characterisation of micro cracks caused by core …svensk kärnbränslehantering ab swedish nuclear...
TRANSCRIPT
![Page 1: Characterisation of micro cracks caused by core …Svensk Kärnbränslehantering AB Swedish Nuclear Fuel and Waste Management Co Box 250, SE-101 24 Stockholm Phone +46 8 459 84 00](https://reader034.vdocument.in/reader034/viewer/2022042100/5e7cbc02a2453142f902d95c/html5/thumbnails/1.jpg)
Svensk Kärnbränslehantering ABSwedish Nuclear Fueland Waste Management Co
Box 250, SE-101 24 Stockholm Phone +46 8 459 84 00
P-08-103
Characterisation of micro cracks caused by core-disking
Urban Åkesson
CBI Swedish Cement and Concrete Research Institute
December 2008
CM
Gru
ppen
AB
, Bro
mm
a, 2
009
![Page 2: Characterisation of micro cracks caused by core …Svensk Kärnbränslehantering AB Swedish Nuclear Fuel and Waste Management Co Box 250, SE-101 24 Stockholm Phone +46 8 459 84 00](https://reader034.vdocument.in/reader034/viewer/2022042100/5e7cbc02a2453142f902d95c/html5/thumbnails/2.jpg)
Tänd ett lager:
P, R eller TR.
Characterisation of micro cracks caused by core-disking
Urban Åkesson
CBI Swedish Cement and Concrete Research Institute
December 2008
ISSN 1402-3091
SKB Rapport R-08-103
Keywords: Core disking, Micro cracks, Image analysis.
This report concerns a study which was conducted for SKB. The conclusions and viewpoints presented in the report are those of the author(s) and do not necessarily coincide with those of the client.
A pdf version of this document can be downloaded from www.skb.se.
![Page 3: Characterisation of micro cracks caused by core …Svensk Kärnbränslehantering AB Swedish Nuclear Fuel and Waste Management Co Box 250, SE-101 24 Stockholm Phone +46 8 459 84 00](https://reader034.vdocument.in/reader034/viewer/2022042100/5e7cbc02a2453142f902d95c/html5/thumbnails/3.jpg)
3
Abstract
A quantitative study of the micro crack pattern has been carried out on thin sections from six different drill core specimens; two from Forsmark, Sweden and four from Underground Research Laboratory (URL) in Canada. The two Forsmark specimens and two of the URL specimens have been exposed to core disking. The results showed that transgranular micro cracks are mainly formed when the core disking occurs. These cracks are mostly situated within 1 mm from the large cracks that form the typical crack pattern characterizing the core disking phenomena. Between these large cracks there are very few micro cracks that can be related to core disking. There are very few transgranular cracks that not hit the mantle of the core which indicates that the transgranular cracks starts from the mantle of the core and propagate through the whole core or stop in the centre of the core.
![Page 4: Characterisation of micro cracks caused by core …Svensk Kärnbränslehantering AB Swedish Nuclear Fuel and Waste Management Co Box 250, SE-101 24 Stockholm Phone +46 8 459 84 00](https://reader034.vdocument.in/reader034/viewer/2022042100/5e7cbc02a2453142f902d95c/html5/thumbnails/4.jpg)
4
Sammanfattning
En kvantitativ studie av mikrosprickmönstret har utförts på tunnslip tagna från sex olika borrkärneprover, två från Forsmark, Sverige och fyra från Underground Research Laboratory (URL) i Kanada. De två proverna från Forsmark och två av proverna från URL har blivit utsatta för ”core disking”. Resultaten visar att det är främst transgranulära sprickor som bildas vid core disking och dessa sprickor uppträder i huvudsak inom 1 mm från de större synliga sprickorna i proverna. Mellan dessa större sprickor har väldigt få mikrosprickor påträffats som kan härledas till core disking. Det är väldigt få transgranulära sprickor som inte träffar manteln av borrkärnan, vilket indikerar att dessa sprickor startar vid manteln och propagerar genom hela borrkärnan eller stannar i centrum av kärnan.
![Page 5: Characterisation of micro cracks caused by core …Svensk Kärnbränslehantering AB Swedish Nuclear Fuel and Waste Management Co Box 250, SE-101 24 Stockholm Phone +46 8 459 84 00](https://reader034.vdocument.in/reader034/viewer/2022042100/5e7cbc02a2453142f902d95c/html5/thumbnails/5.jpg)
5
Contents
1 Introduction 7
2 Objective and scope 9
3 Execution 113.1 Description of the specimens 113.2 Testing 14
4 Results 154.1 Grain-size distribution 154.2 Micro crack analyses 17
4.2.1 Part I, Linear traverse measurements 184.2.2 Part II Length and Orientation of intragranular
and transgranular micro cracks 30
5 Discussion 43
![Page 6: Characterisation of micro cracks caused by core …Svensk Kärnbränslehantering AB Swedish Nuclear Fuel and Waste Management Co Box 250, SE-101 24 Stockholm Phone +46 8 459 84 00](https://reader034.vdocument.in/reader034/viewer/2022042100/5e7cbc02a2453142f902d95c/html5/thumbnails/6.jpg)
7
1 Introduction
This document reports the results from a quantitative study of micro cracks on six rock specimens. Two foliated granites specimens from Forsmark, Sweden and four granite and granodiorite specimens from Underground Research Laboratory (URL) in Canada.
