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DRB080614
Design Review Beard ACTION FORM Towwff vi, 00&%VJNITY DEVELOPMENT Department of Community Development 75 South Frontage Road, Vail, Colorado 81657 tel: 970.479.2139 fax: 970.479.2452 web: www.vailgov.com Project Name: TREE TOPS RE-ROOF DRB Number: DRB080614 Project Description: Participants: RE-ROOF OWNER SIMPSON TELLURIDE PROPERTIES 12/12/2008 4582 S ULSTER ST PARKWAY STE 1200 DENVER CO 80237 APPLICANT TCC CONTRACTORS, INC. 12/12/2008 Phone: 970-328-2340 P.O. BOX 2123 EAGLE CO 81631 License: 540-B CONTRACTOR TCC CONTRACTORS, INC. 12/12/2008 Phone: 970-328-2340 P.O. BOX 2123 EAGLE CO 81631 License: 540-B Project Address: 452 E LIONSHEAD CR VAIL Location: TREE TOPS CONDOS Legal Description: Lot: 6-A Block: Subdivision: TREETOPS CONDO Parcel Number: 2101-064-0400-1 Comments: SEE CONDITIONS BOARD/STAFF ACTION Motion By: Action: STAFFAPP Second By: Vote: Date of Approval: 12/18/2008 Conditions: Cond: 8 (PLAN): No changes to these plans may be made without the written consent of Town of Vail staff and/or the appropriate review committee(s). Cond: 0 (PLAN): DRB approval does not constitute a permit for building. Please consult with Town of Vail Building personnel prior to construction activities. Cond: 201 (PLAN): DRB approval shall not become valid for 20 days following the date of approval, pursuant to the Vail Town Code, Chapter 12-3-3: APPEALS. Cond:202 (PLAN): Approval of this project shall lapse and become void one (1) year following the date of final approval, unless a building permit is issued and construction is commenced and is diligently pursued toward completion. Planner: RACHEL FRIEDE DRB Fee Paid: $250.00 Development Review Coordinator Community Development Department 75 South Frontage Road, Vail, Colorado 81657 tel: 970,479.2128 fax: 970.479.2452 web: www.vailgov.com Application for Design Review Minor Exterior Alterations General Information: This application is required for all proposals involving minor changes to buildings and site improvements, such as re- roofing, painting, window additions, landscaping, fences, retaining walls, etc. Applicable Vail Town Code sections can be reviewed on-line at www.vailaov.com under Vail Information - Town Code On-line. All projects requiring design review must receive approval prior to submitting a building permit application. An application for Design Review cannot be accepted until all required information is received by the Community Development Department,, as outlined in the submittal requirements. Design review approval expires one year from the date of approval, unless a building permit is issued and construction commences. Fee: $250 for Multi-Family/Commercial $20 for Single Family/Duplex r ? n r Description of the Request: ?- (;?_10 0't- Single Family DuplexMulti-Fam`itly Location of the Proposal: Lot: Block: Subdivision: AA 1 LIcw'V AO 1YWX Physical Address: li?P AS t^ L(% r)A,>-s k r PA A Q__k ` c t v- Parcel No.: 1 D 1 b? `? ©Q. Db 1 (Contact Eagle Co. Assessor at 970-328-8640 for parcel no.) Name(s) of Owner(s): I C'P'" Mailing Address: S D FMS I L'l c) e-o, Phone: Ito- Gq '&off. Owner(s) Signature(s): _!E?Qlz ) r?, Name of Applicant r?(- leO C-)'t 1 lv Q 7V ?l 1? C.? TC?1/ S? ?L /V Mailing Address: Phone: 17(-2- E-mail Address: Fax: ? 70 7`,?, 2- c -7 For Office Use Only: Fee Paid: Meeting Date: Planner: ROF Check No.: (00 E, l f DRB No.: I Aw Qn-k I `T Project No.: WC? (l tdi•? Department of Community Development 75 South Frontage Road, Vail, Colorado 81657 tel: 970.479.2128 fax: 970.479.2452 web: www.vailgov.com TOWN MIL Additions- Residential or Commercial Application for Design Review General Information: This application is required for all proposals involving the addition of any floor area, including net floor area and/or gross residential floor area (GRFA). This also includes proposals for residential 250 additions' and interior conversions'. Applicable Vail Town Code sections can be found at www.vaiinov.com under Vail Information - Town Code Online. All projects requiring design review must receive approval prior to submitting a building permit application. An application for Design Review cannot be accepted until all required information is received by the Community Development Department, as outlined in the submittal requirements. The project may also need to be reviewed by the Town Council and/or the Planning and Environmental Commission. Design review approval expires one year from the date of approval, unless a building permit is issued and construction commences. Fee: $a b F q 1O ? Description of the Request: 4-iA ?e Cn ? ?