, Idaho 83686 (208)577-7071 CS12 Ver 2014.01.01 JOB TITLE 24 x 72 Pole Barn 123 S Baltic JOB NO. SHEET NO. 1 CALCULATED BY _Rogue Richardson, -t DATE CHECKED BY DATE STRUCTURAL CALCULATIONS FOR 24 x 72 Pole Barn Meridian, ID 83642 www.struware.com Rogue Richardson, PE JOB TITLE 24_x_72 Pote Barn 2114 E Greenhurst 1 23 S Baltic Nampa, Idaho 83686 JOB NO. SHEET NO. (208) 577-7071 CALCULATED BY Rogue Richardson, DATE _ CHECKED BY DATE . www.struware.com Code Search Code: International Building Code 2012 Occupancy: Occupancy Group = R Residential Risk Category & Importance Factors: Risk Category = II Wind factor = 1.00 Snow factor = 1.00 Seismic factor = 1.00 Type of Construction: Fire Rating: Roof = 0.0 hr Floor = 0.0 hr Building Geometry: Roof angle (B) 4.00/12 18.4 deg Building length (L) 72.0 ft Least width (B) 24.0 ft Mean Roof Ht (h) 14.0 ft Parapet ht above grd 0.0 ft Minimum parapet ht 0.0 ft Live Loads: Roof 0 to 200 sf: 20 psf 200 to 600 sf: 24.0.02Area. but not less than 12 psf over 600 sf: 12 psf Floor: Typical Floor 30 psf Partitions N/A Partitions N/A Partitions N/A Partitions N/A Rogue Richardson, PE JOB TITLE 24 x 72 Pole Barn 2114 E Greenhurst 123 S Baltic T Nampa, Idaho 83686 JOB NO._ SHEET NO..1 e Rc (208) 577-7071 CALCULATED By Roguichardson, DATE�F CHECKED BY DATE Wind Loads: ASCE 7- 10 f = Ultimate Wind Speed 115 mph 30 ft Nominal Wind Speed 89.1 mph go. 9v = Risk Category II 310.0 ft Exposure Category B Iz = Enclosure Classif, Enclosed Building 0.88 use G=0.85 Internal pressure +/_0.18 9R = Directionality (Kd) 0.85 0.000 Kh case 1 0.701 Kh case 2 0.575 Type of roof Gable v{z):. z Speed upTopographic Factor (Kzt) V P 4pwrid)-'x(downwind) { L Topography Flat Hill Height (H) 0.0 ft H< 60ft;exp B H/2 Half Hill Length (Lh) 0.0 ft Kzt=1.0 '` Lh Hl2 FH Actual H/Lh = 0.00 Use H/Lh = 0.00 Modified Lh = 0.0 ft ESCARPMENT From top of crest: x = 0.0 ft Bldg up/down wind? downwind V(z) Z H/Lh= 0.00 K, = 0.000 ) / Speed-up x/Lh = 0.00 K2 = 0.000 V(Z) x(upwind) x(downwind) ♦- z/Lh = 0.00 K3 = 1.000 H/2 At Mean Roof Ht: H u, H/2 Kzt = (1+K,K2K$)A2 = 1.00 2D RIDt3E or 31D AXISYMMETRICAL HILL Gust Effect Factor h = 14.0 ft B = 24.0 ft /z (0.6h) = 30.0 ft Riaid Structure A = 0.33 f = 320 ft zmin = 30 ft C = 0.30 go. 9v = 3.4 Lz = 310.0 ft Ct = 0.93 Iz = 0.30 G= 0.88 use G=0.85 Flexible structure if natural frequency < 1 Hz (T > 1 second). However, if building h/B < 4 then probably rigid structure (rule of thumb). h/B = 0.58 Rigid structure G = 0.85 Using rigid structure default Flexible or Dynamically Sensitive Structure Natural Frequency (q,) = 0.0 Hz Damping ratio ((i) = 0 /b = 0.45 /a = 0.25 VZ = 74.1 N, = 0.00 Kn = 0,000 Rn = 28.282 9 = 0.000 RB = 28.282 n = 0.000 RL = 28.282 rl = 0.000 9R = 0.000 R = 0.000 G = 0.000 h = 14.0 ft Rogue Richardson, PE 2114 E Greenhurst Nampa, Idaho 83686 (208)577-7071 JOB TITLE 24 x 72 Pole Barn _ 123 S Baltic JOB NO. SHEET NO. CALCULATED BY_RO�Ue RiChafdSOn,i DATE '✓ CHECKED BY DATE Wind Loads - MWFRS h560' (Low-rise Buildings) Enclosed/partially enclosed only Kz = Kh (case 1) = 0.70 Edge Strip (a) = 3.0 ft Base pressure (qh) = 20.2 psf End Zone (2a) = 6.0 ft GCpi = +/-0,18 Zone 2 length = 12.0 ft Wind Pressure Coefficients Ultimate Wind Surface Pressures (psf) 1 CASE A -5.4 2.7 2 -10.3 -17.5 CASE B -10.3 -17.5 3 -5.8 -13.1 e = 19.4 deg -3.8 -11.1 4 -4.7 -12.0 -5.4 -12.7 Surface GCpf w/-GCpi w/+GCpi 6 GCpf w/-GCpi w/+GCpi 1E 0.62 0.70 0.34 2E -0.45 -0. -0.63 2 -0.69 -0.51 -0.87 4E -0.69 -0.51 -0.87 3 -0.47 -0.29 -0.65 6E -0.37 -0.19 -0.55 4 -0.42 -0.24 -0.60 -0.45 -0.27 -0.63 5 0.40 0.58 0.22 6 429 -0.11 -0.47 1E 0.78 0.96 0.60 -0.48 -0.30 -0.66 2E -1.07 -0.89 -1.25 -1.07 -0.89 -1.25 3E -0.67 -0.49 -0.85 -0.53 -0.35 -0.71 4E -0.62 -0.44 -0.80 -0.48 -0.30 -0.66 5E 0.61 0.79 0.43 6E 1 -0.43 -0.25 -0.61 Ultimate Wind Surface Pressures (psf) 1 14.0 6.8 18.8 psf -5.4 2.7 2 -10.3 -17.5 28.2 psf -10.3 -17.5 3 -5.8 -13.1 i i�-�-7 Tiril -3.8 -11.1 4 -4.7 -12.0 -5.4 -12.7 5 11.7 4.4 6 a -2.2 -9.5 1E 19.4-12 1 -6.0 -13.3 2E -17.9 -25.2 -17.9 -25.2 3E -9.9 -17.2 -7.1 -14.3 4E -8.8 -16.1 -6.0 -13.3 5E 15.9 8.7 6E -5.0 -12.3 Parapet Windward parapet = 0.0 psf (GCpn = +1.5) Leeward parapet = 0.0 psf (GCpn = -1.0) Horizontal MWFRS Simple Diaphragm Pressures (Ds Transverse direction (nonnalto L) Interior Zone: Wall 18.8 psf Roof -4.5 psf End Zone: Wall 28.2 psf Roof -8.0 psf Longitudinal direction (parallel to L) Interior Zone: Wall 13.9 psf End Zone: Wall 21.0 psf " NOTE: Total horiz force shall not be less than that determined by neglecting roof forces (except for MWFRS moment frames). The code requires the MWFRS be designed for a min ultimate force of 16 psf multiplied by the wall area plus an 8 psf force applied to the vertical projection of the roof. Windward roof overhangs = 14.1 psf (upward) add to windward roof pressure WIMlwpx JV L•RiL4N6 WIISPWAkL KIJOF 1 t 1 LL•EWAFL RO�c' i i�-�-7 Tiril vexnr..n�. a AIS irr ZCI}S• 1 Ex rt TRAIvSVSFSn ELEVA.TIOTT rhaAzIaro.vr:}A'¢� LEEWARD AC�IF VExTICAT T.