The purpose of this project is to investigate the micro crack pattern when the rock is exposed for the core disking phenomena.
![Page 7: Characterisation of micro cracks caused by core …Svensk Kärnbränslehantering AB Swedish Nuclear Fuel and Waste Management Co Box 250, SE-101 24 Stockholm Phone +46 8 459 84 00](https://reader034.vdocument.in/reader034/viewer/2022042100/5e7cbc02a2453142f902d95c/html5/thumbnails/7.jpg)
9
2 Objective and scope
The purpose with this project is to characterise the micro crack pattern caused by core disking. This is done using quantitative microscopy and image analysis. The different type of micro cracks is classified (intragranular = within mineral grains, transgranular = crosses several miner-als and grain boundary cracks), their density parallel and perpendicular to the drill core axis. Length and orientation of transgranular and intragranular micro cracks will also be measured.
![Page 8: Characterisation of micro cracks caused by core …Svensk Kärnbränslehantering AB Swedish Nuclear Fuel and Waste Management Co Box 250, SE-101 24 Stockholm Phone +46 8 459 84 00](https://reader034.vdocument.in/reader034/viewer/2022042100/5e7cbc02a2453142f902d95c/html5/thumbnails/8.jpg)
11
3 Execution
3.1 Description of the specimensFigure 3-1 to 3-13 show the plan polished slabs, impregnated with epoxy containing fluorescent dye. The black rectangular shows were the thin sections were prepared.
Table 3-1. The analysed specimens. The specimens from Forsmark were foliated, therefore two specimens were prepared. A=perpendicular to the foliation and B=parallel to the foliation.
Specimen Borehole Length (m) Vertical Depth (m) Sample description
F2A KFM01B 475.544–475.744 466.803–467.003 Ring diskingF2B KFM01B 475.544–475.744 466.803–467.003 Ring diskingF4A KFM01B 241.395–241.658 236.960–237.218 Ring diskingF4B KFM01B 241.395–241.658 236.960–237.218 Ring diskingURL1A 423-009-MVP1 3.575–3.584 3.575–3.584 Solid diskingURL1B 421-012-MVP5 1.000–1.155 1.000–1.155 Solid diskingURL2 URL-5 453.890–454.100 440.410–440.610 Solid coreURL3 URL-6 13.200–13.420 13.200–13.420 Solid core
Figure 3-1 and 3-2. Specimen F2A.
Figure 3-3 and 3-4. Specimen F2B.
![Page 9: Characterisation of micro cracks caused by core …Svensk Kärnbränslehantering AB Swedish Nuclear Fuel and Waste Management Co Box 250, SE-101 24 Stockholm Phone +46 8 459 84 00](https://reader034.vdocument.in/reader034/viewer/2022042100/5e7cbc02a2453142f902d95c/html5/thumbnails/9.jpg)
12
Figure 3-5 and 3-6. Specimen F4A.
Figure 3-7 and 3-8. Specimen F4B.
Figure 3-9 and 3-10. Specimen URL1A.
![Page 10: Characterisation of micro cracks caused by core …Svensk Kärnbränslehantering AB Swedish Nuclear Fuel and Waste Management Co Box 250, SE-101 24 Stockholm Phone +46 8 459 84 00](https://reader034.vdocument.in/reader034/viewer/2022042100/5e7cbc02a2453142f902d95c/html5/thumbnails/10.jpg)
13
Figure 3-11 and 3-12. Specimen URL1B.
Figure 3-13. Specimens URL2 (grey) and URL3 (red).
![Page 11: Characterisation of micro cracks caused by core …Svensk Kärnbränslehantering AB Swedish Nuclear Fuel and Waste Management Co Box 250, SE-101 24 Stockholm Phone +46 8 459 84 00](https://reader034.vdocument.in/reader034/viewer/2022042100/5e7cbc02a2453142f902d95c/html5/thumbnails/11.jpg)
14
3.2 Testing
Item Activity
1 The specimens were impregnated with fluorescent epoxy.2 The specimens were cut in half and plan polished slabs were prepared.3 The specimens were photographed in JPEG format.4 Thin sections were prepared, one thin section for each URL specimen and two thin sections for each
Forsmark specimen.5 The grain-size distribution was determined for each specimen using linear traverse measurements on
microscopic images.6 Micro crack characterisation.
