ML102930631

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Email - Subject: Mactec Petrographic Report
ML102930631
Person / Time
Site: Crystal River Duke Energy icon.png
Issue date: 11/13/2009
From: George Thomas
Office of New Reactors
To: Naus D J
Oak Ridge
References
FOIA/PA-2010-0116
Download: ML102930631 (46)


Text

r At Masters. Anthony LL7pq~$.From: Sent: To: Cc:

Subject:

Attachments:

Categories:

Thomas, George Friday, November 13, 2009 2:16 PM nausdj @ ornl.gov Farzam, Farhad; Lake, Louis; Carrion, Robert; Masters, Anthony MacTec Petrographic Report MacTec Petro Report 11-11 -09.pdf Perform Review Dan, Attached for you is the MacTech petrographic report.Thanks.George 1.

MACTEC engineering and constructing a better tomorrow November 1 1 2009 Mr. Craig Miller Progress Energy (352) 795-6486 ex 1026 Craig.niiller@pgnmail.com Sibiucct:

Report of Petrographic Observations Crystal River Containment Wall Steam Generator Replacement Project Crystal River Nuclear Generating Facility, Florida MACTEC Project No. 6468-09-2535 Dear Mr.MACTEC Engineering and Consulting, Inc. (MACTEC) is pleased, to present this report of our petrographic observations performed on two concrete cores that were shipped to our laboratory under chain of custody. An additional core was received under chain of custody for limited observations.

It is our understanding the two cores submitted for petrographic observations are from an area of the containment wall where a fracture was discovered running parallel to the surface at a depth of approximately 8 to 9 inches. We understand the core that was submitted for limited observations was from an area where the subject fracture had not occurred.The cores submitted are as follows: Core Number Laboratory Number Description of the Core Assigned by', MACTEC _.. ... .........

........ ..... .... .... .. .. .. ..........

.............

...... ..............................

... ..... .. ..............

... ..5. ! 21269 From an area where the fracture had occurred 2 12270 From an area where the fracture had not occurred... 7 21271 .... From an area where the fracture had occurred Each core was photo documented as received and then saw cut longitudinally into halves. Each half was labeled with the same sample number and than A and B were added to designate the halves. As requested the B half for cores 21269 and 21270 were shipped to CTL Group in Skokie Illinois.

The B half of core 21271 is being held for possible future use. The A half's of thecores were used for our analysis.The purpose of our work was to perform a petrographic analysis of samples 21269A and 21271A and limited observations of sample 21270A. It is our understanding that you also require specific information www.mactec.coM MACTEC Engineering and Consulting, Inc.9177 Sky Park Court, San Diego, CA 92123 -Phone: 858-278-3600

-Fax: 858-278-5300

,j Ft., iaaitve uo thc g, of thie f'i ', -11 sý I rac,ý on 2 a , ie .269 A a ýýl 2 1 -7IA. S rp: :,G 's Zi-. sample tul did not have f tractured surfrace, Petroearch iic Obse~rvau tios A Petrograph ic Analysis is a visual and micro'scopic analysis of ce;,e;tittlus inaterals.pef med by a qualified petrographer.

Petrographic examinations are. typicaliy ,performed on roiished sections.

or thin:scctnns.

'Polished sections are enerlly cut sections that have te.eeii hippek (around flat and snooth) and polished and are observed using reflected polarized light r.ici-oscones at maitroftations of uin to 80X.Thin sections are samples mounted to glass slides and ground to specific thicknesses.(generaily20, 30. or 40 microns depending on the application) and observed using transmitted polarized light microscopes at magnifications of up to 600X.A petrographic evaluation may be performed to identify and describe a. specific item of interest such as the presence or extent of distress in concrete, or to provide a general characterization and measure -f quality of the materials hring evaluated.

The petrographic evaluation of concrete examines the-,,s.uent.s of the concrete including coarsc a fine aggregates, embedded items, een-dann air v'oid ,ctmucre, The examination identifies craclin: aresent in tht concrete, indieatý-,s o[corr'~sion ecteai of damrnae from uxteral sources. argr,,eate reýact Oii c amiccd atteck, fate attack.H, thaw cracking, acid attack, and oiher nmecha nikns of deterioration.

The pertromr xa toro a aiso est maie :he: water to cemet ratio. took for iadication<'

oi mineýra: a d ,: w d'nlia led i-c.r:en

ti inc paste, loo~k ger indloa~ions, of bleed water aid excess aorosirv intrw@ roiccr.e ,ook, o~f co.nr pr>cedtfres ned ind neao<s of om:r:sh:ae, ercTr a n .2: 9rescat anal ti-ereoa:dii~oin e n~hin the coren<::e wvhich m:"ielt giive ir for.ti. on dv >rl t'v cý1~ -a{2 oins ituctnz ::i~irterial.

7 f...... ..~artiil~zl-cost ita: maeria. kcre.goie~

inerology, rock typrw. "n r-nri re<?>retr.ideifi:ed when thin sections are v I- ' d under a transmitted polarized light miqro:opc.