- ` ? ? u ? l 11 c t v' c r°t ?? Addition of sq ft of GRFA (Residential) Addition of 1/7 sq ft of net floor area (Commercial/ Office) Location of the Proposal: Lot: Block: Subdivision: Physical Address: 4- 5:. E-FAS T I, i Q o`l v Lt Vr1 e_ Parcel Number: (Contact Eagle Co. Assessor at 970-328-8640 for parcel no.) Property Owner: Mailing Address: Phone: L? Owner's Signature: Primary Contact/ Owner Representative: Mailing Address: L+s 5 -- L1S Z P5 -] Phone: l c1 '7 O 1 +1 6-- C S 0-7 E-mail Address: J.ah I •?? ol?? . max: A '7© ) `- -7 - cl i'_ a 4- Fee Paid: Check No.: By: Meeting Date: DRB No.: Planner: Zoning: Project No.: F:\cdev\FORMS\Permits\Planning\DRB\drb_addition_05-23-08.doc Page 1 of 8 tUIFWO Tt4.Il., x JOINT PROPERTY OWNER WRITTEN APPROVAL LETTER This form is applicable to all Design Review applicants that share ownership of the subject property. For example, the subject property where construction is occurring is a duplex, condominium or multi-tenant building. This form shall be completed by the applicant's neighbor/ joint property owner. In the case of a multiple-family dwelling or multi-tenant building, the authority of the association shall complete this form and mail to: Community Development Department, 75 South Frontage Road, Vail, CO 81657 or fax to 970.479.2452. I, (print name) -01f A . BOO vv N , a joint owner, or authority of the association, of property located at 45 Z ?a sT [?i o Inc l Y.i P-a 81 b 51 , provide this letter as written approval of the plans dated which have been submitted to the Town of Vail Community Development Department for the proposed improvements to be completed at the address noted above. I understand that the proposed improvements include: Ff-= - t-?o c.5-P 1_0 % 4AN- 0o-AaY M???iA Q??Jj rA ? I (Signature) I Z/I O / O°o (Date) Additionally, please check the statement below which is most applicable to you: 0 I understand that minor modifications may be made to the plans over the course of the review process to ensure compliance with the Town's applicable codes and regulations. C M' prilual here) o I request that all modifications, minor or otherwise, which are made to the plans over the course of the review process, be brought to my attention by the applicant for additional approval before undergoing further review by the Town. Q .s (dal here) F:\cdev\FORMS\Permits\Planning\DRB\drb_addition_05-23-08.doc Page 2 of 8 TOWN OF VAIL, COLORADO Statement Statement Number: R080002352 Amount: $250.00 12/12/200811:09 AM Payment Method: Check Init: JLE Notation: 6041 TCC CONTRACTORS ----------------------------------------------------------------------------- Permit No: DRB080614 Type: DRB-Minor A1t,Comm/Multi Parcel No: 2101-064-0400-1 Site Address: 452 E LIONSHEAD CR VAIL Location: TREE TOPS CONDOS Total Fees: $250.00 This Payment: $250.00 Total ALL Pmts: $250.00 Balance: $0.00 ACCOUNT ITEM LIST: Account Code Description Current Pmts -------------------- ------------------------------ ------------ DR 00100003112200 DESIGN REVIEW FEES 250.00 ----------------------------------------------------------------------------- i "diaL 41 C. ICA ?i \- ? I POLYISO INSULATION PRODUCTS When it comes to selecting the best overall insulation product for roof systems, polyiso is the product of choice. No other foam plastic insulation has the perfect combination of features so important for long-term performance. These performance features provide excellent initial installation costs, as well as attractive life cycle payback rates, which can be easily calculated by using Roofwise (NRCA/PIMA) Energy Software. Ask your Atlas Sales representative for a demonstration. Polyiso insulation is the only foam plastic insulation that can be used in almost all types of roof systems without the need for a thermal barrier. Polyiso's high-temperature stability prevents melting when mopped with hot bitumen. Polyiso is unaffected by properly applied construction adhesives, and many membrane manufacturers specify its use without the need for a cover board in single-ply adhered systems. Atlas recommends ACFoam Roof Insulation only for roofing applications installed by a qualified contractor. FM Approvals has approved the use of ACFoam as a component in Class 1 insulated roof deck construction. ACFoam has also been tested and Classified by Underwriters Laboratories as a component of an insulated roof deck. BENEFITS Of ROOF INSULATION Because of its ability to resist heat transfer, roof