( IJr , TTTTD IlSAL ELI i V 3• -roN Rogue Richardson, PE Joe TITLE 24 x 72 Pole Barn 2114 E Greenhurst 123 S Baltic Nampa, Idaho 83686 JOB NO._ _ SHEET NO. __ f (208) 577-7071 CALCULATEDBY Rogue Richardson, PEDATE CHECKED BY DATE Seismic Loads: IBC 2012 Strength Level Forces Risk Category : II Importance Factor (q : 1.00 Site Class : D Ss (0.2 sec) = 29.10 %g Sl (1.0 sec)= 10.20%g Fa = 1.567 Sms = 0.456 SDs = 0.304 Design Category = B Fv = 2.392 Sml = 0.244 Sol = 0.163 Design Category = C Seismic Design Category = C Number of Stories: i Structure Type: All other building systems Horizontal Struct Irregularities: No plan Irregularity Vertical Structural Irregularities: No vertical Irregularity Flexible Diaphragms: No Building System: Cantilevered Column Systems detailed to conform to the requirements for: Seismic resisting system: Timber frames System Structural Height Limit: 35 ft Actual Structural Height (hn) = 16.0 H DESIGN COEFFICIENTS AND FACTORS Response Modification Coefficient (R) = 1.5 Over -Strength Factor (0o) = 1.5 Deflection Amplification Factor (Cd) = 1.5 SOS = 0.304 SDI = 0.163 Seismic Load Effect E P QE +/- 0.25 D +/_ p =redundancy coefficient ( ) = Ds = p QE 0.061 D uE =horizontal seismic torte Special Seismic Load Effect (Em) = cto QE +/- 0.2Sos D = 1.5 uE +/- 0,061D D = dead load PERMITTED ANALYTICAL PROCEDURES Simplified Analysis - Use Equivalent Lateral Force Analysis Equivalent Lateral -Force Analysis - Permitted Building period cost. (CT) = 0.020 Cu = 1.57 Approx fundamental period (Ta) = CThn" = 0.160 sec x= 0.75 Tmax = CuTa = 0.252 User calculated fundamental period (T) = 0 sec Use T = 0.160 Long Period Transition Period (TL) = ASCE7 map = 6 Seismic response coal. (Cs) = Sosl/R = 0.203 need not exceed Cs = Sdt I AT = 0.678 but not less than Cs = 0.044Sdsl = 0.013 USE Cs = 0.203 Design Base Shear V = 0.203W Model & Seismic Response Analysis - Permitted (see code for procedure) ALLOWABLE STORY DRIFT Structure Type: All other structures Allowable story drrft = 0.020hsx where hsx is the story height below level x By _Rogu PROJECT -pn DATE ll--lZt= SHEET NO. CLIENT v ,�a Lo A� �L- IC) 12 70 �o LcAA t=Z7fi l�+anlUE -t- 7C Title Block Line t Project Title: You can change this area Engineer: FTojed ID. !^ using the 'Settings' menu item Protect Descr. and then using the 'Printing & Uniform Load: D = 0.0070, S = 0.0250 ksf, Tributary Width = 2.0 it Title Block' selection. Moment Values @ Wood Beam Description: CODE REFERENCES Calculations per NDS 2005, IBC 2009, CBC 2010, ASCE 7-10 Max Stress Rados M V Service loads entered. Load Factors will be applied for calculations. Beam self weight calculated and added to loads Load Combination Set; ASCE 7-10 C r C m Uniform Load: D = 0.0070, S = 0.0250 ksf, Tributary Width = 2.0 it Material Properties Moment Values @ DESIGN SUMMARY Shear Values Vu tv Analysis Method: Load Resistance Factor D Fb - Tension 1150 psi E: Modulus of Elasticity Load Combination ASCE?-10 Fb -Compr 1150psi Ebend-xx 18OOksi Section used for this span Fc - PAI 1800 psi Eminbend -xx 660ksi Wood Species : Douglas Fir - Larch (North) Fc - Perp 625 psi 2,970.86pai Fv: Allowable Fv 180 psi Load Combination +1.200+0.50L+1,60S+1.60H Ft 750 psi Density 30.58 pcf Beam Bracing : Beam is Fully Braced against lateral -torsion buckling Span # where maximum occurs = Repetitive Member Stress Increase D 0.014 S 0.0s 2.a Span =12.0 It Applied Loads Max Stress Rados M V Service loads entered. Load Factors will be applied for calculations. Beam self weight calculated and added to loads C I C r C m Uniform Load: D = 0.0070, S = 0.0250 ksf, Tributary Width = 2.0 it CL Mu Moment Values @ DESIGN SUMMARY Shear Values Vu tv Fv +1.400+1.60H Maximum Bending Stress Ratio = 0-351: 1 Maximum Shear Stress Ratio 1 Section used for this span 2x8 Section used for this span 2X6 fb : Actual = 2,824.85psi fv : Actual 100.02 psi FB: Allowable = 2,970.86pai Fv: Allowable = 311.04 psi Load Combination +1.20D+0.50L+1.60S+1.60H Load Combination +1.200+0.50L+1,60S+1.60H Location of maximum on span - 6.000ft Location of maximum on span - 0.000 ft Span # where maximum occurs = Span # 1 Span # where maximum occurs Span # 1 Maximum Deflection 0.12 22.30 233.28 Max Downward Transient Deflection 0.627 in Ratio = -. Max Upward Transient Deflection 0.000 in Ratio = 0 <229 1.00 Max Downward Total Deflection 0.824 in Ratio = Max Upward Total Deflection 0.000 in Ratio = 0 <174 0.00 Load Combination Segment Length Span # Max Stress Rados M V �, C FN C I C r C m C t CL Mu Moment Values @ Fb Shear Values Vu tv Fv +1.400+1.60H 0.00 0.00 0.00 0.00 Length =12.0 R 1 0.283 0.095 0.60 1.300 1.00 1.15 1,00 1.00 1.00 0.40 629.87 2228.15 0.12 22.30 233.28 +1.20D+0.50LW40L+1.60H 1.300 1.00 1.15 1.00 1.00 1.00 0.00 0.00 0,00 0.00 Length =12.0 it 1 0.182 0.061 0.80 1.300 1.00 1,15 1.00 1.00 1,00 0.34 539.89 2970.86 0.11 19.12 311.04 +1.200+1.60L+0.50S+1.60H 1.300 1.00 1.15 1.00 1.00 1,00 0.00 0.00 0.00 0.00 Length =12.0 h 1 0.422 0.143 0.80 1.300 1.00 1.15 1.00 1.00 1,00 0.79 1,253.94 2970.86 0.24 44.40 31104 +120D+1.60Lr+0.50L+1.60H 1.300 1.00 1.15 1.00 1.00 1.00 0.00 0.00 0.00 0.00 Length =12.0It 1 0.182 0,061 0.80 1.300 1.00 1.15 1.00 1.00 1.00 0,34 539.89 2970.86 0.11 19.12 311.04 +1.20D+1.60Lr+0.50W+1.60H 1.300 1.00 1.15 1.00 1.00 1.00 0.00 0.00 0.00 0.00 Length =12.0 It 1 0.182 0.061 0.80 1.300 1.00 1.15 1.00 1.00 1.00 0.34 539.89 2970.86 0.11 19.12 311.04 +1.200+0.50L+1.60S+1S0H 1.300 1.00 1.15 1.00 1.00 1.D0 0.00 0.00 0.00 0.00 Title Block Line 1 Projecl Title: You can change this area Engineer: Project ID� using the'Settings' menu item Project Descr: and then using the 'Printing & Title Block' selection. Title Block Line 6 Wood Beam File= 11PER50NALCLOUDV'uWicE 4W2P-At2WSD4E-KIS4UYED-EtlOS17G-Q1S02ZET-5.EC6 ENERCALC, INC. 1%3.2016. Build:6.15.10.6. Vec6.15.10.6 l., = '• `6 Description: Roof Pudin Load Combination Max Stress Ratios Moment Values Shear Values Segment Length Span # M V C FN GI Gr CM C t CL Mu fb Fb Vu lv Fv Winn =14UT! i u.eo1 u.azz u.ou 1,:vu 1.uu 1.10 1 M i.uu 1.uu 1.78 2,8Z4.85 2970.86 0.55 100.02 311.04 +1.20D+1.60S+0.50W+1.60H 0.095 +D+0.75OL+0.750S+H 0.320 1.300 1.00 