TEST RESULTS AND )BSERYVAT1ONS PETRIO;RAPHIC O3SERVATIONS The petrographic analysis was performed in general accordance with the applicabk sections of ASTNl C S56-04 Standard Practice for Petrographie Examination of Hardened Concre.ie.

The results of our petrographic analysis are on the aitached sheets, Summary of Petrogr::phic Observations of Hardened Concrete.

Photoz,,phs From our examination are attached.

A summary olf our observations and discussion are. is 2 C,.v'yt':a:

iv1:U A3/4CW I I , F:1 ,WQo The coarse agrrgate generally c-onssted of a naural carbonate crnase~d Ctmk wih a rnmi.ium sihe of 3/4 inch. £he rocks tines observed included himestona, fos iliferotts him,:o...

..no a tew artcies. o coert and/or limestone and chert. The pa,.iclas wereceneraliy angular ý-, c-nlb-rounded in shape and fairly evenly distributed; The coarse aggregarwe appeared to comprise approximateiy 50% of the t;otal a.gregale quantity with bhe remaining fraction being fine aggregate.

On sample 21271, there were 4 coarse aggregate pieces on the cut surface of the core that retained moisture (and moisture in the surrounding paste) longer than other portions of the sample. These pieces are shown in Photographs 5, 6, 7, and 8. One of the pieces (Photograph 5 for core 2127 1) had a darkened rim. A thin section was prepared from the piece in photograph 7 and this piece contained microcrystalline quatiz and radial silica and exhibited localized evidence of alkali sihca reaction.The fine aggregate was observed to be a natural siliceous sand consisting mostly of quartz. The particles w-,ere ,ner.ily sih-angular to ýub-rortnded in shape and fairly evenly distributed, The canmert pame was ' A N:o iight gray Reference colors from The -aobzteat S cietg of Arnerici ock-,Covor Chart, T19 e i pnT- e- appeared moderaely hard and not , scratched wNih a harctened sceel pointr The concre a.tearod 'o have becn placcd at a motieraefr

a. water co cement ratt, possibly n the rane of U.4 -o 0.5. indcxaion of placcment at a hfr-h water to cemeent macto such as significant.

bleed channels and vater voids werenot obterved.:'_. irVidods d tek The concreote appeared to be air cntrained and had a total air content estimated to he ,around 2 to:, 3%. T'Fh voids were generally small and spherical, Some air void clustering was observed around a few co.'arse aggregate particle,.

The air void distbrition was moderately un-even and some small areas lacked air enrainment There was limited mineral growth observed in some of the air voids. Calcium hydroxide was observed lining some air -voids.3 SPECIFIC OBSERVATR'ONS O i"E FkdCTURFID SURFACE N SAp s 20 269A AMn) 21 27 IA U',bserva~i~g.Lr s.'::e y ,n .l 2 1269A o TIe cdge of the fr etorer surface, had sharp distinct edges.0 Generaly the coarse aggregate (predominateiy limestone) fractured as o tposed lo being puHed out of the cemant paste matrix.o The finhe a .edoziinately quartz) generally was oul!Ced out of the cemeat ,.'Iste uithneah it appeared that a few pieces of the quartz did fracture.The paste portion of the fractured surface did not 'npecar carbona-ted and produced a pink color when phenolphthaiein was applied.Some of the air voids*. that, were exposed on The fractured surface had some mineral grown in them. We did not observe the mineral growth on the fractured surface around these subject voids;Pieces of this sample wore purposely fractured in our laboratory and the purposely fractured surfaces had similar observations to the submitted fractured surface.There was a white colored deposit orn a few areas of the fractured surface. The deposit wais easily Icratched off and contained desiccation cracking.

Based on our observations ef immnersion mounts viewmed under a perrographic microscope the deposit appeared to contain %ery Fine material sed small s-rP, angular pieces of quartz. These observations are consistent with what we wouud excect frac~ore drillino slurry.~ The edgc. of the trc crre --.urf ý-e had sharp distinct dge.Get erly -'e .corse ag.regate. (predominateiv timest.nei .ra.turee d to being pulled*out c~f te c~em~ee 7acstemc rx o The fine gregc, e (predominatelv quartz) generally was Dulled out of the cernra pahie although ii appea'ed diat , rwv pieces of the quartz did fracture.The, past. ceticon of the fractured surface did not appear carbonated and produced a pink color hoen rhe-oihihalin was app1 ed,aome of the air veds that exposed on the fractured surface had some mineral grown in~eet. We ":id ant ,observe .he mineral growth on the fractured surtace around these subj-ect voids.Pic :Cs of this sammts were purposely fractured in our laboratory and the purposely fractured surfices had similar observations to the submitted fractured surface.MFTHODOLOGIMS TO EVALUATE THE RELATIVE AGE OF CONCRETE CRACKS Several articles have been written about dating cracks by measuring carbonation, Carbonation is a reaction that takes place between hydroxides in the cement paste and carbonic acid. The carbonic acid react with the alkaline cc.-mponents (the hydroxides) in the cement paste and neutralizes them. The carbonic acid can be derived from the dissolution of atmospheric carbon dioxide (CO..) in the concrete 4 pore "ater. Generally.

the longer concrete is expo.ad to the at the ,r megr-- the -ctph oi'c'arbonation.