Two images taken with optical microscopy were used for the micro crack analyses, one using fluorescent light and one using polarised light. The area for each image is 2.78 x 2.10 mm per side and the image resolution is 680 x 512 pixels. The thin section was fixed on a motorised stage programmed so the images were photographed edge by edge creating a 12-image mosaic. The fluorescent and polarised images were considered together to make evaluation of where the micro cracks are formed (Figure 4-7).
The density of the different crack types was determined using linear traverse measurements.
The length and orientation of intragranular and transgranular cracks was determined using image analysis. The combined images were printed with a size of 272 x 269 mm and by using transparent paper, each crack-type was traced and coloured (blue = intragranular, and red = transgranular). The line-drawings were scanned into the computer, and by using RGB-thresholding technique, the length and orientation could be measured separately.
![Page 12: Characterisation of micro cracks caused by core …Svensk Kärnbränslehantering AB Swedish Nuclear Fuel and Waste Management Co Box 250, SE-101 24 Stockholm Phone +46 8 459 84 00](https://reader034.vdocument.in/reader034/viewer/2022042100/5e7cbc02a2453142f902d95c/html5/thumbnails/12.jpg)
15
4 Results
4.1 Grain-size distributionThe grain-size distribution was determined using linear traverse measurements on microscopic images. The grain-size distribution was only determined for F2A and F4A of the Forsmark specimens.
Figure 4-1. Grain-size distribution for specimen F2A. Median value within parenthesis.
Figure 4-2. Grain-size distribution for specimen F4A. Median value within parenthesis.
F2A (0,23)
0
20
40
60
80
100
0 0,2 0,4 0,6 0,8 1
Grain size (mm)
Acc
umul
ated
(%)
F4A (0.18)
0
20
40
60
80
100
0 0,2 0,4 0,6 0,8 1
Grain size (mm)
Acc
umul
ated
(%)
![Page 13: Characterisation of micro cracks caused by core …Svensk Kärnbränslehantering AB Swedish Nuclear Fuel and Waste Management Co Box 250, SE-101 24 Stockholm Phone +46 8 459 84 00](https://reader034.vdocument.in/reader034/viewer/2022042100/5e7cbc02a2453142f902d95c/html5/thumbnails/13.jpg)
16
URL 1B (0,38)
0
20
40
60
80
100
0 0,5 1 1,5 2Grain size (mm)
Acc
umul
ated
(%)
URL2 (0,54)
0
20
40
60
80
100
0 0,5 1 1,5 2 2,5 3
Grain size (mm)
Acc
umul
ated
(%)
URL 1A (1,0)
0
20
40
60
80
100
0 1 2 3 4 5 6Grain size (mm)
Acc
umul
ated
(%)
Figure 4-3. Grain-size distribution for specimen URL1A. Median value within parenthesis.
Figure 4-4. Grain-size distribution for specimen URL1B. Median value within parenthesis.
Figure 4-5. Grain-size distribution for specimen URL2. Median value within parenthesis.
![Page 14: Characterisation of micro cracks caused by core …Svensk Kärnbränslehantering AB Swedish Nuclear Fuel and Waste Management Co Box 250, SE-101 24 Stockholm Phone +46 8 459 84 00](https://reader034.vdocument.in/reader034/viewer/2022042100/5e7cbc02a2453142f902d95c/html5/thumbnails/14.jpg)
17
4.2 Micro crack analysesThe micro crack analyses are divided into two parts. Part I contains the amount and distribution of different cracks expressed as amount and percentage of cracks/mm.
Part II contains measurements of length and orientation of intragranular and transgranular cracks. For the Forsmark specimens, two thin sections have been analysed (see Figures 3-1 to 3-7).
URL3 (1.3)
0
20
40
60
80
100
0 1 2 3 4 5 6 7 8
Grain size (mm)
Acc
umul
ated
(%)
Figure 4-6. Grain-size distribution for specimen URL3. Median value within parenthesis.
![Page 15: Characterisation of micro cracks caused by core …Svensk Kärnbränslehantering AB Swedish Nuclear Fuel and Waste Management Co Box 250, SE-101 24 Stockholm Phone +46 8 459 84 00](https://reader034.vdocument.in/reader034/viewer/2022042100/5e7cbc02a2453142f902d95c/html5/thumbnails/15.jpg)
18
4.2.1 Part I, Linear traverse measurementsSpecimen F2A1
Figure 4-7. Combined polarised and fluorescent microscopic image of specimen F2A1. Image size is 8.3 x 8.3 mm.
Table 4-1. Crack density of specimen F2A1, based on linear traverse measurements.