1.15 1.00 1.00 1.00 0.095 +D+0.750Lr+0.750L+0.45DW+H 0.00 0.00 0.00 0.00 Length =12.0 It 1 0.951 0.322 0.80 1.300 1.00 1.15 1.00 1,00 1,00 1.78 2,824.85 2970.86 0,55 100.02 311,04 +1.20D40.50Lr+0.50L+W+1.60H S Only 1.300 1.00 1.15 1.00 1.00 1.00 0.00 0100 0.00 ON Length =12.0 ft 1 0.146 0.049 1.00 1.300 1.00 1.15 1.00 1.00 1.00 0.34 539.89 3713.58 0.11 19.12 388.80 +1.20D+0.50L40.50S+W+1.60H 1.300 1.00 1.15 1.00 1.00 1.00 0.00 0.00 0.00 0.00 Length =12.0 it 1 0.338 0.114 1.00 1,300 1.00 1.15 1.00 1.00 1.00 0.79 1,253.94 3713.58 0.24 44.40 388.80 +1.20D+0.50L40.20S+E+1.60H 1.300 1.00 1.15 1.00 1.00 1.00 0.00 0.00 0.00 0.00 Length =12.0 it 1 0.222 0.075 1.00 1.300 1.00 1.15 1.00 1.00 1.00 0,52 825.51 3713.58 0.16 29.23 388.80 40.90D+W+0.90H 1.300 1.00 1.15 1.00 1.00 1.00 0.00 0.00 0.00 0.00 Length =12.0 it 1 0.109 0.037 1.00 1.300 1.00 1.15 1.00 1.00 1.00 0.26 404.92 3713.58 0.08 14.34 388.80 +0.90D+E+0.90H 1.300 1.00 1.15 1.00 1.00 1.00 0.00 0.00 0.00 0.D0 Length =12.0 ft 1 0.109 0.037 1.00 1.300 1.00 t.15 1.00 1.00 1.00 0.26 404.92 3713.58 0.08 14.34 388.80 Overall Maximum Deflections Load Combination Span Max.'--' Deb Location In Span Load Combination Max. '+' Dell Location in Span +D+S+H 1 0.8243 6.044 0,0000 0.000 Vertical Reactions Support notation: Far left is#1 Values in KIPS Load Combination Support 1 Support 2 Overall MINimum 0.057 0.057 +D+H 0.095 0.095 +D+L+H 0.095 0.095 40+Lr+H 0.095 0.095 +D+S+H 0.395 0.395 +D+0.7501 -r+0.7501-+4 0.095 0.095 +D+0.75OL+0.750S+H 0.320 0.320 +0+0.60W+H 0.095 01095 +D+0.7OE4H 01095 0.095 +D+0.750Lr+0.750L+0.45DW+H 0.095 0.095 +D+0.750L+0.750S+0.450W+H 0.320 0.320 +D+0.750L+0.750S40.5250E+H 0.320 0.320 +0.60D+0.60W40.60H 0.057 0.057 +0,60D+0.70E+0.60H 0.057 0.057 D Only 0.095 0,095 Lr Only L Only S Only 0.300 0.300 W Only E Only H Only 78 Solid Sawn Joist Hangers This product is preferable to similar conneclors because of 21 easier Installation. If higher loads, c) lower installed cost, or a combination of these features. The BA hanger is a cost effective hanger featuring min/max joist -• nailing option. Min Nailing featuring Positive Angle Nailing targets moderate load conditions whereas the Max Nailing generates capacities for higher loads. The unique two level embossment provides added stiffness to the top flange. The newly improved B hanger offers wide versatility with enhanced load capacities. See tables on pages 80-82. See Hanger Options on pages 215-224 for hanger modifications, which may result in reduced loads. MATERIAL: See tables, pages 80.82. FINISH: BA, JB, LB and B—Galvanized: HHB -all saddle hangers and all welded sloped and special hangers—Simpson Strong-Tlez' gray paint. BA, LB, 8 and HHB may be ordered hot -dip galvanized, specify HOG. INSTALLATION: • Use specified fasteners. See General Notes and nailer table. • LB, BA, B and HHB may be welded to steel headers with weld size to match material thickness (approximate thickness shown). The minimum required weld to he top flanges is'1' x 2' ('l'x 1 %' fbr1B) fillet weld to each side of each top flange tab for 14 and 12 gauge and t✓s x 2' fillet weld to each side of each top flanggetab for 7 gauge. Distribute the weld equally on both top flanges. VPelding cancels the tap and face nailing requirements. Consult the code for special considerations page 17 for welding information). Weld on aCplications produce the maximum allowable down bad listed. For uplift loads refer to technical bulletin T-WELDUPLFT (see page 232 for detaiis). • Ledgers must be evaluated for each application separately. Check TF dimension, nail length and nail location on ledger. • Refer to technical bulletin T-SLOPEJST for information regarding load reductions on selected ban one which can be used without modification to support, joists which have shallow slopes (5'/,:12) (see page 232 for details). OPTIONS: 8 and HHB • Other widths are available; specify W dimension (the minimum W dimension is f^rfe for B and 3A' for HHB). • See Hanger Options, pages 215-224. BA, JB and LB hangers cannot be modified. Use LBV as an alternative for the JB/LB. CODES: See page 13 for Code Reference Key Chart. NAILER TABLE i T0� Fasteners joist Allowable Loads Header Type �160j LVL : PSL OF/SP HF Hata BA 6-10d 10-10d 2-100xih 1. Uplift values are for 3630 Top Allowable Loads tech - 'oilers only. Refer to tech - Min. Flange UpUftzi SPF/ 'real bulletin T-NAILERUPLFT Nailing (fgg);Of/SP HF for SPF values (see page _ __ 8-10dx17z 231 for details). LB26 2x 4-10dx1'h — 850 — 2.Rear to technical bulletin L828 2X 4-106 '1 — 915 — T-NAILERUPLFT for higher uplift value options L6210' 2x 440dx1'1 — 915_' 6-0Odx11h (see page 231 for details). L8212'. 2x 440dx1'h — 915 3.BA hangers require L8214 2x _ : 440dxt %a — 975 — 2-10dzP1 joist nails. 4.8 hangers require 6-10dx1'1 I L8216._ 2x 4-103x11 — 1150 — joist nails to achieve published 2x 10-703x1 Vz 265' 2220 1755 loads. For joist members 8A48 j 2-2x 14-103 285 ' 2695 2235 2-W or wider, 16dx214' joist ! nails should be installed for 8A470' 8A412 3x 14-163x2%z 2653 3230 — additional uplift loads on the 4x 14.183 265z l 3230 3x and 4x nailer applications 2-2x 14-103 710' 3615 _�; 27.70 of 970 lbs. and 1010 Ida. respectively. B 3x 14•i6dx2yz 83(Y 13725 - ' S.Attachment of nailer to 4x 14-163 8304 1 3600— .