In Adam Nevilie's aNicle. Can We Determine the Age of Cracks by Measuring Carbcmation2, Mr. Neviiie states in his conclusions that -dn the basis of carbonation measurements and of direct ubservazpn, it is often possible to say that a crack is oAd. but it is not possible to say that it is ne'vw". Mr. Neville also states"if very lttle carbonation has taken place, then this can he due to one of [wo reasons: either the crack is new or the conditions of exposure were such that carbonation could not proceed." in the article, Carbonation as an Indicator of Crack Age by Dipayan Jana and Bernard E&iti the authors s:ate that " ..carbonation can, at best be used as a qualitative measure of crack age. in most cases, however, determining the age of a crack by measuring the depth of carbonation along its walls is highly unreiiable.." The authors present somnt attermative crack age indicators as follows: 2 Cracks spanned by kridgeq of past indicate they were. formed when the concrete w,,,as semi-ptasgic.SCrack suraces that are Ymoh initate Kney were formed before concrete had attained much0 Cracks that inwerwec:

air voids annd rnas tnun sec odary deposits indicate format.iwu ait'er t;he Q .h prec{pitates.

SWheA e 2 cra7.cks ncr'er.c 2d one cL, in: ;eeondaor deposis, the ctack a.:CO O tOt.gt;&]

0i UlStt2!dV 0i ;irr\.dktiiooatly, inha n-,.ook .. Cor.,r:< oe "2' ,a.ry U.)onaad A. S!. John Alan WV Poo an , a :v potat out -.s: ia

....... ... the sne.;t[ bu;t carn noly chann~els.

and vg"nds in ithe pluaiic .,:~ta0 bctnoC? Ketttne.DISCUSSION in general the acncrnte appe'red to ho in Ioed condition.

There was some evidence that the. hert particles are under-ingn alkaii silica reaction however signiticait distress due to alkali siiica reaction was not observed in the samples and the chert particles comprised a vary small percentage of "he'aaT's.

its not unusuai to see evidence of some alkali silica reaction in older concrete.We understand the original mix design ised for zhe project (copy attached) specified approxinately 37%sand and 63% coarse agegrecpte.

Based on our observations of the core samples we estimate tliey contained approximatey 50% sand and 50% arse azgregtae, Tht Mtix design i dicated a ater -o cement ralto of 0.3-8. Based on our observations of the core samples we estihnate, the water "o cement ratio may have been on the order of 0,4 to 0.5. However, the evaluation of water to cemment ratiof eider concrete is very subjective and may not he reliable.Based on the sharp distinct edge cf the fractured surface, observatiuns, of fractured coarse aggregate (lirestone, which is relativelv easy ac tracture).

the obser'ations of a few frctured fine aggretmw (quart.which is relativeIv huard to frac~ure) pieces we expect the fractured surface observed in the samples occurred after the concrete had hardened and attained significant overall strength as welt as ,ýouffcient paste-to-aggregate bond to enmble failure in the limestone aggrcgate.

It is our understanding that the sub!re!t crack was an internal crack and not readily exposed to the atmosphere.

The outside surfaces had sonic levels of carbonation but the cracked surfaces did not. We expect the lack of observed carbonation on the crack surface could be due either to the lack of sufficient C02 in the crack space to ea..e :aubotatioa e thougha long period of time could hav-e "lapsed since cracking or the crack recenty formed ven rhough sufficient C02 was available i" the cracked urfface had been carbnated, that wouid indicate that there was sufficienm C02 to initate earhooat-n and sufficient time had eiapsed Tor the cirbanaion to progress inro the concretce.

In fhe case of, thn, c eracet 7 ;pl1s[.d the .xpected exposure 'M eoatht of the crack su.trlfce.

the lack of tobserved carb :-ht nr-acýured surface the xamoies ts nccoc h, i egardun an estimam e on ',. age "".4 .rckine A ;:igtrifiean!:

oar' oan .he racUzmred orr aec If t je sarptes is the mineral ;'mwt d-,- that ":,' ar: vee a, som8 :thO air voiP.s :e/oosd d: the ct.trcd strface, bur mineral growth wats not r <a re i~acoed surface. There was aot e eeten~txe amouan of tinnerni growth ohbsered in the cods jadirtiac the concrete was relatively dry in sert ice (possibly due to the elevated temperature inside the containment area). Had the crack been in exisqtence for along period of time, wa would have expected to see somie mineral growth on the fractured sutface.6 The !ack of carDonaton on the fraicture surface is "-,coclus,,ve ith o "iatin2" cri"ks.. Our findings indicate either the crack is reiativelv new or the crack could be old hut the amtosphtre tlhecrack was exposed to (an internal fracture not exposed ta Ihe outside, atmosphere) was not conducive carbonation.

The fractured limestone coarse aggrecgate particles on the fractured surface indicate the concrete hiad gained sufficient smmc, ngth and bond with the coarse aggregate to prevent aggregate puliw-out and cause the fracturing.