Orientation Grain boundary (cracks/mm) (%)
Intragranular (cracks/mm) (%)
Transgranular (cracks/mm) (%)
Total (cracks/mm) (%)
Parallel to drill core 2.29/86 0.34/13 0.04/1 2.67Perpendicular to drill core 2.01/81 0.29/12 0.18/7 2.48Ratio 1.14 1.17 0.22 1.08
![Page 16: Characterisation of micro cracks caused by core …Svensk Kärnbränslehantering AB Swedish Nuclear Fuel and Waste Management Co Box 250, SE-101 24 Stockholm Phone +46 8 459 84 00](https://reader034.vdocument.in/reader034/viewer/2022042100/5e7cbc02a2453142f902d95c/html5/thumbnails/16.jpg)
19
Specimen F2A2
Figure 4-8. Combined polarised and fluorescent microscopic image of specimen F2A2. Image size is 8.3 x 8.3 mm.
Table 4-2. Crack density of specimen F2A2, based on linear traverse measurements.
Orientation Grain boundary (cracks/mm) (%)
Intragranular (cracks/mm) (%)
Transgranular (cracks/mm) (%)
Total (cracks/mm) (%)
Parallel to drill core 3.4/86 0.49/12 0.08/2 3.97Perpendicular to drill core 2.67/79 0.4/12 0.32/9 3.39Ratio 1.27 1.22 0.25 1.17
![Page 17: Characterisation of micro cracks caused by core …Svensk Kärnbränslehantering AB Swedish Nuclear Fuel and Waste Management Co Box 250, SE-101 24 Stockholm Phone +46 8 459 84 00](https://reader034.vdocument.in/reader034/viewer/2022042100/5e7cbc02a2453142f902d95c/html5/thumbnails/17.jpg)
20
Specimen F2B1
Figure 4-9. Combined polarised and fluorescent microscopic image of specimen F2B1. Image size is 8.3 x 8.3 mm.
Table 4-3. Crack density of specimen F2B1, based on linear traverse measurements.
Orientation Grain boundary (cracks/mm) (%)
Intragranular (cracks/mm) (%)
Transgranular (cracks/mm) (%)
Total (cracks/mm) (%)
Parallel to drill core 1.57/72 0.53/24 0.09/4 2.19Perpendicular to drill core 2.39/75 0.36/11 0.42/13 2.39Ratio 0.66 1.47 0.21 0.92
![Page 18: Characterisation of micro cracks caused by core …Svensk Kärnbränslehantering AB Swedish Nuclear Fuel and Waste Management Co Box 250, SE-101 24 Stockholm Phone +46 8 459 84 00](https://reader034.vdocument.in/reader034/viewer/2022042100/5e7cbc02a2453142f902d95c/html5/thumbnails/18.jpg)
21
Specimen F2B2
Figure 4-10. Combined polarised and fluorescent microscopic image of specimen F2B2. Image size is 8.3 x 8.3 mm.
Table 4-4. Crack density of specimen F2B2, based on linear traverse measurements.
Orientation Grain boundary (cracks/mm) (%)
Intragranular (cracks/mm) (%)
Transgranular (cracks/mm) (%)
Total (cracks/mm) (%)
Parallel to drill core 2.36/87 0.24/9 0.12/4 2.72Perpendicular to drill core 2.72/84 0.3/9 0.23/7 3.25Ratio 0.87 0.8 0.52 0.84
![Page 19: Characterisation of micro cracks caused by core …Svensk Kärnbränslehantering AB Swedish Nuclear Fuel and Waste Management Co Box 250, SE-101 24 Stockholm Phone +46 8 459 84 00](https://reader034.vdocument.in/reader034/viewer/2022042100/5e7cbc02a2453142f902d95c/html5/thumbnails/19.jpg)
22
Specimen F4A1
Figure 4-11. Combined polarised and fluorescent microscopic image of specimen F4A1. Image size is 8.3 x 8.3 mm.
Table 4-5. Crack density of specimen F4A1, based on linear traverse measurements.
Orientation Grain boundary (cracks/mm) (%)
Intragranular (cracks/mm) (%)
Transgranular (cracks/mm) (%)
Total (cracks/mm) (%)
Parallel to drill core 2.67/89 0.23/8 0.08/3 2.98Perpendicular to drill core 2.3/87 0.22/8 0.12/4 2.64Ratio 1.16 1.05 0.66 1.13
![Page 20: Characterisation of micro cracks caused by core …Svensk Kärnbränslehantering AB Swedish Nuclear Fuel and Waste Management Co Box 250, SE-101 24 Stockholm Phone +46 8 459 84 00](https://reader034.vdocument.in/reader034/viewer/2022042100/5e7cbc02a2453142f902d95c/html5/thumbnails/20.jpg)
23
Specimen F4A2
Figure 4-12. Combined polarised and fluorescent microscopic image of specimen F4A2. Image size is 8.3 x 8.3 mm.
Table 4-6. Crack density of specimen F4A2, based on linear traverse measurements.