— Ji supporting member is by the Designer. See dimensions, material, loads on table pages. HUSTF has the double Shear nailing advantage— distributing the joist load through two points on each nail for greater strength. FINISH: Galvanized. See Corrosion Information, page 14 -15 - INSTALLATION: • Use all specified fasteners. See General Notes. • Not acceptable for nailer orwelded applications; see W and B hangers. • HUTF—The minimum header or ledger size that can be used with this hanger is 3'/i . • HUSTF—With 3x carrying members, use 16621/2' nails into the header and Il d commons into the joist. OPTIONS: • HUTF rough beam sizes are available by special order. • See Hanger Options on pages 215-224 for slope and/or skewed hangers. • Available with flanges turnedin (2-2x and 4x only for HUSCTE 2'/e' or greater for HUCTF), F - n • HUSTF Typical HUTF IRstallati Minisl. Beam and Pullin Hangersn t i l a y LfIf j'2 r ie i �• • JiI /t R B O% 11 BY_ROjU��( PROJECT �\ �� ll DATE IC, SHEET NO. CLIENT iZV Sy�r�o�i �r c�c-�.S Cp►�TT�LLIhaU LLA U p- 12.boVy- � Z = 7zo lbs q�; � 2s�� lbs 25-zo/j�j = 06 t1AIL-S tick qA[ -,s 0 11 COMMON WIRE, BOX, or SINKER NAILS: Reference Laterai u Values W for Single Shear (two member) Connections:42'3,4 for sawn lumber or SCL with both members of identical specific gravity NEW 1. Tabulated lateral design values (Z) shall be multiplied by all applicable adjustment factors (see Table 10.3.1). 2. Tabulated lateral design value; (7.) are for common wire, box, and sinker nails (see Appendix L) insetted in side grain with nail axis perpendicular to wood fibers; minimum nail penetration. I. into the main member equal to. IOD: and nail bending yield strengths (F,,,): F,,= 100,000 psi for 0.099" 5 D _<0.142 F,, = 90.000 psi far 0.142" <D 5 0.177"; F,,, = 80.000 psi for 0.177" < D 5 0.236": F,i, = 70,000 psi for 0.236" < D <_ 0.273" 3. When 6D 5 p < 10D, tabulated lateral design values (Z) shall be multiplied by p/1 OD. 4. Nail length is insufficient to provide IOD penetration. Tabulated lateral design values (Z) shall be adjusted per Immote 3. AMERICAN FOREST & PAPER ASSOCIATION 0 J m J N ii to W y 0 V ¢ C dCy LL IL d C m D NdG3 6 mm q = = 2 Y N�t� aO1 Qq NZ Q �= �- O' er Nq C U at r C X03' m m m N N E E G L oa o�� d o�E of n o2 n u m � m N1- 2 p c U m N u m UC n o 'D; to n 08 n o$? m m 001: m V'= c U'N U'Ka V'Wvl�ii. V'Z I. D in, in. Penn of ht bs. lbs. lbs. lbs. lbs. lbs. lbs. las. IN. Ibs. 314 0.099 ad 7d 73 61 55 54 51 48 47 39 38 36 0.113 6d 8d ad 94 79 72 71 65 58 57 47 46 44 0:120 10d. 107 39 80 77 71 64 62 52 50 48 0.125 tad 121 101 87 84 78 '70 68 57 56 54 0.131 8d 127 104 98 97 80 73 70 60 58 56 0.135 lad 12d 135 108 94 91 84 76 74 63 61 58 0.148 10d 20d 16d 154 121 105 102 94 85 83 70 69 66 0.162 16d 40d 183 138 121 117 108 99 96 82 80 77 0.177 20d 200 163 134 130 121 111 107 92 90 87 0.192 2Dd 301 208 157 138 134 125 114 111 96 93 90 0.207 301 40d 218 198 147 143 133 122- 119 103 101 97 0.225 40d 229 178 158 154 144 132 129 112 110 106 0244 SOd 60d234 182 162 158 141 136 132 115 113 109 1 0.099 6d 7d 73 61 55 54 51 48 47 42 41 40 0.113 ar' ad 8d 94 79 72 71 67 63 61 55 54 51 0.120 lad 107 89 81 80 76 71 69 60 59 56 0.128 lad 121 101 93 91 86 80 79 68 64 81 0.131 ad '27 106 97 95 90 84 82 68 66 63 0,1351 16d 12d '35 113 103 101 96 89 86 71 69 66 0.148 10d 20d 16d '54 128 Ilia 115 109 99 96 80 77 74 0.162 166 401 184 154 141 137 125 113 109 91 89 65 0.477 20d 213 178 155 150 138 125 121 102 99 96 0.192 2Dd 30d 222 183 159 154 142 11B 124 105 102. 98 0.207 30d 40d 243 192 167 162 149 135 131 111 109 104 0.225 40d 268 202 177 171 159 144 140 120 117 112 0.244 50d 60d 274 207F72 175 162 148 143 123 120 115 1-1/4 0.089 a)' 7d' 73 61 6a 51 48 47 42 41 40 0.113 al' ed 8d' 94 79 71 67 63 81 55 54 52 0.120 10d 1a7 89 80 76 71 69' 62 OD 59 0.128 10d '�21 101 91 86 80 79 70 69 87 0.131 ad '27 106 95 90 84 82 73 72 70 0.135 tad 12d '35 113 101 96 89 88 78 76 74 0.148 lad 2Dd lad 154 128 115 109 102 100 89 37 94 0.1 .1ad 40d 184 154 138 131 122 120 103 100 95 0.177 20d 213 178 159 151 141 136 113 110 105 0.192 20d 30d 222 185 166 157 145 140 116 113 108 0.207 30d 40d 243 203 186 182 169 152 147 123 119 114 0.225 40d 268 224 200 193 177 160 155 130 127 121 0.244 We sod 278 230 204 197 181 163 158 133 129. 124 1-1/2 0.099 7d 73 61 56 54 51 48 47 42 41 40 0.113 8d' 81 94 79 72 71 97 58 at 55 54 52 0.120 10d 607 89 81 80 76 71 69 62 60 59 0.128 me '21 101 93 91 ae 80 79 70 69 67 0.131 8d' '27 106 97 95 90' 84 82 73 72 70 0.135 16d 12d 135 113 103 101 96 89 88 78 76 74 M148 tad 20d 161 154 128 - 118 115 109 10% 1D0 89 67 64 0.162 IN 40d 184 154 141 136. 131 122 120 106 104 101 0.177 20d 213 178 163 159 151 141 138 123 121 117 0.192 2Dd 301 222 165 170 166 157 147 144 128 126 120 0.207 30d 40d 243 203 186 182 172 161 158 135 131 125 0.225 40d 268 224 205 201 190 178 - 172 143 138 132 0.244 50d 6Dd 276 -.230 211 206 .198 187 175 146 141 135 1-314 0.113 8d' 94 79 72 71 97 63 61 55 54 62 0.120 10d' '07 89 81 80 76 71 69 62 60 59 0.128 10d' '21 101 93 91 86 80 79 70 69 67 0.135 led 12d 135 113 103 101 96 89' 88 78 78 74 0.148 10d' 20d 16d 164. 128 118 115 109 102 100 69 87 84 0.162 16d 40d 194 154 141 138 131 122 120 106 104 101 0.177 20d 213 178 163 159 151 141 138 123 121 117 0.192 20d 30d 222 185 170 166 157 147 144 128 126 122 0.207 30d 40d 243 203186 182 172 161 158 140 137 133 0225 40d 268 224 205 201 190 178 174 165 151 144 0y44 60tl 60d 276 230 211 206 1 196 183 179 159 154 147 1. Tabulated lateral design values (Z) shall be multiplied by all applicable adjustment factors (see Table 10.3.1). 