The limestone coarse aggregate generally does not have a high tensile strength and is expected to fracture relatively easily.. A few of the quartz fine aggregate particles had fractured indicating the concrete had gained sufficient strength and bond with a few of the fine aggregate particles to cause fracturing.

The quartz fine -ggregate generally has a relatively high tensile strengtsh.

The fractured aggregates indicate the fractured surface of the ,amplhs probably did. not occur soon after the concrete placement when the c was relatively fresh. We, understand this member is post-tensioned and it is likely that the oendons were tenstoned weeks following the phacement after sufficient strength gain for PVT t aning "as utund still relatively earl, in- Ae service life. We anticipate the cracking arter this stage h ýcer eauct correelation mo this occurrence!

load induced cracking .vas inconclusixve hosed on the FiCdi', -. 17:iting the crack hased on ,,bservatiogns

c. aggregate fracture was incetusive reyondt a oeri* U"i after post -es woioning to relati,.ctl

,-:r,,,,, cr-c, occurrence.

Thu; ohuerat er,<.;+",, itas in s;ome aft :he air ,,,s:q;gepus:ed at the f~raotured sur~acc. c--a.... was cot obhservedl "-a rcttrr sufceidiae teti ac a e~xisted 00n0cr thuc the ;,io,,ly the air n Ods hava been there Aicic the 2 oncrete was in a pa stcae amand or ,:e under favorable c-nditions.

the mineral growth in the voids has occurred.

Had the crack bee in e'istfc, fo a long_ period of tim, we would haWe expected to see soe mineral growth on the fractured surf'ace.The lack of mineral growth on the fractured surface of the, indicates the crack is either rciative~

y new or occurred after favorabie conditions for mineral g-rowth were diminished.

Had carbonation or mineral growth heen observed on the fracture surface of the samples, that wvould have indicated the crack is relatively old. The lack of carbonation and mineral growth on the fracture surface of the samples is an indication that either the crack could be rutivcly now or t, uondiond s Aor carbonation and mineral fc,-rvvth had not been Favorable since the crack developed, in %which case the age ofl the crack could not be determined.

7 Crstal River Concrete Core Observations Report of Petrographic Observations Crystal River Nuclear Generating Faciti., Florida November I1, 2009 MACTEC Project No. 6468-09-2535 We trust this information meets your current needs. If more information is needed of if you have any questions, please contact us.Sincerely MACTEC ENGINEERING AND CONSULTING, INC.Senior Principal Professional

/> /7;Sc ~*$.i* I ri nc' *d I ~ tsi na I (2 copies submitted)

Attachments:

References Summary of Petrographic Observations for Cores 21269A and 21271 A Photographs for Samples 21269 and 2127 1 Reports from Pittsburgh Testing Laboratory-R

'pyR ;V; , I "I ;ý 21)091 14ACTA,'C' Preý,;v No, Neville. AM., Cin We Determ-ine Age of Ci'a.ks by Mcm-iuring Cý.mnration?

Pahrt Internationa!, Deccmb2r 2(03.Neville. A.M., Can We Determine.

th Age of Cracks by Carbonation?

Part 2,. C, 'international, January 20104.Jana, Dipay.van.

and Er1in, Bernard, Carbona'ion as an Indicator Qf Crack Age, Concrete internaticina.

May 2007.St. John. Donald A. Poole, Alan W, and Sims. Ian, Concrete PeIrography, John Wiley and Sons, pp 229-246, 1998.

SMACTEC SPETROGRAPHIC OBSERVATIONS OF HARDENED-CONCRETE

-ASTM C-856-04 PROJECT NAME Crystal River Core Petrography Project i PROJECT NUMBER .. 2: ;11 DATE SAMPLED RECEIVED SAMt LE I U.SAMPLE SIZE AND DESCRIPTION Cor AS RECEIVED diax OBSERVATIONS BY 10-21-09 2; 269A acrete core, approximately 3 3/4/ inches in meter, approximately 7 to 8 inches long.David Wilson OBSERVATIONS CHARACTERISTICS

.COARSE AGGREGATE:

Shape Grading Distribution Angular to sub rounded Approximately 3/ maximum size Even. Approximately 50% of the aggregates appeared to be coarse aggregates with the remaining fraction being the fine aggregate., ___ _Fine Carbonate Texture Composition

~Rock Types Alteration:Degree Deree~it Limestone, fossiliferous limestone I Not observed Coatings j Not observed Rims Not observed Internal Cracking Generally not observed except in the vicinity of the fractured surface Contamination Not observed.I N A G R G A E ............

............. ..... ..............................................

....... ..... ........ ................

-~ FINE AGGREGATE:

Shape Generally sub-rounded to sub-angular Distribution Even Texture _Fine Composition

_ STliceous Petrographic Observations, Sample LD. 21269A Pd Form Reviewed and Approved for Use on Crystal River Cores Project 6468-09.2535 J. Allan Tice, Project Principal zge I of 3 M.ACTEC it Rock Types Alteration:

-Degree-Products Coatings Ik C_0 t' n zs .........................

