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Plans (16) • i Architectural Millwork Mfg. Co. Box 2B09 / 2123 Cronn 9t. / Eugene, Orlon 97402 341.589-1331 / 1 -800.535 -1331 / rikX: 3.41-8e • L`atimating: Bob Darale 303 - 28--0580 r'ax: 503 - 289 -00009 F AX #. 503-273-9192 DATE: 5/27/04 CO 64 TO: DULL OLSON WEEKS ARCHITECTS 0 -I I ATTN.: Keith Johnson V�� ® ®D u FROM: Jerry Stump SUBJECT: TIGARD HIGH SCHOOL, VALCHROMAT ® FOR YOUR REVIEW Ej PLEASE RESPOND COMMENTS: Keith: Following is the information I have on Valchromat, PlumCreek MDF and AWI fire code designations. Please feel free to contact me if I can be of further assistance. Thank You Jerry T' 8902- e9b -TbS >1UOmITl1.1 TeUnaoaatyoJb e22:TT SO LO UeC VALCHROMAT that' • I - te .•.. i ,r right through Valchrornat is the name for an MDF which is coloured throughout. It is manufactured in a similar way excepting that after defibration of the woodfibres, a choice of one of sir, orournC dyne in addod Valchromat has been designed and developed, to a high level. Apart from being moisture resistant, many of its physical and visual characteristics well outstrip those of ordinary f brobourds. The physical and chemical proportios conform both to CEN and EMB norms for MDF At present Valchrornat is available in a choice of six Colours and seven thicknesises. The colour control of the product is based on, and conforms to. the data base listed by CIELAB. Light resistance tests conform to those laid down in BS1006. The board is moisture resistant. and with a formaldehyde content of less than 9mg/100g. a therefore Class , - Valchrornat has a high melamine content in its makeup, which acts as a lubricant during machining, and helps to ensure an cdgo which requires only n minimum amount of sanding to achieve a high standard of finish. • In use Valchromat can be designed into products as a single `!`' colour• mixed with rtS follow or as a complement to veneered MDF or gelid timbers. - Unit • 8mm , 12mm 16mm 19mm 22mm 29mm 30mm . - Density kg /mtr /cube 800 790 760 750 730 690 690 . - _ Thickness swell (24hro) % 10 . 7 5 5 5 5 4 !-kin: :1 Internal bond N /mm /oq 1.10 1.10 1.10 1.00 0.95 0.90 0.90 ., I. Bending strength N /mm /sq 30 30 30 30 30 22 22 - ..-';:'r! Modulus of elasticity N /mm /sq 2700 2500 2500 2500 2500 2300 2300 1 ;. i • under bending `1 :. i . • Thickness r wall 24h % 17 16 15 15 15 10 10 :'i'r:: after cyclic test ''�....: Internal bond after N /ram /sq 0.30 0.25 0.20 0.20 0.15 0.15 0.15 3;)r: cyclic toot board size: light rof;ittancu Test of resistance to light simulation (norm 55r 006.24h ot poaurn In sornrbox) Reference Result Yellow syw 4 Anthracite sbl 3 `',.,.',; :o- _ . -. , rM Blue -sib - — 3 , Brown sbr S i " „ , t Green aqr 2 Red '. , i , i. .:zi - ssc 3 2•d 8902 E9i7 i{.aomt T tW te..Jnaoazzuo.ad e22: T T SO LO Uef 04A{'1{. /. 2004 10: 31ANlnx L 406 882 6870 PLUM CEEK MDF NO. 5990 N• Ii 1 ®002 'E • • Juno 1992 T E C H N I C A L B U L L E T I N Surface Burning Characteristics Plum Creak MU is a composite wood product and a combu,atibla material. When 'subject to high heat, combustible gases develop • that contribute to flame destruction and smoke development. Plum Creak MDF. has been tested and the following surface burning characteristics are generally appropriate SURFACE BURNING CHARACTERISTICS Flame spread 165 ' Smoke Doveloped 140-175 • Basdd on tho flame- spread index, Plum creak MDF is a Class c product. P.O. Box 160 Columbia Falls. Montana 59912 -0160 (408) 892-2141 E B902- 6947-TbS i{aomITtW Te.anZOaztuoJEJ e22:TT SO LO UeC . i . u. •t that are 10`Yv or less of the total wall and Ceiling areas in a _ NOW: Smoke Development given room This 10% rule can be used for any room by All model codes regulate the generation of smoke by • using this formula; - , interinr,finish,matcrials. In all casts they specify_a max i- A 2H(L + ) + Lx W i . - • • mum smoke development rating of 450. where red oak is II 100 and asbestos cement board 0. • A = area of interior finish to be applied to thc room, , f 1 = ceiling height Of room. Discussion of ASTM E-84 Test L = length of room, The Steiner Tunnel Test (ASTM ail 1✓ 54) u'.cs a 25 tout W = width of room. tunnel furnace in which interior finish products are installed , if A is less than or equal to the computed I•ornnila• 'on the.c,'eihng of•the furnace and exposed to a 4' /.