2. Tabulated lateral design value; (7.) are for common wire, box, and sinker nails (see Appendix L) insetted in side grain with nail axis perpendicular to wood fibers; minimum nail penetration. I. into the main member equal to. IOD: and nail bending yield strengths (F,,,): F,,= 100,000 psi for 0.099" 5 D _<0.142 F,, = 90.000 psi far 0.142" <D 5 0.177"; F,,, = 80.000 psi for 0.177" < D 5 0.236": F,i, = 70,000 psi for 0.236" < D <_ 0.273" 3. When 6D 5 p < 10D, tabulated lateral design values (Z) shall be multiplied by p/1 OD. 4. Nail length is insufficient to provide IOD penetration. Tabulated lateral design values (Z) shall be adjusted per Immote 3. AMERICAN FOREST & PAPER ASSOCIATION 0 mum sweer a ear . 71. Cow" 14 17-1 'iRtau-twom 4►� — Z GD1�131�ih:S. �si►T(11�. loo 1 . * i z -113 �l►s �i r (" ,ddo Title Block Line 1 Project Tide: You can change this area Engineer: Project ID: using the 'Settings' menu item Protect Descr: and then using the "Printing 8 Title Block' selection. Tie. 911 rk 1 in. A Wood Column Description : Field Calculations per 2005 NDS, IBC 2009, CBC 2010, ASCE 7.10 Load Combinations Used: IBC 2012 General Information Analysis Method: Load Resistance Factor Design End Fixities Top Free, Bottom Fixed Graded Lumber Overall Column Height 12.0 ft Wood Species Douglas Fir - Larch Exact Width Wood Grade No.1 Exact Depth Fb- Tension 1000 psi Fv 180 psi Fb - Compr 1000 psi Ft 675 psi Fc -Pdl 1500 psi Density 31.2 pcf Fc - Perp 625 psi 3.657 it Modulus of Elasticity ... x -x Bending y -y Bending Basic 1700 1700 Minimum 620 620 applied Loads Column self weight included: 107.250 lbs' Dead Load Factor AXIAL LOADS... Gravity: Axial Load at 12.0 ft, D =1.440, S = 3.60 k BENDING LOADS ... Lal. Point Load at 12.0 ft creafinq Mx -x, W = 0.1080 k Lat. Uniform Load creating Mx -x, W = 0.1130 loft DESIGN SUMMARY Wood Section Name 6x8 C P Wood GradinglManuf. Graded Lumber 0.88": 1 Wood Member Type Sawn Load Combination +1.20D+0,50L+0.50S+W+1.60H Exact Width 5.50 in Allow Stress Modification Factors 1.464 k Exact Depth 7.50 in Cf or Cv for Bending 1.0 Area 41.250 inA2 Cf or Cv for Compression 1.0 Ix 193.359 inA4 Cf or Cv for Tension 1.0 ly 103.984 InA4 Cm; Wet Use Factor 1.0 3.657 it Ct : Temperature Factor 1.0 Applied Mx Cfu : Flat Use Factor 1.0 Axial Kf : Built-up columns 1.0 1700ksi Use Cr: Repetitive? Yes Brace condition for deflection (buckling) along columns: for bad combination: Na X -X (width) axis: Fully braced against buckling along X -X Axis 1.000 Y -Y (depth) axis: Fully braced against buckling along Y -Y Axis Maximum Shear Stress Ratio= Service loads entered. Load Factors will be aoolied for calculations. Bending & Shear Check Results Lamt C P Maximum Axial +Bending Stress Ratio Status ---n '- Max. Axial+Bending Stress Ratio = 0.88": 1 Maximum SERVICE Lateral Load Reactions.. 0.000 Load Combination +1.20D+0,50L+0.50S+W+1.60H 0.01621 Top along Y -Y 0.0 k Bottom along Y -Y 1.464 k Governing NDS Forumla Comp + Mxx, NDS Eq. 3.9-3 Top along X -X 0.0 k Bottom along X -X 0.0 it Location of max.above base 0.0 ft Maximum SERVICE Lad Lateral Detections ... _S At maximum location values are ... 0.0 Along Y -Y 1.858 in at 12.0 it above base +1.20D+1.60L+0.50S+1.60H Applied Axial 3.657 it for load combination: W Only 1- " Applied Mx -9.432k-ft 0.0 it -120+1.601-r+050L+1.60H Applied My 0.0 .0 kft Along X -X 0.0 In at 0.0 ft above base SASS Fc: Allowable 3,240.0 psi for bad combination: Na +120D+1.6OLr+0.50W+1.60H 0.000 1.000 Other Factors used to calculate allowable stresses ... PASS Maximum Shear Stress Ratio= 0.09128 :1 Bendin Compressic,n Tension Load Combination +0.90D+W+0,90H LRFD- Format Conversion factor 2.541 2.400 2.700 Location of max.above base 0.0 it LRFD - Resistance factor 0.850 0.900 0.800 Applied Design Shear 53.236 psi 0.4451 PASS Allowable Shear 388.80 psi 0-0ft +1.20D+0.501-r+0.50L+W+1.60H Load Combination Results Load Combination Lamt C P Maximum Axial +Bending Stress Ratio Status Stress Ratios Location Maximum Shear Ratios Stress Ratio Status Location +1.40D+1.60H 0.000 1.000 0.01621 0.0 If 0.0 0.0 It +1.20D+0.50Lr+1.601-+1.60H 0.000 1.000 0.01389=: _S O.Oft 0.0 0.0 ft +1.20D+1.60L+0.50S+1.60H 0.000 1.000 0.02736 1- " O.Oft OR 0.0 it -120+1.601-r+050L+1.60H 0.000 1.000 0.01389 SASS O.Oft 0.0 0.0 ft +120D+1.6OLr+0.50W+1.60H 0.000 1.000 0.4420 PASS O.Oft 0.04564 0.0 ft +1 20+0.501-+1.60S+1.601-1 0.000 1.000 0.05699 O.Oft 0.0 - 0.0 ft +L20p+1.60S+0.5OW+1.60H 0.000 1.000 0.4451 PASS O.Oft 0.04564 ?P.S'-- 0-0ft +1.20D+0.501-r+0.50L+W+1.60H 0.000 1.000 0.8839 1O.Oft 0.09128 - r- 0.0 If Title Block Une 1 Project Title: You can change this area Engineer Protect ID: using ihe'Settings" menu item Pro act Descr: and then using the 'Printing & Title Block" selection. Title Block Line 6 Wood Column File= klPERSONALCLOUD1PubliclEY4W2P-A@WSD4E-gS4UYED-Eq 0S17G-g1SU2ZET-6.EC6 Load Combination Results Load Combination Lamt Maximum Axial + Bendino Stress Ratios C P Stress Ratio Status Location Maximum Shear Ratios Stress Ratio Status Location +1.201)4501+0-50S+W+1,60H 0.000 1.000 0.8844 O.Oft 0.09128 -- 0.0 it +1.20D+C.5OL-0.70S+E+1.60H 0.000 1.000 0.03275 - 0.0ft 0.0 0.0 it +0.90D+W+0.90H 0.000 1.000 0.8838 O.Oft 0.09128 0.0 it +0.90D+E+O90H 0.000 1.000 0.01042 0,01t 0.0 0.0 it Maximum Reactions k 4.247 k +D+0.60W Note, Only non -zero reactions are listed 0178 k X -X Axis Reaction +0+0.70E Y -Y Axis Reaction Axial Reaction Load Combination (d Base @ Top +0+0.7501 -r+0.7501 -4450W Base @ Top @ Base 0.659 w vliiy x k 1.547 k +D+L k k 1.547 k +D+Lr k k 1.547 k +O+S k k 5.147 k +D+075OLr+0.750L k k 1.547 k +0+0.759L+0.750S k k 4.247 k +D+0.60W k 0178 k 1.647 k +0+0.70E k k 1.547 k +0+0.7501 -r+0.7501 -4450W k 0.659 k 1.547 k +D+O.750L+0.750S+0.450W k 0.659 k 4,247 k +D+0.750L+0.750S+0.5250E k k 4.247 k +0.60D+0.60W k 0.878 k 0.928 k +0.60D+0.70E k k 0.928 k D Only k k 1.547 