insulation conserves energy and increases occupant comfort. It also provides important roof system benefits: • May prevent interior condensation • Provides a suitable substrate for the roof membrane • Reduces deck movement by stabilizing temperatures • Key component of fire rated roof assemblies • Compatible with system components, including adhesives • Dimensionally stable TYPICAL COMMERCIAL ROOF SYSTEM DESIGN CRITERIA Several design criteria require the designer's consideration when determining the components of a roof assembly. The following checklist is not exhaustive but should assist in the design process: - Geographical location (climate) • Building usage (temperature and humidity) • Type of roof deck • Code requirements • Slope and drainage i • Desired thermal requirements • Insurance requirements (fire and wind) • Environmental factors • Roofing materials ;rte • Manufacturer's requirements TYPICAL PHYSICAL PROPERTIES (Foam Portion) Dimensional Stability (Length and Width) ASTM D 2126 <2% Compressive Strength (10% Deformation) ASTM D 1621 20 psi (138 kPa) or 25 psi (172 kPa) Water Absorption Moisture Vapor Transmission Product Density Flame Spread Smoke Developed Tensile Strength Service Temperature ASTM C 209 ASTM D 2842 ASTM E 96 ASTM D 1622 ASTM E 84 (Full 10 min. Test) ASTM E 84 (Full 10 min. Test) ASTM D 1623 <1% < 3.5 % (85.Ong/ (Pa•s-ni Nominal 2.0 pd (32.04 kg/m3) 40-60. 50-110` >730 psf (35 kPa) -40 to 200F•' New Extended MosterFormat- 072113.13 POLYISO ROOF INSULATION AND ACCESSORIES OF CON-E,A_17,7 Introduction to Polyiso Insulation Products ACFoam Roof Insulation LTTR Values Tapered Products LTTR Values Green Side of Polyiso Single-Ply Membrane Systems BUR and Modified Bitumen Systems Bitumen Temperature Metal Roof Systems ACFoam-II ACFoam-111 ACFoam Composite/FB ACFoam Composite/PB ACFoam Composite/GB ACFoam Recover Board ACFoam Supreme Certified Drainage Program Tapered ACFoam-11 Tapered ACFoam-III Tapered ACFoam Composite/FB Tapered ACFoam Composite/PB Tapered ACFoam Composite/GB Gemini Pre-Cut Crickets Gemini One-Piece Drain Sets ACFoam CrossVent ACFoam CrossVent RB ACFoam Nail Base Nail Base Fasteners Fire Resistant Slipsheets Fastac Roofing Adhesive Polyiso Technical Information General Instructions and Warranty Information Contact Information 2 3 3 4-5 6 7 7 7 8 8 9 9 9 9 9 10 11 11 11 11 11 12 12 13 13 13 14 14 14 15 16 16 TECHMCAL ASSURANCE Atlas provides a full-service Technical Department with a LEED Accredited Professional (AP), Registered Roof Consultant (RAC), Construction Documents Technologists (CDT) and Certified Construction Product Representatives (CCPR) on staff. O 2006 Atlas Roofing Corporation 'The numerical ratnuls as deteimineci by ASTM Test Method E 84 are not intended to renN t hazards presentedl by this or any other material under actual fire conditions. A name spread index of 75 or less and smoke development of 450 or less meet code requirements regarding flame spread and smoke development for foam plastic roof insulation. However, the codes exempt foam plastic insulation when used in roof deck constructions that comply as an assembly with FM 4450 o, in 1256 (see IBC. NBC, UBC, and SBC Sections on Foam Plastic: Insulation (( hapter 16). Smoke development does not apply to roofing. ^ASTM C 1189 Standard Specification for raced Rigid Cellular Polyisocyanurate Thermal Insulation Board. The physical properties listed above are presented as typical average values as determined by accepted ASTM test methods and are subject to normal manufacturing variation STandard, Grade ). 20 psi. Non-standard. Grade 3. 25 psi. ASTM Standards for TPO Roofing Membranes Page 1 of 5 "W ?`J q view Cart Views Standardization News Search cJJ_ Feature TPO Roofing Membranes AUGUST ASTM Home ASTM Specification Adds Market Credibility to New Roofing Material by Randy Ober and Paul Oliveira Thermoplastic polyolefin membrane is based on polymers defined by ASTM D 5538, Practice for Thermoplastic Elastomers - Terminology and Abbreviations, as a thermoplastic elastomer - olefinic. A thermoplastic elastomer is a diverse family of rubber- like materials that, unlike conventional thermoset rubbers, can be reprocessed and recycled like thermoplastic materials. Thermoplastic polyolefins are in the thermoplastic elastomer family and are commonly referred to as TPO in the single-ply roofing industry. TPO-based products have been used in various applications, including the automobile industry since the 1980s, and have seen their usage continue to expand. In 