Orientation Grain boundary (cracks/mm) (%)
Intragranular (cracks/mm) (%)
Transgranular (cracks/mm) (%)
Total (cracks/mm) (%)
Parallel to drill core 1.84/85 0.21/10 0.11/5 2.16Perpendicular to drill core 1.57/77 0.19/9 0.28/14 1.57Ratio 1.17 1.11 0.39 1.38
![Page 21: Characterisation of micro cracks caused by core …Svensk Kärnbränslehantering AB Swedish Nuclear Fuel and Waste Management Co Box 250, SE-101 24 Stockholm Phone +46 8 459 84 00](https://reader034.vdocument.in/reader034/viewer/2022042100/5e7cbc02a2453142f902d95c/html5/thumbnails/21.jpg)
24
Specimen F4B1
Figure 4-13. Combined polarised and fluorescent microscopic image of specimen F4B1. Image size is 8.3 x 8.3 mm.
Table 4-7. Crack density of specimen F4B1, based on linear traverse measurements.
Orientation Grain boundary (cracks/mm) (%)
Intragranular (cracks/mm) (%)
Transgranular (cracks/mm) (%)
Total (cracks/mm) (%)
Parallel to drill core 2.41/88 0.26/9 0.08/3 2.75Perpendicular to drill core 2,04/72 0,38/13 0,4/14 2,82Ratio 1.18 0.68 0.2 0.96
![Page 22: Characterisation of micro cracks caused by core …Svensk Kärnbränslehantering AB Swedish Nuclear Fuel and Waste Management Co Box 250, SE-101 24 Stockholm Phone +46 8 459 84 00](https://reader034.vdocument.in/reader034/viewer/2022042100/5e7cbc02a2453142f902d95c/html5/thumbnails/22.jpg)
25
Specimen F2B2
Figure 4-14. Combined polarised and fluorescent microscopic image of specimen F4B2. Image size is 8.3 x 8.3 mm.
Table 4-8. Crack density of specimen F4B2, based on linear traverse measurements.
Orientation Grain boundary (cracks/mm) (%)
Intragranular (cracks/mm) (%)
Transgranular (cracks/mm) (%)
Total (cracks/mm) (%)
Parallel to drill core 2.18/87 0.26/10 0.08/3 2.52Perpendicular to drill core 1.69/75 0.19/8 0.37/16 2.25Ratio 1.29 1.37 0.22 1.12
![Page 23: Characterisation of micro cracks caused by core …Svensk Kärnbränslehantering AB Swedish Nuclear Fuel and Waste Management Co Box 250, SE-101 24 Stockholm Phone +46 8 459 84 00](https://reader034.vdocument.in/reader034/viewer/2022042100/5e7cbc02a2453142f902d95c/html5/thumbnails/23.jpg)
26
Specimen URL1A
Figure 4-15. Combined polarised and fluorescent microscopic image of specimen URL1A. Image size is 8.3 x 8.3 mm.
Table 4-9. Crack density of specimen URL1A, based on linear traverse measurements.
Orientation Grainboundary (cracks/mm) (%)
Intragranular (cracks/mm) (%)
Transgranular (cracks/mm) (%)
Total (cracks/mm) (%)
Parallel to drill core 0.6/39 0.78/51 0.15/10 1.53Perpendicular to drill core 0.65/31 0.72/35 0.71/34 2.08Ratio 0.92 1.08 0.25 0.74
![Page 24: Characterisation of micro cracks caused by core …Svensk Kärnbränslehantering AB Swedish Nuclear Fuel and Waste Management Co Box 250, SE-101 24 Stockholm Phone +46 8 459 84 00](https://reader034.vdocument.in/reader034/viewer/2022042100/5e7cbc02a2453142f902d95c/html5/thumbnails/24.jpg)
27
Specimen URL1B
Figure 4-16. Combined polarised and fluorescent microscopic image of specimen URL1B. Image size is 8.3 x 8.3 mm.
Table 4-10. Crack density of specimen URL1B, based on linear traverse measurements.
Orientation Grain boundary (cracks/mm) (%)
Intragranular (cracks/mm) (%)
Transgranular (cracks/mm) (%)
Total (cracks/mm) (%)
Parallel to drill core 1.57/72 0.52/24 0.1/4 2.19Perpendicular to drill core 1.39/60 0.48/21 0.46/20 2.33Ratio 1.13 1.08 0.22 0.94
![Page 25: Characterisation of micro cracks caused by core …Svensk Kärnbränslehantering AB Swedish Nuclear Fuel and Waste Management Co Box 250, SE-101 24 Stockholm Phone +46 8 459 84 00](https://reader034.vdocument.in/reader034/viewer/2022042100/5e7cbc02a2453142f902d95c/html5/thumbnails/25.jpg)
28
Specimen URL2
Figure 4-17. Combined polarised and fluorescent microscopic image of specimen URL2. Image size is 8.3 x 8.3 mm.
Table 4-11. Crack density of specimen URL2, based on linear traverse measurements.