k Lr Only k k k L Only k k k S Only k It 3.600 k W Only k 1.464 k k E Only k k k H Only k k k Maximum Deflections for Load Combinations Load Combination Max. X -X Deflection Distance Max. Y -Y Deflection Distance D Only 0.0000 in 0.000 ft 0.000 In 0.000 ft +D+L 0.0000 in 0.000 It 0,000 in 0.000 ft +D+i,r 0.0000 In 0.00011 0.000 In 0.000 It +D+S 0.0000 In 0.000 it 0.000 In 0.000 It +0+0.7501-�0.750L 0,0000 in O.DOO ft 0.000 in 0.000 8 +0+0.750L+0.750S 0,0000 in 0.000 it 0.000 in 0.000 ft +D+0.60W 0.0000 in 0.000 it 1.115 In 12.000 it +D+0.70E 0.0000 in 0.000 it 0.000 in 0.000 it +D+0.750Lr+0.750L+0.450W O.00DO in 0.000ft 0.836 In 12.000 it +D+0.750L+0.750S+0.45OW 0.0000 in 0.000 it 0.836 In 12.000 ft +D+0.750L+0.750S+0.5250E 0.0000 in 0.000 ft 0.000 in 0.000 it +0.60D+0.60W 0.0000 in 0.000it 1,115 in 12.000 it +O.60D+0.70E 0.0000 in 0.000 It 0.000 In 0.000 1t D Only 0.0000 In 0.000 it 0.000 in 0.000 it Lr Only, 0.0000 in 0.000 it 0.000 in 0.000 8 L Only 0.0000 in 0.000 it 0.000 in 0.000 It S Only 0.0000 in 0.000 it 0.000 in 0.000 It W Only 0.0000 in 0.000 ft 1.858 in 12.000 it E Only 0,00001n 0.000 it 0.0001n 0.0008 H Only 0.0000 in 0.000 it 0.000 in 0.000 it An cow"14 I -rRcav�►�� &va:o. - Z cdwKa��sr�. Z' Gc tw►w.h J Title Block Line 1 Project Title: You can change this area Engineer: Project ID: using the 'Settings' menu Item Prgect Descr: and then using the 'Printing & Title Block' selection. Title Block Une 6 Wood Column Code References Calculations per 2005 NDS, IBC 2009, CBC 2010, ASCE 7-10 Load Combinations Used: IBC 2012 General Information Analysis Method : Load Resistance Factor Design Wood Section Name 6x8 Maximum SERVICE Lateral Load Reactions End Fixities Top Free, Bottom Fixed Wood GradinglManuf. Graded Lumber Top along Y -Y 0.0 k Overall Column Height 12.0 It Wood Member Type Sawn Top along X -X 0.0 k Wood Species Douglas Fir -Larch Location of max.above base Exact Width 5.50 in Allow Stress Modification Factors Maximum SERVICE Load Lateral Deflections... Wood Grade No.1 Exact Depth 7,$0 in Cf or Cv for Bending 1.0 Fb - Tension 1,000.0 psi Fv 180.0 psi Area 41.25 102 Cf or Cv for Compression 1.0 Fb-Compr 1.000.0 psi Ft 675.O psi Ix 193.359 in64 Cf or Cv for Tension 1.0 Fe -Prif 1,500.Opst Density 31.20 pcf ly 103.984in"4 Cm: Wet Use Factor 1.0 Fe - Perp 625.0 psi Ct: Temperature Factor 1.0 E: Modulus of Elasticity ... x -x Bending y -y Bending Axial Cfu : Flat Use Factor 1.0 Tension Load Combination +0.90D+W+0.90H LRFD - Format Conversion factor Kf: Built-up columns 1.0 Location of maxabove base Basic 1,700.0 1,700.0 1,700.0ksi Use Cr. Repetitive? Yes Applied Design Shear Minimum 620.0 620.0 Brace condition for deflection (budding) along columns : Allowable Shear X -X (width) axis: Fully braced against buckling along X -X Axis Load Combination Results Y -Y (depth) axis: Fully braced against buckling along Y -Y Axis Applied Loads Service loads entered Load Factors will be applied for calculations Column self weight included : 107.250 lbs' Dead Load Factor AXIAL LOADS ... Gravity: Axial Load at 12.0 It, D = 0.720, S =1.80 k BENDING LOADS ... Lat. Point Load at 12.0 R creatinq Mx -x, W = 0.120 k Lat. Uniform Load creating Mx -x, W = 0.0850 k/ft DESIGN SUMMARY Bending & Shear Check Results Max. Axial+Bending Stress Ratio = 0.7085:1 Maximum SERVICE Lateral Load Reactions Load Combination .120D+0.50L+0,50S+W+1.60H Top along Y -Y 0.0 k . . Bottom along Y -Y 1.140 k Governing NDS Forumle Comp + Mxx, NDS Eq, 3.9-3 Top along X -X 0.0 k Bottom along X -X 0.0 k Location of max.above base 0.0 8 Maximum SERVICE Load Lateral Deflections... At maximum location values are... Along Y -Y 1.515 in at 12.0 It above base Applied Axial Applied Mx 1.893k -7.560 k -ft for load combination: W Only Applied My 0.0 k -ft Along X -X 0.0 in at 0.0 It above base Fc: Allowable 3,240.0 psi for load combination: n,ra Other Factors used to calculate allowable stresses ... .. Maximum Shear Stress Ratio = 0.07108 :1Send! Compression Tension Load Combination +0.90D+W+0.90H LRFD - Format Conversion factor 2.541 2.400 2700 Location of maxabove base 0.0 it LRFD - Resistance factor 0.850 0.900 0.800 Applied Design Shear 41.455 psi Allowable Shear 388.80 psi Load Combination Results Load Combination Lamt C Maximum Axial +gendind Stress Ratios Maximum Shear Ratios P Stress Ratio Status Location Stress Ratio Status Location +1.40D+1 .601-1 0.000 1.000 0.008666 O.Oft 0.0 O.O it +1.20D+0.50Lr+1.60L+1.60H 0.000 1.000 0,007428 O.Oft 0.0 - 0.0f +1.20D+1.60L+0.50S+1.60H 0-000 1.000 0.01416 - O.Oft 0.0 0.0 it +120D+1.60Lr+0.50L+IS0H 0.000 1.000 0.007428 P,e ,E O.Oft 0.0 0.0 ft +1.20D+1.60Lr+0.50W+1.60H 0.000 1.000 0.3542 O.Oft 0.03554 0.0 111 +1.200+0.50L+1.60S+1.601-1 0.000 1.000 0.02898 0.0 it 0.0 0.0 it +L20D+1.60S+0.50W+1.60H 0.000 1.000 0.3550 - - O.Oft 0.03554 - - 0.0 ft +1.20D-�0.501-r+0.50L+W+1.60H 0.000 1.000 0.7084 O.Oft 0.07108 O.Oft Title Block Line 1 You can change this area using the'Seftings' menu item and then using the 'Printing & Tite Block' selection Wood Column Description; End Column Load Combination Results Lamt Project TIOe: En ineer: Pr o�ect Descr: Project ID: Maximum Shear Ratios Stress Ratio Status Location 10 +1.20D+0.50L+0.50S+W+1.60H 0.000 1-000 0.7085 0.0 it 0.07108 0.0 It +1.20D+0.50L+0.70S+E+1.60H 0.000 1.000 0.01686 - 0.0 It 0.0 - 0.0 It +0.90D+W+0.901-1 0.000 1.000 0.7083 - O.Oft 0.07108 0.0 ft +0.90D+E+0.90H 0.000 1.000 0.005571 - - 0.0 it 0.0 0.0 it Maximum Reactions 2.177 k +D+nBOW k 0.684 Note. Only non -zero reactions are listed 0.827 k +D+0.706 X -X Axis Reaction 0.000 it Y -Y Axis