.... .......... ...........

.Rims I Internal Cracking Contamination Not Observed Not Observed A few internal fractures were observed Not observed Quartz Not Observed C~ VhCI W¶~hV 7 A FW1W~ ~(ý_" gAKAU I Pý.A4 3 11 f3 UfW VA I J, CONCRETE:

_Air-Entrained or Not Appeared to have some air entrainment.

Total air content based on visual.observatins reared to be 2 to 3%.. ..... .. .. ..... ..... .. ..... ........ ..........

.............................

....... .o .... ...........................

Air Voids: Mostly small and spherical.

Some air void-Shape clustering was observed around a few-Size coarse aggregate particles.

The air void-Distribution distribution was moderately un-even, some small areas lacked air entrainment.

There was some limited mineral growth observed in some of the air voids. Calcium i-hydroxide was observed lining some air_ voids.Bleedinp I Not Observed Segregation

-Not Observed Aggregate-Paste Bond Fractures Embedded Items-Shape-Size Coarse and fine aggregates appeared to have a good bond to the cement paste with few openings.

Some aggregate particles had increased calcium hydroxide in the paste surrounding the perimeter of the I pD ar tict___ e _.. ....... .........

... ..... ......One end of the core contained a fractured surface. There were some other minor fractures on the end with the fractured surface. On the fractured surface there was a white deposit in a few areas. The deposit exhibited desiccation cracking and appeared to contain fine cement paste particles and some angular quartz fragments.

This deposit is expected to be drilling slurry.Not observed Petrographic Observations, Sample LD. 21269A Page 2 of 3 Form Reviewed and Approved for Use on Crystal River Cores Project 6468-09-2535 J. Allan Tice, Project Principal t ,,,, ....... .. .. ... .

... .........MACTEC-Location-Type Alteration:

Degree & Type Reaction Products-Location-Identification Nature and Condition of Surface Treatments Estimated water-cement ratio (based on visual observations only)Estimated cement content (based on visual observations only)PASTE:_Color (GSA rock color chart 1991)jardness Porosity Carbonation Residual un-hydrated Cement: I Distribution

-Particle Size-Abundance-Composition Mineral Admixtures:

-Size-Abundance Identification Contamination:

-Size I Not observed 1 There appeared to be white paint on the exterior surface of the core Appeared to have a moderately low w/c r atio possibly in the range of 0.4 to 0.5 Appeared to have a moderately high cement content... e i m a _............

....... ... ........ _ _.... ..Medium liaht aray ____Appeared moderately hard when scratched with a hardened steel point Did not appear very porous. It took from 10 minutes to over 20 minutes to absorb 15 micro liter drops of water.The outer 1/ to V2 inch of the exterior surface was carbonated.

The fractured surface was not carbonated.

Some un-hydrated/partially hydrated cement particles were observed Fly-ash was not observed-Abundance

-Identification Equipment Used: Cannon EOS Digital Rebel with 50mm macro lens and microscope adapters AmScope 7X to 45X stereo zoom microscope (with and without polarized light)Olympus BH-2 polarized light microscope Zeiss Photomicroscope II polarized light microscope Aven Digital Microscope Starrett 6 inch rule SN 109000003 Note: No M&TE used is subject to calibration requirements.

Petrographic Observations, Sample LD. 21269A Page 3 of 3 Form Reviewed and Approved for Use on Crystal River Cores Project 6468-09-2535 J. Allan Tice, Project Principal MACTEC

SUMMARY

OF PETROGRAPHIC OBSERVATIONS OF HARDENED CONCRETE-ASTM C-856-04._- .. NA..PROJECT NUMBER DATE SAMPLED RECEIVED 4ZART1 W Crystal River Core Petrography Project 6468-09-2535 11171z A SAMPLE SIZE AND DESCRIPTION Concrete core, approximately 3 3/4 inches in AS RECEIVED diameter, approximately 7 to 8 inches long.OBSERVATIONS BY David Wilson CHARACTERISTICS COARSE AGGREGATE:

Angula -to sub -rounde Angular to sub rounded Distribution Approximately 34 maximum size Even. Approximately 50% of the aggregates appeared to be coarse aggregates with the remaining fraction being the fine -ewi .--Nfle. .. ......... .. ...................

S Composition Carbonate, a few with siliceous deposits Rock Types Mostly limestone and fossiliferous limestone.

4 coarse aggregate particles on the cored surface retained moisture much longer than the other particles and one of these particles had a darkened rim Alteration:

Not observed Products Ctmtin gs RI n:.;Internal Cracking Not observ:d Not observed except for one particle Generally not observed except in the vicinity of the fractured surface. One of the particles that retained moisture longer than the other particles (referenced in rock type section) was observed in thin section and contained microcryswlline quartz and Petrographic Observations, Sample LD. 21271A Page I of4 Form Reviewed and Approved for Use on Crystal River Cores Project 6468-09-2535 J. Allan Tire, Project Principal SM"ACTEC radial silica (essentially chert) with the limestone, several cracks were obscrved going through the portion which was predominately chert. There appeared to be minor amounts of ASR gel but a positive identification could not be made due to the Ismall amount,, present.Contamination Not observed.FINE AGGREGATE:

Shape Generally sub-rounded to sub-an eular G --...... #4 and smaller...............