Orientation Grainboundary (cracks/mm) (%)
Intragranular (cracks/mm) (%)
Transgranular (cracks/mm) (%)
Total (cracks/mm) (%)
Parallel to drill core 1.48/64 0.71/31 0.12/5 2.31Perpendicular to drill core 1.27/61 0.64/31 0.18/9 2.09Ratio 1.17 1.11 0.67 1.11
![Page 26: Characterisation of micro cracks caused by core …Svensk Kärnbränslehantering AB Swedish Nuclear Fuel and Waste Management Co Box 250, SE-101 24 Stockholm Phone +46 8 459 84 00](https://reader034.vdocument.in/reader034/viewer/2022042100/5e7cbc02a2453142f902d95c/html5/thumbnails/26.jpg)
29
Specimen URL3
Figure 4-18. Combined polarised and fluorescent microscopic image of specimen URL3. Image size is 8.3 x 8.3 mm.
Table 4-12. Crack density of specimen URL3, based on linear traverse measurements.
Orientation Grain boundary (cracks/mm) (%)
Intragranular (cracks/mm) (%)
Transgranular (cracks/mm) (%)
Total (cracks/mm) (%)
Parallel to drill core 0.53/47 0.49/44 0.1/9 1.12Perpendicular to drill core 0.51/58 0.28/32 0.09/10 0.88Ratio 1.04 1.75 1.11 1.27
![Page 27: Characterisation of micro cracks caused by core …Svensk Kärnbränslehantering AB Swedish Nuclear Fuel and Waste Management Co Box 250, SE-101 24 Stockholm Phone +46 8 459 84 00](https://reader034.vdocument.in/reader034/viewer/2022042100/5e7cbc02a2453142f902d95c/html5/thumbnails/27.jpg)
30
4.2.2 Part II Length and Orientation of intragranular and transgranular micro cracks
The length and orientation of the intragranular and transgranular micro cracks have been deter-mined using digital image analysis. The length of the micro cracks is defined as the fiber length.
Fiber length = (P + (P2–16xA)0.5)/4 where:
P = Perimeter of the object and A is the area of the object.
Specimen F2A1
Figure 4-19. Diagrams showing the size distribution of intragranular and transgranular micro cracks of specimen F2A1.
Figure 4-20. Rose diagrams showing the orientation of intragranular and transgranular micro cracks of specimen F2A1.
F2A1 Intragranular (n. 116)
05101520253035404550
0-100 100-200
200-400
400-600
600-800
800-1000
1000-2000
Crack length (micron)
%
F2A1 Transgranular (n. 18)
0
5
10
15
20
25
30
0-500 500-1000
1000-2000
2000-4000
4000-6000
>6000
Crack length (micron)
%
![Page 28: Characterisation of micro cracks caused by core …Svensk Kärnbränslehantering AB Swedish Nuclear Fuel and Waste Management Co Box 250, SE-101 24 Stockholm Phone +46 8 459 84 00](https://reader034.vdocument.in/reader034/viewer/2022042100/5e7cbc02a2453142f902d95c/html5/thumbnails/28.jpg)
31
Specimen F2A2
Figure 4-21. Diagrams showing the size distribution of intragranular and transgranular micro cracks of specimen F2A2.
Figure 4-22. Rose diagrams showing the orientation of intragranular and transgranular micro cracks of specimen F2A1.
05101520253035404550
0-100 100-200 200-400 400-600 600-800
%
05101520253035404550
0-500 500-1000
1000-2000
2000-4000
4000-6000
>6000
%
F2A2 Intragranular (n. 148) F2A2 Transgranular (n. 17)
Crack length (micron) Crack length (micron)
![Page 29: Characterisation of micro cracks caused by core …Svensk Kärnbränslehantering AB Swedish Nuclear Fuel and Waste Management Co Box 250, SE-101 24 Stockholm Phone +46 8 459 84 00](https://reader034.vdocument.in/reader034/viewer/2022042100/5e7cbc02a2453142f902d95c/html5/thumbnails/29.jpg)
32
Specimen F2B1
Figure 4-23. Diagrams showing the size distribution of intragranular and transgranular micro cracks of specimen F2B1.
Figure 4-24. Rose diagrams showing the orientation of intragranular and transgranular micro cracks of specimen F2B1.
F2B1 Intragranular (n. 94)
0
10
20
30
40
50
60
0-100 100-200
200-400
400-600
600-800
800-1000
1000-2000
Crack length (micron)
%
F2B1 Transgranular (n. 18)
051015202530354045
0-500 500-1000
1000-2000
2000-4000
4000-6000
>6000
Crack length (micron)
%
![Page 30: Characterisation of micro cracks caused by core …Svensk Kärnbränslehantering AB Swedish Nuclear Fuel and Waste Management Co Box 250, SE-101 24 Stockholm Phone +46 8 459 84 00](https://reader034.vdocument.in/reader034/viewer/2022042100/5e7cbc02a2453142f902d95c/html5/thumbnails/30.jpg)
33
Specimen F2B2
Figure 4-25. Diagrams showing the size distribution of intragranular and transgranular micro cracks of specimen F2B2.