1989, TPO-based membrane moved into the roofing industry as a non-reinforced sheet. In 1993, the original non-reinforced TPO membrane was replaced with membranes containing reinforcing fabric. Since that time, the TPO single-ply roofing market has grown to hundreds of millions of square feet annually with TPO membrane comprising the fastest growing segment of the U.S. single-ply roofing industry. Currently, there are at least six manufacturers of TPO roofing membrane in the United States as well as several marketers. Until recently, there has been no ASTM standard established for TPO reinforced roofing membrane. The approval and release of an ASTM TPO standard has defined minimum physical properties of the membrane, providing needed standardization to the industry. The task group challenged with the development of this ASTM specification, D_6878, Specification for Thermoplastic Polyolefin Based Sheet Roofing, is under the jurisdiction of Subcommittee D08.18 on Polymeric Materials, part of _Committee D08 on Roofing, Waterproofing and Bituminous Materials. The task group is made up of individuals representing roofing material manufacturers, consultants, architects, specifiers, roofing contractors, governmental agencies and other organizations. The 2 0 0 3 SH Contents Randy Ober has been employed by Carlisle SynTec Incorporated for 20 years and currently holds the position of manager, project engineering - thermoplastic/FleeceBACK systems. He currently serves as secretary for ASTM D08.18 and is task group chairperson for D 4637 on EPDM Roof Membrane. Paul Oliveira is the product manager for accessories at Firestone Building Products. In this position he is responsible for the accessories for insulation, asphalt, EPDM, and UltraPly products. Oliveira has been the president of SPRI, chairman of the RMA roofing committee and has served as the ASTM TPO task group chair since its inception in 1992. http://www.asttn.org/SNEWS/AUGUST_2003/obeoli_augO3.html 1/7/2009 ASTM Standards for TPO Roofing Membranes task group meetings for the development of the TPO standard have always been popular and well attended and many members travel to committee week specifically for this event. With all of the input from various interests that has been incorporated into this specification, D 6878 will serve the roofing industry well. TPO Composition TPO roofing membrane is typically based on polypropylene and EP (ethylene-propylene) rubber polymerized together using state- of-the-art polymer manufacturing technology. This technology enables the production of TPO membranes that are flexible at low temperatures without the use of polymeric or liquid plasticizers. Unlike some other popular thermoplastic roofing membranes, the TPO polymer does not contain chlorine and no chlorine- containing ingredients are added during sheet production. This lack of chlorine has allowed TPO marketers to tout their membrane as an environmentally safe, "green" product. The TPO resin is compounded with other components including a weathering package, fire retardants and pigments for color to create a product that can withstand the elements associated with rooftop exposure. The membrane is comprised of TPO based top and bottom plies encapsulating a reinforcing fabric that enhances the physical properties of the sheet (see Figure 1). The combination of the fabric and TPO plies provide reinforced membranes with high breaking and tearing strength and puncture resistance. Sheet widths are available up to 3.66 in (12 ft) and membrane thickness is typically 1.1 or 1.5 mm (0.045 and 0.060 in.), however, membrane up to 2.0 mm (0.080 in.) is available. Installation/System Types TPO roofing membrane is typically installed using mechanical fasteners and plates placed along the edge of the sheet and fastened through the membrane and into the roof decking (see Figure 2). Adjoining sheets of TPO membrane are overlapped, covering the fasteners and plates, and joined together with a minimum 40 mm (1 1/2 in.) wide hot air weld. In the field of the roof, proper membrane width and fastener spacing is determined after calculating potential uplift loads based on building height, surrounding terrain and the wind zone in which the building is located. The fastener/deck combination must exhibit adequate pull-out resistance to withstand the fastener loading generated during uplift. The membrane and the welded seam must also resist the forces generated by wind uplift. The ability of a mechanically fastened system to withstand these forces is typically