................................

........ ...... .... .... .. ...... .. .. .. ... ...Distribution

-Even Texture Fine Composition

.. ... ..Siliceous Rock Tytpes I Quartz ...Alteration:

Not Observed Degree-Products Coatings Not Observed Rims -Not Observed-Internal Cracking -. A few internal fractures were observed Contamination

~Not observed CHARA C TERiS TICS OBSERVATIONS CONCRETE:

  • _Air-Entrained or Not Appeared to have some air entrainment.

Total air content based on visual_ observations appeared to be 2 to 3%Air Voids: Mostly small and spherical.

Some air-void Shape clustering was observed around a few Size coarse aggregate particles.

The air void Distribution distribution was moderately un-even, some small areas lacked air entrainment.

There was some limited mineral growth observed in some of the air voids. Calcium hydroxide was observed lining some air voids.Bleeding__

..........................

.. INot Observed S or n I... Not Observed Aggregate-Paste Bond Coarse and fine aggregates appeared to have a good bond to the cement paste with few openings.

Some aggregate particles had increased calcium hydroxide in the___ _ paste surrounding the perimeter of the Petrographic Observations, Sample LD. 21271A Page 2 of4 Form Reviewed and Approved far Use on Crystal River Cores Project 6468-09-2535 J. Allan Tice, Project Principal MACTEC Fractures Embedded Items-Shape-Size-Location particle.One end of the core contained a fractured surface. There were some other minor fractures on the end with the fractured surface. There were some fractures associated the chert particle discussed p rev io u sly ...................

.......................

..Not observed-.ype Alteration:

Not observed-Degree & Type-Reaction Products-Location-Identification Nature and Condition of Surface I There appeared to be white paint on the Treatments exterior surface of the core Estimated water-cement radt6i(based on Appeared to have a moderately low w/c visual observations only) ratio possiblv in the range of 0.4 to 0.5 Estimated cement content (based on visual, Appeared to have a moderately high observations only) cement content PASTE: Hardness Porosity Carbonation Residual un-hydrated Cement:-Distribution

-Particle Size-Abundance Co- ....mpoition _ .. .Mineral Admixtures:

-Size-Abundance-Identification Contamination:

-Size-Abundance-Identification Appeared moderately hard when scratched with a hardened steel point Did not appear very porous. It took from 10 minutes to over 20 minutes to absorb 15 micro liter drops of water.The outer 1/4 to V/ inch of the exterior surface was carbonated.

The fractured surface was not carbonated.

Some un-hydrated/partdally hydrated cement particles were observed Fly-ash was not observed Not observed Petrographic Observations, Sample IMD. 21271A Page 3 of4 Form Reviewed and Approved for Use on Crystal River Cores Project 6468-09.2535 J. Allan Tice, Project Principal MACTEC Equipment Used: Cannon EOS Digital Rebel with 50amm macro lens and microscope adapters AmScope 7X to 45X stereo zoom microscope (with and without polarized light)Olympus BH-2 polarized light microscope Zeiss Photomicroscope II polarized light microscope Aven Digital Microscope Starrett 6 inch rule SN 109000003 Note: No M&TE used is subject to calibration requirements.

Petrographic Observations, Sample LD. 21271A Page 4 of4 Form Reviewed and Approved for Use on Crystal River Cores Project 6468-09.2535 J. Allan Tice, Project Principal 4 $

r k ~;<4>4 2 ri e zore az: the~facu~sUrface end.1T n~h #4 ii.....................................