Figure 4-26. Rose diagrams showing the orientation of intragranular and transgranular micro cracks of specimen F2B2.
F2B2 Intragranular (n. 104)
0
10
20
30
40
50
60
70
0-100 100-200 200-400 400-600
Crack length (micron)
%F2B2 Transgranular (n. 13)
05101520253035404550
0-500 500-1000
1000-2000
2000-4000
4000-6000
>6000
Crack length (micron)
%
![Page 31: Characterisation of micro cracks caused by core …Svensk Kärnbränslehantering AB Swedish Nuclear Fuel and Waste Management Co Box 250, SE-101 24 Stockholm Phone +46 8 459 84 00](https://reader034.vdocument.in/reader034/viewer/2022042100/5e7cbc02a2453142f902d95c/html5/thumbnails/31.jpg)
34
Specimen F4A1
Figure 4-27. Diagrams showing the size distribution of intragranular and transgranular micro cracks of specimen F4A1.
Figure 4-28. Rose diagrams showing the orientation of intragranular and transgranular micro cracks of specimen F4A1.
F4A1 Intragranular
0
10
20
30
40
50
60
0-100 100-200 200-400 400-600
Crack length (micron)
%
F4A1 Transgranular
0
10
20
30
40
50
60
70
0-500 500-1000 1000-2000
Crack length (micron)
%
![Page 32: Characterisation of micro cracks caused by core …Svensk Kärnbränslehantering AB Swedish Nuclear Fuel and Waste Management Co Box 250, SE-101 24 Stockholm Phone +46 8 459 84 00](https://reader034.vdocument.in/reader034/viewer/2022042100/5e7cbc02a2453142f902d95c/html5/thumbnails/32.jpg)
35
Specimen F4A2
Figure 4-29. Diagrams showing the size distribution of intragranular and transgranular micro cracks of specimen F4A2.
Figure 4-30. Rose diagrams showing the orientation of intragranular and transgranular micro cracks of specimen F4A2.
F4A2 Intragranular (n. 140)
05101520
2530354045
0-100 100-200 200-400 400-600 600-800
Crack length (micron)
%F4A2 Transgranular (n. 21)
010
2030
4050
6070
80
0-500 500-1000
1000-2000
2000-4000
4000-6000
>6000
Crack length
%
![Page 33: Characterisation of micro cracks caused by core …Svensk Kärnbränslehantering AB Swedish Nuclear Fuel and Waste Management Co Box 250, SE-101 24 Stockholm Phone +46 8 459 84 00](https://reader034.vdocument.in/reader034/viewer/2022042100/5e7cbc02a2453142f902d95c/html5/thumbnails/33.jpg)
36
Specimen F4B1
Figure 4-31. Diagrams showing the size distribution of intragranular and transgranular micro cracks of specimen F4B1.
Figure 4-32. Rose diagrams showing the orientation of intragranular and transgranular micro cracks of specimen F4B1.
F4B1 Intragranular (n. 89)
0
10
20
30
40
50
60
70
0-100 100-200 200-400 400-600 600-800
Crack length (micron)
%
F4B1 Transgranular (n. 18)
05101520253035404550
0-500 500-1000
1000-2000
2000-4000
4000-6000
>6000
Crack length (micron)
%
![Page 34: Characterisation of micro cracks caused by core …Svensk Kärnbränslehantering AB Swedish Nuclear Fuel and Waste Management Co Box 250, SE-101 24 Stockholm Phone +46 8 459 84 00](https://reader034.vdocument.in/reader034/viewer/2022042100/5e7cbc02a2453142f902d95c/html5/thumbnails/34.jpg)
37
Specimen F4B2
Figure 4-33. Diagrams showing the size distribution of intragranular and transgranular micro cracks of specimen F4B2.
Figure 4-34. Rose diagrams showing the orientation of intragranular and transgranular micro cracks of specimen F4B2.
F4B2 Intragranular (n. 102)
0
10
20
30
40
50
60
0-100 100-200 200-400 400-600 600-800 800-1000Crack length (micron)
%F4B2 Transgranular (n. 19)
0
5
10
15
20
25
30
35
0-500 500-1000
1000-2000
2000-4000
>4000
Crack length (micron)
%
![Page 35: Characterisation of micro cracks caused by core …Svensk Kärnbränslehantering AB Swedish Nuclear Fuel and Waste Management Co Box 250, SE-101 24 Stockholm Phone +46 8 459 84 00](https://reader034.vdocument.in/reader034/viewer/2022042100/5e7cbc02a2453142f902d95c/html5/thumbnails/35.jpg)
38
Specimen URL1A
Figure 4-35. Diagrams showing the size distribution of intragranular and transgranular micro cracks of specimen URL1A.