evaluated using a 3.7 x 7.3 in (12 ft x 24 ft) uplift table where the system may be pressurized until failure (see Figure 3). Along the perimeter of the roof, where the highest wind loads are experienced, reduced width membrane (40 to 60 percent of the field sheet width) is installed to reduce the fastener and seam loading. The membrane may also be fully adhered to an insulation or deck material using an adhesive. Insulation is typically secured to the Page 2 of 5 http://www.astm.org/SNEWS/AUGUST_2003/obeoli_augO3.html 1/7/2009 ASTM Standards for TPO Roofing Membranes deck with mechanical fasteners and the TPO membrane is adhered to the insulation (see Figure 4). This type of system is highly resistant to wind and its associated uplift forces. Since the sheet is 100 percent affixed to the substrate, the membrane does not flutter due to associated wind forces. With no sheet movement due to the 100 percent attachment of the membrane, the fully adhered system is ideal for very visible roofs such as domes or other high slope applications. Weldability One of the primary benefits of TPO membrane is the ability to fuse the sheets together with a hot air weld (see Figure 5). The welding process results in a bond that is actually stronger than the sheet itself. Flashing details, such as exhaust vents, pipes and parapet corners are also completed using hot air welds and flashing material (typically non-reinforced). When properly compounded, TPO membrane has a wide window of weldability, allowing the roofing applicator to complete hot air welds consistently in a broad temperature range. Since weld integrity is critical to the performance of the roofing system, it is imperative that the membrane welds properly in a wide range of ambient temperatures. TPO membrane can be welded at speeds up to 80 mm/s (16 ft/min) using a self-propelled hot-air welder, however, optimum welding speeds are 60 to 70 mm/s (12 to 14 ft/min) with the air temperature at the welding nozzle at approximately 540° C (1000° F). TPO is a thermoplastic material and does not "cure" on the rooftop once installed. This allows the sheet to be repaired with proper surface preparation after rooftop exposure. Wide Sheet Technology Another benefit that TPO membranes brought to the roofing community were wide width sheets. Currently, TPO membrane is available in the market in widths up to 3.66 in (12 ft). These wider sheets provide installed cost savings by reducing the total number of seams to be completed in the field and the labor associated with the seaming/welding process. Wider sheets also require fewer fasteners and plates for membrane securement, fewer rolls for the roofing applicator to handle on the roof, and less membrane being utilized in the seam overlaps. Physical Properties The ASTM specification for TPO roofing membranes outlines a variety of physical properties and their minimum performance requirements. These properties include top ply thickness over scrim, elongation, breaking strength, tearing strength, linear dimensional change, weatherability and a myriad of others. Establishing these minimum requirements will provide a guideline for sheet manufacturers and will help ensure TPO membrane produced under this specification provides long-term rooftop performance. Thickness of top-ply coating over scrim is a very important Page 3 of 5 http://www.astm.org/SNEWS/AUGUST_2003/obeoli_augO3.html 1/7/2009 ASTM Standards for TPO Roofing Membranes element of the roofing membrane and has a direct effect on a sheet's ability to provide long-term weathering, abrasion resistance and weldability. The top ply thickness is measured at the intersection of reinforcing fibers. Breaking and tearing strength are also critical properties since each has a direct influence on the performance of the membrane when subjected to wind uplift forces. To evaluate long-term weather resistance, the xenon-arc weatherometer is specified. The xenon-arc weather resistance test exposes membrane samples to the combined effect of ultraviolet and infrared radiation, ozone, heat and water spray, to greatly accelerate outdoor weathering. Some thermoplastic membrane weather test results are published in total exposure hours, but the ASTM TPO standard specifies total radiant exposure in kilojoules per square meter (kJ/(m2.nm)). Total radiant exposure is the total energy per unit area analogous to the total sunlight required to sunburn skin. The irradiance is the intensity of the sunlight measured in units of power (watt) per unit area. Since the