Reaction 0.827 it Axial Reaction Load Combination Base @ Tap k Base @ Top +0+0750L+0.750S+0.450W @ Base D Only k Distance it 0.827 k +D+L k 0.000 ft k 0.827 it +D+Lr k 0.000 ft k 0.827 k +D+S k 0.000 It it 2.627 k +0+0.7501-r+0.7501- k 0.000 It k 0.827 k +0+0.750L+0.750S k 0.000 ft it 2.177 k +D+nBOW k 0.684 k 0.827 k +D+0.706 k 0.000 it it 0.827 it +D+0.750Lr+0.7501-+0.450W it 0.513 k 0.827 k +0+0750L+0.750S+0.450W it 0.513 k 2.177 k +D+0.750L40.750S+0.5250E k 0.000 It k 2.177 k +0.60D+0.60W it 0.684 k 0.496 k +0.60D+0.70E it 0.000 It k 0.496 k D Only k 0.000 ft it 0.821 k Lr Only k 0.000 It k it L Only it 0.000 It k it S Only it 0.000 It it 1.800 it W Only k 1.140 it k E Only k 0.000 ft it k H Only k 0.0001t it it Maximum Deflections for Load Combinations Load Combination Max. X -X Defection Distance Max. Y -Y Dellecfon Distance D Only 0.0000 In 0.000 ft 0.000 in 0.000 it +D+L 0.0000 in 0.000 ft 0.000 in 0400 It +D+Lr, 0.0000 in 0.000 It 0.000 In 0.000 ft +D+S 0.0000 In 0.000 It 0.000 In 0.000 It +D+0.750Lr40.750L 0.0000 In 0.000 ft 0.000. In 0.000 It +D+0.750L+0.750S 0.0000 In 0.000 It 0.000 in 0.000 It +D+0.60W 0.0000 In 0.000 it 0.909 in 12,D00 it +D+0.70E 0.0000 In 0.000 It 0.000 in 0.000 it 4C+0.750Lr40.750L+0A50W 0.0000 In 0.000 ft 0.682 in 12.000 ft +D+0.750L+0.750S+0.450W 0.0000 in 0.000 It 0.682 in 12.000 It 4D+0.750L+0.750S+0.5250E 0.0000 in 0.000 ft 0.000 in 0.000 f +4.60D460W 0.0000 in 0.000 It 0.900 In 12.000 ft 40,60040.70E 0.0000 in 0.000 ft 0.000 in 0.000 It D Only 0.0000 in 0.000 It 0.000 In 0.000 ft Lr Only 0.0000 in 0.000 It 0.000 In 0.000 It L Only 0.0000 in 0.000 It 0.000 in 0.000 ft S Only 0.0000 in 0,000 It 0.000 In 0.000 ft W Only 0.0000 in 0.000 ft 1.515 in 12.000 it E Only 0.0000 in 0.0001t 0.000 in 0.000 it H Only 0.0000 in 0.000 it 0.000 in 0.000 ft aNen'_Ma ouar ri1gC. UA L.t— Otab LvD = 2l 16/4 'Z. Lvo•A 214/2..w 2 2-. 16P6 Title Block Line 1 0.1597 :1 Project Title: Max. Axlal+Bending Stress Ratio = 0.3885 :1 You can change this area Load Combination +1.200+0,501 -r+0.501 -46011v Engineer: Project ID: ` using the 'Settings" menu item 5.960 it Project Descr. At maximum location values are ... A� and then using the 'Printing & Applied Axial 0.1329 k for load combination: +D+W !/ Title Block' selection, +1.200+1.60Lr+0.50L PPie Applied My 0.0 .0 k -ft Along X -X 0.0 in at 0.0 above base ft Title Block Line 6 2,916.0 psi for load combination: nla - - Wood Column 0.1943 File= 11PERSONALCLOUDWuWic1EY4W2P-At2WSD4E-MS4UYED-ft10S17G-OISQ2ZET-5.EC6 0.07986 0.0 ft +1.20D+0.50L+1.60S ENERCALC, INC, 198120`15, eual:6.15.10.6, Ver.6.15.10.6 Lic: KW -06008302 0.001105 =. O.Oft Licensee : REM 0.0 It Description: FmnVBack Wall Column 0.000 1.000 0.1943 5.960 ft Code References 0.0 It +1.20D+0.5OLr+O.50L+1.60W 0.000 1.000 Calculations per 2005 NDS, IBC 2009, CBC 2010, ASCE 7-10 - 5.960 it 0.1597 0.0 it Load Combinations Used: 2009 IBC & ASCE 7-05 0.000 1.000 0.3885 General information 0.1597 0.0 ft +1.20D+0.50L+0.20S+E 0.000 Analysis Method: Load Resistance Factor Design Wood Section Name 6x8 0.0 End Fixities Top & Bottom Pinned +&90D+1.60W+1 S0H Wood GredinglMenuf. Graded Lumber 0.3885 Overall Column Height 12.0 ft Wood Member Type Sawn 0.000 Woad Species Douglas Fir -Larch 0.000828 Exact Width 5.50 In Allow Stress Modification Factors 0.01t Wood Grade Dense select Structural ExactDepth 7.50 in C1 or Cv for Bending 1.0 Fb- Tenslon 1,750.0 psi Fir 170.0 psi Area 41.250 InA2 Cf or Cv for Compression 1.0 Flo -Compr 1,750.0 psi Ft 1, 150.0 psi Ix 193.359 inA4 Cf or Cv for Tension 1.0 Fc - PAI 1,350.0 psi Density 32210 pcf ly 103.9841nA4 Cm: Wel Use Factor 1.0 Fc - Perp 730.0 psi Ct: Temperature Factor 1.0 E: Modulus of Elasticity. x -x Bending y -y Bending Axial Cfu : Flat Use Factor Kf: Built-up columns 1.0 1.0 Basic 1,700.0 1,700.0 1,700.0ksi Use Cr: Repetitive? Yes Minimum 620.0 620.0 Brace condition for deflection (buckling) along columns: X -X (width) axis: Fully braced against buckling along X -X Axis Y -Y (depth) axis: Fully braced against buckling along Y -Y Axis Applied Loads Service loads entered Load Factors will be applied for calculations. Column self weiqht included : 110.722lbs ' Dead Load Factor BENDING LOADS ... Lat. Uniform Load creating Mx -x, W = 0.2520 klft DESIGN SUMMARY Bending & Shear Check Results 0.1597 :1 Load Combination Max. Axlal+Bending Stress Ratio = 0.3885 :1 Maximum SERVICE Lateral Load Reactions., Load Combination +1.200+0,501 -r+0.501 -46011v Top along Y -Y 1.512 k Bottom along Y -Y 1.512 k Governing NDS Forumla Comp + Mxx, NDS Eq. 3.9-3 Top along X -X 0.0 k Bottom along X -X 0.0 k Locatbn of max.above base 5.960 it Maximum SERVICE Load Lateral Deflections At maximum location values are ... +1,200+1.60L+050S+1,60H ... Along Y -Y 0.3615 in at 6.040 N above base Applied Axial 0.1329 k for load combination: +D+W Mx 72 k ft +1.200+1.60Lr+0.50L PPie Applied My 0.0 .0 k -ft Along X -X 0.0 in at 0.0 above base ft Fc: Allowable 2,916.0 psi for load combination: nla Maximum Shear Stress Ratio = 0.1597 :1 Load Combination +0.90D+1.60W+1.60H Location of max.above base 0.0 ft Applied Design Shear 87.971 psi Allowable Shear 367.20 psi Load Combination Results Other Factors used to calculate allowable stresses ... BericAl Compression Tension LRFD- Format Conversion factor 2.541 2.400 2.700 LRFD- Resistance factor 0.850 0.900 0.600 Load Combination Lamt C P Stress Ratio Status Location Stress Ratio Status Location -1 ADD 0.000 1.000 D.001289 _ 0.0 ft 0.0 0.0 It +i,20D+0.50Lr+1.60L+1.60H 0.000 1.000 D.001105 0.011 0.0 O.Oft +1,200+1.60L+050S+1,60H 0.000 1.000 D.001105 O.Oft 0.0 0.0 It +1.200+1.60Lr+0.50L 0.000 1.000 3.001105 0.0111 0.0 0.0 R +1.20D+1.601-r+0.80W 0.000 1.000 0.1943 5.960 ft 0.07986 0.0 ft +1.20D+0.50L+1.60S 0.000 1.000 0.001105 =. O.Oft 0.0 - 0.0 It +1.20D+1.60S+0.80W 0.000 1.000 0.1943 5.960 ft 0.07986 •: 0.0 It +1.20D+0.5OLr+O.50L+1.60W 0.000 1.000 0.3885 - 5.960 it 0.1597 0.0 it +1.20D 0.50L -0.50S+1 60W 0.000 1.000 0.3885 5,960 It 0.1597 0.0 ft +1.20D+0.50L+0.20S+E 0.000 1.000 0.001105 - 0.0ft 0.0 0.0 It +&90D+1.60W+1 S0H 0.000 1.000 0.3885 - 5.960 It 0.1597 - 0.0 ft +0.90D+E+1.60H 0.000 1.000 0.000828 a0ft 0.0 0.01t Title Block Line 1 Project Title: You can change this area Engineer: Project ID: using the'Settings' menu item Project DescD and then using the 'Printing & ry i Title Block' selection. 