- 1ort- loni:, i then the applied interior finish may be considered trim by as diffusion flame at one end. An airflow is maintained y.t the 10% rule. Under the Uuiforrn Building Code and the through the furnace from the flame to the di ;charge end of Standard Building Code trim may be of wood with no the famiicc. At the discharge end Of the furnace there is a specified flame spread clussitication.:Thc.BOCA National thermocouple and a photoelectric meter. The thermocouple is used to measure the temperature Building Code and the Life Safety Code permit a maximum FK rature increase in the furnace to flame spread classification of 200 for interior trim in any determine the fuel contribution of the material tested, The application. photoelectric cell measures smoke generated during the test ? An interior finish material including trim is considered and determines the smoke development. The furnace has thc surface or facing material that composes the exposed visual, ports,on the side which allow observation s al the portion or interior lace of a wall or ceiling, whether n he an flame aprcad along the finish material. ' •T , • architectural or acoustical treatment or the structure itself. It The testis generally run for 10 minutes. The maxi- includes the construction of the wall if there is no finish mum Flame spread is measured and a flame spread classtfi- ,I material applied to the basic wall construction. .. cation number calculated. Asbestos cement hoard .venerate.. • ,? Open Plan - a value of 0•flame spread and Red Oak a value of 100. Frorn this range the flame spread classifications for various The Model Codes do not specifically address the interior finish materials arc generated so that an evaluation "Open plan" or "landscaping concept," albeit the furniture of their relative hazard potential can be made by regulatory ' ; and casework are used both as furniture and to delineate officials. The Model Codes have ado rooms and traffic control aisles. adopted specific allowable c flame spread cla for various installatidns of Note: BOCA requirements for rooms or•cnclosed interior finish materials. These arc specified in the Tables ' ;, ti spaces arc based upon thc spaces being enclosed with that follow this discussion. partition:: extending from floor to'eciling. Where this does Teat methods are not completely accurate for all flame .. ' r not occur, the room or space is considered part of the spread classifications and smoke development ratings, as }i lecorridor. has been demonstrated in several round -robin testing Discussion of Flame Spread programs between the various testing laboratories. There- ' Classifications fore, all flame spread classifications generated under the if The Model Codes have different requirements for . SLCiner,Tunncl Test should be taken within the context 01 a flame spread classifications for interior finish and trim relative evaluation of the flame spread characterist cs of a based on the Use Group of the building and the Usc Area in material and not as an absolute nieasuremcnt of has rd c ' , which the finish material is located. The basic classifications , P otential. • + are summarized as follows: Typical Flame Spread Ratings TABLE 1 Most untreated wood species commonly used as Model Code Designations interior finish materials have name spread etassilieation, Spread less than 200. The highest flame spread classification • ' " ermined by the Model Codes is 200. Therefore, these cl uankam�l No tional standard uniform t safety D )' (Kea. Paling) (BOCA) (sect (UBC) (NFPA 101) untreated wood species are acceptable for many uses :is ; r4 25 A i A interior finish or trim depending upon the use of the • .' 7 5 If a ii g building and the area in which the finish is installed. as 200 III C ire C indicated in the Tables that follow. Untreated lumber does not have a label Irom recognized testing laboratories, nor . The flame spread classifications are derived from the have all lumber species been tested. However, there have 'Yin Method of Test for Surface Burning Characteristics of been sufficient tests accomplished through variouk testing'. ; Building Materials (ASTM E -M4). This test is known in the laboratories to utilize these numbers in assigning flame industry as the Steiner Tunnel Test. It is referenced in all the spread classifications. - Model Codes for ascertaining flame spread ratings of The following Table lasts untreated wood species that „ materials and is also designated as UL No. 723 and NFPA have been tested in accordance with ASTN1 E -S4, with their No. 255. respective flame spread classifications. A.520' tr.) 1999 nrcltifectored Woodwork Institurr - 71/i Edition Qualify Srunduril.. t b - d 8902 -E917- TbS s,1UOmi i Ti4 Te.anlOaatuO.ad eE2 : T T SO LO UeC D U L L O L S O N W E E K E S ARCHITECTURE + INTERIORS + PLANNING architects pc DATE: December 10, 2004 10 � ,(C16 TO: Dan Nelson City of Tigard V FROM: John Westfall PROJECT: Tigard High School COPY: Craig Marcus Cornerstone Galen Daniels Robinson RE. Construction Classification at Music Dear Dan, I appreciate your bringing the Construction Classification of the Music area to our attention earlier this week. After returning to my office, I discussed the question with Keith Johnson, the Project Manager on this job. He concurred that we had intended this area to be Type VN and not Type V -1 hr. as shown. It actually is shown correctly as Type VN on a subsequent drawing labeled "Fireproofing Plan." The actual area of 7,677 SF is lower than the 9,100 SF allowable for a Type VN "E" occupancy, thus giving us the ability to classify this area as such. I hope this letter clarifies this mistake to your satisfaction, please call if you have any questions or comments. Submitted by. Du; Olson -:kes I c ite.9 101 John P. Westfall Project Architect M F M f1 R O N tl II M 319 SW WASHINGTON ST #200 PORTLAND, OR 97204