.ll ............... I ............ .............................

~~~~**':*-

21~ ~'F il f~ ~>~~A CrYstal Ritvr Conicrete Care Observiaions, Sample /A!) 21269 RepvrY oif Petv graphic Obser,'auivts Crystal River Nuclear Gaeveating FacilitY, Florida___ 7 ___ 77#7 November I/, 2W09 MA CTEC Pnjyer No. 6468-09-2535 Remarks Close up of the fractured surface of core 21269. Note the desiccation cracking where the white deposit is thicker (shown by red arrow).Ph"raph #8 Remarks Polished section 21269A prepared from sample 21269 Mactee Iab 21269 P~r p~. .Cs~-'~'2~269.\. 7;c ~x'er ~i~zrcu~h ~, , -- -..... ..........

.... ....... ....... ýY- ;-- -----,-"~- rn ~ ri ~
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Crystal River Concrete Core Observations.

Sample 1.D. 21269 Report of Petrographic Observations Crystal River Nuclear Generating Facility, Florida? ýL #hI I=.. .... ........ ... .........

.................

......... ...November 11. 2(W)9 MACTEC Project No, 6468-09-2535 Remarks Photomicrograph of the fracture surface. Red arrow points to an air void with some mineral growth. Due to the uneven surface and limited depth of field at J this magnification, some areas are out of focus.I _____________

Photraph #12 ,4 A___Remarks

__Photomicrograph of the fracture surface. Red arrows point to an air voids with some mineral growth. Due to the uneven surface and limited depth of field at this magnification, some areas are out of focus.

S C'ri-sta Ri~e. (0;wrele~

CoQre Observations.

Scwipie I.1). 2 I269)(.Yvsial Rh"er Nuclear Gencraling FaciMiiv Florida Photograph

  1. 13 ______ __.November II. 2(V)MA CTEC Pmrve, No.

Remarks Photomicrograph of the polished section, The fracture surface is towards the bottom.Width of view is approximately 0.5 inch.IPhotograph

  1. 14 Remarks Photomicrograph of the Spolished section. The fracture surface is towards the bottom.Width of view is approximately 0.5 inch.7

,., ~VIA Cli. t: ~. '.4ffr~. '/'.1.~r~fl~fl ~1 S~r{Thed ~ Th~to .~urds 'h~7 hc~rt~ rn appr.~ximat~.h

(~.5 inch.P '~graph2fu~-Q ~h ~Aon N~)te v ~ ir~bu:cn rFr~.~m~t9x 6River Concrete Core Observdions, Sample ID. 21269 Report of Petrographic Observations Crystal River Nuclear Generatin8 Facilil.y Florida November 11. 2.009 WAACTEC Project No. 64684)9-2535

_PhW"O#1 Remarks Photomicrograph of the polished section, Note the un-even distribution of air voids. Width of view is approximately 0.5 inch.Remarks Photomicrograph of thin section using plane polarized light. The fractured surface is to the left. Note fractures (red arrow). Width of view is approximately 0.5 inch.Photorp 1 1) clysial Rii'ee Cancreie Core Observawons.

Sample L.1). 21269 Reporr qf Pet ragniphic Observations Crvstal River Nurfar Generating Facilitv, Florida Photogaph

  1. 19 Novemnber
11. 2(09 MACTEC Project No. 6468-.09-2535 Remarks Same view as in photograph
  1. 18 taken with cross potarized light. Red arrow pointsi to an air void Width of view is approximately 0.5 inch.Remarks Close up of the air void 'identified in photograph
  1. 19. Note the small mineral growth (red arrow), Width of view is approximately 0.5 inch.10 Crystal River Concrete Core Observations, Sample MD. 21269 Report of Petrographic Observations Crystal River Nuclear Generating Facility, Florida Photopraph

..... .... .November I, 2M09 MACTEC Project No. 6468-09.2535 Remarks Photomicrograph of a thin section taken with plane polarized light.The fracture surface is towards the bottom.Width of view is approximately 0.5 inch.P apk#22 Remarks Same view as photograph

  1. 21 taken with cross polarized light. The red arrow points to an air void with mineral growth (white area around void). The blue arrow points to a fractured surface (note lack of mineral deposits).

The yellow arrow points to a fractured piece of quartz. Width of view is approximately 0.5 inch.11

.0 Crystal River Comicrte Core Observations.

S&mple L D. 21269 Report of Petrmgraphic Observations Crystal River Nuclear Generating Facility, Florida Nm-emnber

//. AM'.AIACTEC Project NMo. 64M-0)9-25,15 Photogmiaph

  1. 23-i Remarks Another view of the area in photograph
  1. 22.Width of view is approximately 0.5 inch.12

-~ -~ LU ~ I'------ ----Su- 'ca istoCtw Ag U.IA to lre r 0CYvai Rivert ('o~rno e Core Observations.

Scwqile 1.I. 212171 RL-;krf of Pe?twigmphic 0h~enialiofts (rvstai Rjiver NVucle'ar Gecnerating Facifil).

IFlvridai Vqlcnhwrwjkl I1 00Y9 MA UTEC Proiet 'Vo. 6408fb'k-2il Photoaraph

  1. 3 Remarks The fracture surface of core 21271.Photoer-aph 44 Remarks The exterior surface oft core 2 127 1, 4 2 CrYstal River Concrete Core Observations.

Sample 1.D. 21271 Report of Petrographic Observations Crystal River Nuclear Generating Facility.

Florida No.vemiber 11, 2009 MACTEC Project No. 65468-09-25,15

_Khot%"p!ý#5 Remarks An aggregate particle on the cored surface.This particle has a darkened rim and the area around the particle appeared to retain moisture longer than the rest of the core.Marks on the ruler are 0.1 inch.Phokwaph #6 Remarks An aggregate particle on the cored surface.This particle has a darkened rim and the area around the particle appeared to retain moisture longer than the rest of the core.Marks on the ruler are 0.1 inch.