0.111 k Title Block Line 6 , Wood Column File- 11PERSONALCLOUDIPublk1EY4W2P-A@WSD4E-K154UYED-ElOS 7 2ZET-S.EC6 17G-OISD 0.111 k Description : Maximum Reactions NoteOnly non -zero reactions are listed. X -X Axis Reaction Y -Y Axis Reaction Axial Reaction Load Combination @ Base @ Top @ Base @ Top @ Base -OIL k Distance k 0.111 k ,D -Lr k 0,0001t k 0.111 k -DIS k 0.000 It k 0.111 k 1D-0,750Lr+0.750L k 0.000 ft k 0.111 k +0+0.750L+0.750S k 0.1110 it k 0.111 k +D+W k 1.512 1.512 k 0.111 k +0+0.70E k 0.000 It k 0.111 k +0+0.750Lr+0.7S0L+0.750W k 1,134 1.134k 0.111 k +D+07501_+0.750S+0.75OW k 1.134 1,134k 0.111 k +0+0.750Lr+0750L+0.5250E k ODDO It k 0.111 k +D+0.750L+0.750S+0.5250E k 0.000 It k 0.111 k +0.60D+W k 1.512 1.512k 0.066 k +0.600+0.70E k 0.000 ft k 0.066 k D Only k 0.000 it k 0.111 k Lr Only k 0.000 it k k L Only k HOD It k k S Only k 0.000 ft k k W Only k 1.512 1.512k k E Only k 0.000 it k k H Only k 0.000 It k k Maximum Deflections for Load Combinations Load Combination Max. X -X Deflection Distance Max. Y -Y Deflection Distance -- D Only 0.0000 in 0,0001t 0.000 in 0.000 a +D+L 0.0000 in 0.000 It 0.000 in 0.000 It +D+ir 0.0000 In 0.000 ft 0.000 in 0.000 ft +D+S 0.0000 in 0.1110 it 0.000 in 0.000 ft +D+0.75OLr+0.750L 0.0000 in 0.000 it 0.000 in 0.0001t +D+0.750L+0.750S 0.0000 in 0.000 It 0.000 in 0.000 ft +D+W 0.0000 In 0.000 it 0.362 in 6.040 It +D+0.70E 0.0000 In 0.000 It 0.000in 0.000 ft +D+0.750Lr+0.750L+0.750W 0.0000 in ODDO It 0.271 in 6.040 It +D+0.75OL+0.750S+0.75OW 0.0000 in 0.000 It 0.271 in 6.040 It +D+0.75OLr+0.75OL+0.5250E 0.0000 In 0.000 ft 0,000 in 0.000 ft +0+0.7501.+0.7508+0.5250E 0.0000 In 0.000 ft 0.000 in 0.000 ft +0.60D+W 0.0000 in 0.000 it 0.362 in 6.040 It +0.6OD+0.70E 0,0000 in 0.000 it 0.000 In 0.000 ft D Only 0.0000 In HOD It 0.000 in 0.000 ft Lr Only 0.0000 In 0.000 ft 0.000 In 0.000 ft L Only 0.0000 In 0.000 it 0.000 In 0.000 it S Only 0.0000 in 0.000 it 0.000 in 0.000 R W Only 0.0000 in 0.000 It 0.362 in 6.040 It E Only 0.0000 In OZO it 0.000 in 0.000 ft H Only 0.0000 in 0.000 It 0.000 in 0.000 ft Title Block Une 1 Project Title: You can change this area Engineer: Project ID: using the 'Settings" menu item Project Descr: and then using the'Printing 8 Title Block" selection. Title Block Une 6 Pole Footing Embedded in Soil Pik:= 11PERSONALCLOUDIPubIk1EY4W2P-AQWSD4E-MS4UYED-MIOS17GOiSu12ET-5.EC6 Description: Code References Calculations per IBC 2009 1807.3, CBC 2010, ASCE 7-10 Load Combinations Used: IBC 2012 General Information Pole Footing Shape Circular Footing Diameter .............. 24.0 In Calculate Min. Depth for Allowable Fressures Lateral Restraint at Ground Surface Allow Passive . ................. 200.0 pcf Max Passive ................... 2,500.0 Pat Controlling Values Goveming Load Combination: +D+0,60W+H Lateral Load 06764 k 4 Moment 5.659 k -ft Pressure at Depth ,:m.,.�, sm s.: ::..,. ,.nn,.n n„nam Actual 751.61 Pat Allowable 600.0 psf s Surface Retraint Foroe 3,884.85 toe Minimum Required Depth 4.0 It FooW9e0 Footing Base Area 3.142 0"2 Maximum Soil Pressure 1.604 ksf Applied Loads Lateral Concentrated Load Lateral 01atributed Load Applied Moment Vertical Load D: Dead Load k Will k -ft 1.440 k Lr: Roof Live k Wft k -ft k L: Live k k(t k -ft k S: Snow k kM k -ft 3.60 k W: Wind 0.1080 k 0.1130 klft k -ft k E: Earthquake k Wft k -ft k H: Lateral Earth k klh k -ft k Load distance above +D+S+H TOP of Load above ground surface 0.000 0.13 ground surface 12.0 0 12.0 It +D+0.7501 -r+0.75011+1-1 0.000 0.000 .0.13 BOTTOM of Load above ground surface 25.0 1.000 +D+0.7501-+0.75OS+H 0.000 it 0.13 0.0 Load Combination Results Fortes Ground Surface Required Pressure at Depth Soil Increase Load Combination Loads -(k) Moments -(ft-k) Depth -((0 Actual -(psf) Allow -(ps0 Factor +D+H 0.000 0.000 0.13 0.0 25.0 1,000 +D+L+H 0.000 0.000 0.13 0.0 25.0 1.000 +D+Lr+H 0.000 0.000 0.13 0.0 25.0 1.000 +D+S+H 0.000 0.000 0.13 0.0 25.0 1.000 +D+0.7501 -r+0.75011+1-1 0.000 0.000 .0.13 0.0 25.0 1.000 +D+0.7501-+0.75OS+H 0.000 0.000 0.13 0.0 25.0 1,000 +0+0.60W+H 0.878 5.659 4A0 751.6 800.0 1.000 +0+0.70E+H 0.000 0.000 0.13 0.0 25.0 1.000 +D+0.750Lr+0.750L+0.450W+H 0.659 4.244 3.63 686.4 725.0 1.000 Title Block Line 1 Project Title: You can change this area Engineer: Project 10: using the "Settings' menu item Project Descr and then using the 'Printing & Tf Title Black" selection. Title Block Line 6 Pole Footing Embedded in Soil Fib= IPERSONALCLOUD1PubliclEY4W2P-Al2WSD4E-KIS4UYED-Etl0S17G-OIS02ZET-5.EC6 ENERCALC, INC,19812015, euila:6.15.10.6, Ver6.15.10.6 Description: Controlling Column Footing .D+0.7501-+0.750S+0.450W+H 0.659 4.244 3.63 686.4 725.0 1.000 +D+0.750L+0.750S+0.5250E+H 0.000 0.000 0.13 0.0 25.0 1.000 +0.60D+0.60W+0.60H 0.878 5,659 4.00 751.6 800.0 1000 +0.60D 0.70E+0.60H 0.000 0.000 0.13 0.0 25.0 1,000