Figure 4-36. Rose diagrams showing the orientation of intragranular and transgranular micro cracks of specimen URL1A.
URL1A Intragranular (n. 175)
051015202530354045
0-100 100-200
200-400
400-600
600-800
800-1000
1000-2000
>2000
Crack length (micron)
%
URL1A Transgranular (n. 32)
0
5
10
15
20
25
30
35
0-500 500-1000
1000-2000
2000-4000
4000-6000
>6000
Crack length (micron)
%
![Page 36: Characterisation of micro cracks caused by core …Svensk Kärnbränslehantering AB Swedish Nuclear Fuel and Waste Management Co Box 250, SE-101 24 Stockholm Phone +46 8 459 84 00](https://reader034.vdocument.in/reader034/viewer/2022042100/5e7cbc02a2453142f902d95c/html5/thumbnails/36.jpg)
39
Specimen URL1B
Figure 4-37. Diagrams showing the size distribution of intragranular and transgranular micro cracks of specimen URL1B.
Figure 4-38. Rose diagrams showing the orientation of intragranular and transgranular micro cracks of specimen URL1B.
URL1B Intragranular (n. 140)
0
10
20
30
40
50
60
70
0-100 100-200
200-400
400-600
600-800
800-1000
Crack length (micron)
%URL1B Transgranular (n. 23)
0
5
10
15
20
25
30
35
40
0-500 500-1000
1000-2000
2000-4000
4000-6000
>6000
Crack length (micron)
%
![Page 37: Characterisation of micro cracks caused by core …Svensk Kärnbränslehantering AB Swedish Nuclear Fuel and Waste Management Co Box 250, SE-101 24 Stockholm Phone +46 8 459 84 00](https://reader034.vdocument.in/reader034/viewer/2022042100/5e7cbc02a2453142f902d95c/html5/thumbnails/37.jpg)
40
Specimen URL2
Figure 4-39. Diagrams showing the size distribution of intragranular and transgranular micro cracks of specimen URL2.
Figure 4-40. Rose diagrams showing the orientation of intragranular and transgranular micro cracks of specimen URL2.
URL2 Intragranular (n. 215)
0
10
20
30
40
50
60
70
0-100 100-200
200-400
400-600
600-800
800-1000
1000-2000
>2000
Crack length (micron)
%
URL2 Transgranular (n. 22)
05101520253035404550
0-500 500-1000 1000-2000
Crack length (micron)
%
![Page 38: Characterisation of micro cracks caused by core …Svensk Kärnbränslehantering AB Swedish Nuclear Fuel and Waste Management Co Box 250, SE-101 24 Stockholm Phone +46 8 459 84 00](https://reader034.vdocument.in/reader034/viewer/2022042100/5e7cbc02a2453142f902d95c/html5/thumbnails/38.jpg)
41
Specimen URL3
Figure 4-41. Diagrams showing the size distribution of intragranular and transgranular micro cracks of specimen URL3.
Figure 4-42. Rose diagrams showing the orientation of intragranular and transgranular micro cracks of specimen URL3.
URL3 Intragranular (n. 92)
0
5
1015
20
25
30
3540
45
50
0-100 100-200
200-400
400-600
600-800
800-1000
1000-2000
>2000
Crack length (micron)
%URL3 Transgranular (n. 8)
0102030405060708090100
0-500 500-1000 1000-2000
Crack length (micron)
%
![Page 39: Characterisation of micro cracks caused by core …Svensk Kärnbränslehantering AB Swedish Nuclear Fuel and Waste Management Co Box 250, SE-101 24 Stockholm Phone +46 8 459 84 00](https://reader034.vdocument.in/reader034/viewer/2022042100/5e7cbc02a2453142f902d95c/html5/thumbnails/39.jpg)
43
5 Discussion
The results showed that mainly transgranular micro cracks were formed due to the core disking, and these cracks are mainly situated within 1 mm from the large cracks that form the typical crack pattern for the core disking phenomena (e.g. Figure 3-2).
According to the results is the rock between the large transgranular cracks rather undisturbed. This feature is shown for all specimens.
The transgranular cracks easily propagate through quartz and feldspar minerals, but when they meet a biotite the crack propagation stops or continues around the biotite (Figure 5-1). There are very few transgranular cracks that not hit the mantle of the core which indicates that the transgranular cracks starts from the mantle of the core and propagate through the whole core or stop in the centre of the core.
The linear traverse measurements show a small trend that there are more grain boundary and intragranular micro cracks that are oriented parallel to the drill core, especially for the Forsmark specimens. One suggestion for this result could be that existing micro cracks close when the core disking occurs.
Figure 5-1. Combined polarised and fluorescent microscopic image of specimen F2A2, showing how the cracks propagate around the biotite. Image size is 2.8 x 2.1 mm.