irradiance can be set independently on each xenon arc weatherometer, specifying the total radiant exposure rather than total number of hours reduces confusion. The ASTM TPO standard outlines accelerated aging tests that contain some of the most severe conditions of all single-ply roofing materials. Xenon arc testing for TPO membranes (per ASTM G 151, Practice for Exposing Nonmetallic Materials in Accelerated Test Devices that Use Laboratory Light Sources, and G_1.55, Practice for Operating Xenon Arc Light Apparatus for Exposure of Non-Metallic Materials) must be conducted at a black panel temperature of 80° C (176° F) with samples exposed to 5,040 kJ/(m2.nm) at 340 nm prior to removal and inspection. (After xenon-arc exposure, the specimens are inspected under a microscope at 7X magnification to look for cracks or crazing. Physical property testing is also specified for TPO after exposure within the xenon arc chamber. Breaking strength and elongation may not drop below 90 percent of the value generated with unaged material). No other ASTM specification for single-ply membranes requires a higher specified xenon arc weatherometer black panel temperature. As expected, the higher the black panel temperature, the more severe the test. A common "rule of thumb" used with xenon arc testing is that the severity of the heat-aging component is doubled for each 10° C increase in the black panel temperature. Heat-aging (ASTM D 573, Test Method for Rubber-Deterioration in an Air Oven) is another test used to accelerate outdoor weathering, and no other ASTM specification for single-ply roofing membranes uses a higher temperature (116° C/240° F) than the TPO specification. Recyclability TPO membrane, reinforced and non-reinforced, is 100 percent recyclable during the production process. During production, if the need arises, the membrane can be ground into "rework" and Page 4 of 5 http://www.astm.org/SNEWS/AUGUST_2003/obeoli_augO3.html 1/7/2009 . ASTM Standards for TPO Roofing Membranes this regrind can be incorporated into the bottom ply during the extrusion process to produce new TPO product. This process results in 100 percent reuse of recycled product. Reflectivity Another important characteristic of TPO membrane is its high level of reflectivity. Because of this, white TPO membranes can meet and even substantially exceed the U.S. Environmental Protection Agency's ENERGY STAR performance levels. Those ENERGY STAR marks that have been posted on refrigerators, water heaters and other appliances for years now can be seen on rolls of white TPO membrane. White TPO membranes typically display reflectivity ratings in the high 80 percent range when new (ENERGY STAR specifications require 65 percent minimum) and in the low 80 percent range after three-year rooftop exposure with cleaning (ENERGY STAR specifications require 50 percent minimum). TPO membranes are highly resistant to mold and algae growth, which can degrade the overall reflectivity of the roof and reduce anticipated energy savings. Conclusion Over the past decade, TPO membranes have succeeded in gaining strong roofing industry credibility based on their physical property characteristics, wide sheet technology and long- term rooftop performance throughout the world. The newly approved ASTM TPO specification adds credibility by providing definitive guidelines for minimum membrane properties, thus helping to ensure product quality, durability and longevity. H Copyright 2003, ASTM Page 5 of 5 http://www.astm.org/SNEWS/AUGUST_2003/obeoli_augO3.html 1/7/2009 01 -23 -2013 Inspection Request Re forting (�. -Op Pa e 3 4:15 pm _ P Vail- COQ- City O 9 1G 1 (JiS- �1�� g Requested Inspect Date: Thursday, January 24, 2013 Inspection Area: CG Site Address: 452 E LIONSHEAD CR VAIL TREE TOPS CONDOS A/P /D Information Activity: B09 -0020 Type: A -MF Sub Type AMF Status: ISSUED Const Type: Occupancy: Use: Ins Aea Owner: SIMPSON TELLURIDE PROPERTIES LLLP Contractor: TCC CONTRACTORS, INC. Phone: 970 - 328 -2340 Description: RE -ROOF: replace with densdeck, poyiso (4 ") roof insulation and GENFlex tpo. CLASS A ASSEMBLY Requested Inspections hem: 90 BLDG -Final Requested Time: 08:00 AM Requestor: Phone: Comments: FOLIQW UP Assigned To: E M R Entered By: JMONDRAGON K Action: Time Exp: n Inspection History hem: 30 BLDG - Framing Item: 70 BLDG -Misc. 04/16/12 Inspector: mdenney Action: NO NOTIFIED Comment: Contractor has been notified to call for final inspection when weather conditions improve. Roof was Item: 90 BLDG -Final snow covered. REPT131 Run Id: 14630