C. ystal River Concrete Core Observtions.

Sample l.D. 21271 Report of Petrographic Observations Crstal River Nuclear Generating Facility Florida Phot phI #7 Noa'rniber 1I. 2009 MACTEC Project No. 6468-09-2535

....

An aggregate particle on the cored surface.This particle has a U~JNtIIMU 11(1 nIIU tlh area around the particle appeared to retain moisture longer than the rest of the core.Marks on the ruler are 0.1 inch.~ph~AnRemarks An aggregate particle on the cored surface.This particle has a darkened rim and the area around the particle appeared to retain moisture longer than the rest of the core.Marks on the ruler are 0. 1 inch.4

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0 , .CrYstal River Concrete Core Observations.

Sample L .21271 Noverneber

1. 2L0W Report of Petrographic Observations MACTEC Project No. 6458J9-25 15 Crystal River Nuclear Generating Faciiti,.

Florida Photovaoh#I1

________ Remarks Close up of the polished sections showing the fracture surface (top of photograph).

Note uneven distribution of air voids. Width of view is approximately 0.4 inch.Remarks Close up of the polished sections showing the fracture surface (top of photograph).

Note uneven distribution of air voids. Width of view is approximately 0.4 inch.0 pol ished '-h Lr'even distribmuion cl'air voids. Width of viewi ap7r,.ixrnately 0.4 irzh.p7% s ;pcxInik'0. inh C'srtal River Concrete Core Obserations.

Sample I.D. 21271 November I1, 20109 Report of Petrogrnphic Observations MACTEC Project No. 6468-09-2535 Crystal River Nuclear Generating Faeilin';

Florida__________

ph_____#1_____

Remarks Close up of the polished sections showing the fracture surface (top of photograph).

Note uneven distribution of air voids. Width of view is approximately 0.4 inch.!j Photoraph__1 Remarks Close up of the polished sections showing the fracture surface (top of photograph).

Note uneven distribution of air voids. Width of view is approximately 0.4 inch.N C(rAstal River Concrete Core Observations, Sample 1, .21271 Report of Petrographic Obsepwitions Crvstai River Nuclear Generating Fixility.

Florida Nventber 1I, 2W9(MACTEC Project No. 6468-09-2535 Remarks Close up of the polished sections showing clustering of air voids around an aggregate particle.Width of view is approximately 0.2 inch.rd1 Remarks Close up of the polished sections showing uneven distribution of air voids. Width of view is approximately 0.2 inch.9 da K, f, r I Cs).p oup),hvwng the* fr: ý.tur"arfce Qý puf uneen i~t~-cnof 7a-ir ~dWPhi view is1 0.2 inch.T' m nrk, Ck~i up ,.f thc potisked sectzc, ns showirq thf 1-':cture surface ýtop 'it Note uneven distribution of air voids. Width o&view ik approximately 0.2 inch.10 b Crystal River Concrete Core Observations.

Sample ID. 21271 Navember 1I, 2009 Report of Petrographic Observations MACTEC Project No. 6468-09-2535 COstal River Nuclear Generating Faciliýo, Florida Phiotograph

  1. 21 Remnarks~r Photomicrograph of the fractured surface showing an air void with some mineral growth (red arrow).Because of the un-even surface and the magnification the focal.depth is limited and some areas of the photomicrograph are not in focus. Width of view is approximately 0.06 inch.: ............. .e a ~Photomicrograph of the fractured surface showing an air void with some mineral growth (red arrow).Because of the un-even surface and the magnification the focal depth is limited and some areas of the photomicrograph are not in focus. Width of view is approximately 0.06 inch.11

-, a Cr,-stal River Concrete Core Observations, Sample 1.0. 21271 Report , f Petrographic Observations Crrstal River Nuelear Generating Facilirt; Florida Photograph

  1. 23 November II. 2(X)Y MACTEC Project No. 6468-09-2535 Remarks Photomicrograph of thin section in plane polarized light. Note the mineral growth in the air void that was exposed at the fractured surface (red arrow).Note lack of mineral growth on fractured surface (blue arrow).Width of view is approximately 0.3 inch.,Xho!2graph
  1. 24 Remarks Photomicrograph of thin section using plane polarized light. Note fractures (red arrows)coming out of chert deposit (blue arrows) in a limestone particle.Width of view is approximately 0.5 inch.12

° I *Crstsal River Concrete Core Observations, Sample M.D. 21271 Report of Petrographic Observations Cnysral River Nuclear Generating Facilini, Florida IPhotograpy_2-N'ovember II, 2(009J MACTEC Project No. 6468-09-2535 I .Remarks Same view as photograph

  1. 24 taken with cross polarized light. Width of view is approximately 0.5 inch.wf ITPhotorap h#26 Remarks _Cracking in a chert deposit in a limestone particle (red arrows).Width of view Is approximately 0.5 inch.I 13

'4. I *('rvstai River Concrete Cure tibservaijols.

Sumple L. D. 21271 Report of Pet'rographic Observations Crvvtal River Nud acla Generrting Facility.

Florida Phetýph #27 November 1I. 20X)9 MACTEC Project No. 6468-09-25335 Remarks Same view at photograph

  1. 26 taken with cross polarized light. Width of view is approKimately 0.5 inch.14 77'- U -7371T~TNG LABI7ý,TR-Z4C¶4 * "C~'~-744, C.,44 -t?* 77.0 0 t '.R-P--FF7Do

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